HomeMy WebLinkAboutSusitna FERC Vol 10B exhibit E chapter 11 1983,.SUSITNA HYDROELECTRIC PROJE
FERC l,.ICENSE APPLICATION
PROJECT NO.7114-000
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Demeo,Inc.38-293
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ARLIS
Alaska Resources
Library &Information Services
Anchorage,Alaska
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AUG 2 3 1983
BEFORE THE
FEDERAL ENERGY REGULATORY COMMISSION
APPLICATION FOR LICENSE FOR MAJOR PROJECT
SUSITNA HYDROELECTRIC PROJECT
VOLUME lOB
EXHIBIT E
Chapter 11
FEBRUARY 1983
lK:1 6 0 \L.\'Ls,.
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no ,11;2..
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ARLIS
Alaska Resources
Library &Informat1on Services
Anchorage,Alaska
I....--__ALASKA POWER AUTHORITY __----I
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SUSITNA HYDROELECTRIC PROJECT
VOLUME lOB
EXHIBIT E CHAPTER 11
ApPENDICES I THROUGH J
AGENCY CONSULTATION
APPENDIX Ell!
CORRESPONDENCE RELATING TO DRAFT LICENSE REVIEW
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APPENDIX 11.1
DRAFT LICENSE REVIEW
On November 15,1982,a Draft Exhibit E of the license application was
distributed to appropriate federal,state,and local agencies.Following the
workshop (see Appendix 11.H)and the 60-day review period,comments were
received from the resource agencies.This appendix contains copies of all
agency correspondence received related to review of Draft Exhibit E.
Responses to all these comments are contained in Volume _of this chapter.
Comments relating to any mitigation measures or facilities recommended by the
agencies are addressed specifically at the end of the appropriate chapters of
Exhibit E.
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-[Ii]
Dear
November i5,1982
Susitna Hydroelectric Project
Document Transmittal
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On behalf of the Alaska Power Authority I am pleased to provide herewith
a draft of Exhibit E of the license application for the Susitna Hydro-
electric Project.Your earliest possible review and comment would be
very much appreciated.
Approximately a month ago,Acres American Incorporated informed you
that today's distribution would be made,and advised you of our plans
to hold a workshop during the week of November 29 through December 3,
1982.I am convinced that,with your cooperation,the workshop sessions
will be extremely valuable to us as a partial basis for refining and
improving the enclosed document.
Earlier this year,your agency received copies of the draft feasibility
report for the Susitna Hydroelectric Project.With a few exceptions
generally noted in the attached document,Volume 1 (Engineering and
Economic Aspects)of the draft feasibility report remains valid.
(Particularly important project changes since March,1982 include a
new access plan and a major modification to the post-project flow
regime.)Volume 2 (Environmental Report)of the draft feasibility
report is superseded by the attached draft Exhi bit E.'.
Simultaneously with your receipt of this draft Exhibit,we are delivering
copies of the draft license application to the Federal Energy Regulatory
Commission (FERC).FERC's critical review along with your input to us
will greatly influence the content of the final application now planned
for submission on February 15,1983.
It is my sincere desire that we can together achieve interactive,face-
to-face consul tation on the various aspects of the project.The WOt~k
shop noted above will be valuable in that regard.Insofar as written
comments are concerned,I would very much appreciate it if we could
receive them --even in draft form if necessary --by the end of December.
The final deadline for receipt of written comments is 60 days after your
receipt of the enclosed document.
ACRES AMERICAN INCORPORATED
Consulting Engineers
The Liberty Bank Building.Main at Court
Buffalo.New York 14202
.-Telephone 716-853-7525 Telex 91-6423 ACRES BUF
Other Offices:Columbia,MD:Pittsburgh,PA:Raleigh,NC:Washington,DC
November 15,1982
Page 2
Please be assured that after the official application is submitted to FERC,
you will have continuing opportunity for review as an essential part in the
licensing process.
Thanking you in advance for your diligent efforts on this important matter,
I am
Sincerely,
C.A.Debel ius
Project Manager
Enc1:a/s
ACRES AMERICAN INCORPORATED
Letter on Preceding Page a~d
Copy of Draft Exhibit E was Provided To:
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Mr.John E.Cook
Reqional Director
Alaska Region
National Park Service
450 West Fifth Avenue
Anchorage,Alaska 99501
Mr.Larry Wright
National Park Service
1011 East Tudor Road
Suite 297
Anchorage,Alaska 99503
Director of Planning
Fairbanks-North Star Borough
520 5th Avenue
P.O.Box 1267
Fairbanks,Alaska 99701
Mr.David Haas
State-Federal Assistance Coordinator
State of Alaska
Office of the Governor
Division of Policy Development
and Planning
Pouch AW
Juneau,Alaska 99811
Ms.Wendy Wolt
Office of Coastal Management
Division of Policy Development &Planning
Pouch AP
Juneau,Alaska 99811
Mr.Roy Huhndorf
President
Cook Inlet Region,Inc.
P.O.Box 4N
Anchorage,Alaska 99509
Mr.Phil Emery
Office of the Director
U.S.Geological Survey
218 IIE II Street
Anchorage,Alaska 99501
Mr.Robert Lamke
Water Resources
U.S.Geological Survey
733 West 4th Avenue
Suite 400
Anchorage,Alaska 99501
Mr.John Katz
Commissioner
Alaska Dept.of Natural Resources
Pouch M
Juneau,Alaska 99811
Mr.Alan Carson
Division of Natural Resources
Alaska Dept.of Natural Resources
Pouch 7-005
Anchorage,Alaska 99510
Mr.Lawrence H.Kimball Jr.
Di rector
Division of Community Plann'ing
Department of Community and
Regional Affairs
225 Cordova,Bldg.B
Anchorage,Alaska 99501
Mr.Ed Busch
Planning Supervisor
Dept.of Community and
Regional Affairs
225 Cordova,Bldg.B
Anchorage,Alaska 99501
Mr.Robert McVey
Director,Alaska Region
National Marine Fisheries Service
NOAA
P.O.Box 1668
Juneau,Alaska 99802
Mr.Brad Smith
Anchorage Field Office
National Marine Fisheries Service
701 C Street,Box 43
Anchorage,Alaska 99513
Mr.Michael Meehan
Director,Planning Department
Municipality of Anchorage
Pouch 6-650
Anchorage,Alaska 99502
Mr.Ernst W.Mueller
Commissioner
Alaska Department of
Environmental Conversation
Pouch 0
Juneau,Alaska 99811
Mr.Robert Martin
Alaska Department of
Environmental Conservation
437 E Street,2nd Floor
Anchorage,Alaska 99501
Co 1.Neil E.Sa il i ng
District Engineer
Alaska District
U.S.Army Corps of Engineers
P.O.Box 7002
Anchorage,Alaska 99510
Mr.Wayne A.Bodin
District Manager
U.S.Bureau of Land Management
4700 E.72nd Avenue
Anchorage,Alaska 99507
Mr.John Rego
Bureau of Land Management
Anchorage District Office
4700 E.72nd Avenue
Anchorage,Alaska 99507
Mr.Keith Schreiner
Regional Director.Region 7
U.S.Fish and Wildlife Service
lOll East Tudor Road
Anchorage,Alaska 99503
Mr.Robert Bowker
U.S.Fish and Wildlife Service
Western Alaska Ecological
Service
733 W.4th Avenue
Anchorage.Alaska 99501
Page 2
Mr.Gary Stackhouse
U.S.Fish and Wildlife Service
lOll East Tudor Road
Anchorage,Alaska 99503
Mr.Ty Dillip1ane
State Historic Preservation Officer
Alaska Dept.of Natural Resources
Division of Parks
619 Warehouse Avenue.Suite 210
Anchorage,Alaska 99501
Mr.Herb Smelcer.President
General Manager AHTNA Corporation
Drawer G Copper Center,Alaska 99573
Mr.Ronald O.Skoog
Commissioner
State of Alaska
Department of Fish and Game
P.O.Box 3-2000/Subport Bldg.
Juneau,Alaska 99801
Carl M.Yanagawa
Regional Supervisor for
Habitat Division
State of Alaska
Department of Fish and Game
333 Raspberry Road
Anchorage,Alaska 99502
Don McKey
Habitat Protection Section
State of Alaska
Dept.of Fish and Game
333 Raspberry Road
Anchorage,Alaska 99502
Mr.William Lawrence
U.S.Environmental Protection Agency
Alaska Operations Office
701 C Street,Box 19
Anchorage,Alaska 99513
Mr.Claudio Arenas
Planning Director
Matanuska-Susitna Borough
Box B
Palmer,Alaska 99645
Mrs.Agnes Brown
President and Chairman
Tyonek Native Corporation
912 East 15th Avenue,Suite 200
Anchorage,Alaska 99501
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UNITED STATES DEPARTMENT OF COMMERCE
National Oceanic and Atmi:lspheric Administration
National Marine Fisheries Service
P.o.Box 1668 nE'1f\fii ~.J'.'~.<'._....••~.Juneau~Alaska 99802 ur~~'~~'nl
A1Ast<APdNER"-~
AUrHORm J
'SUSITNA
FILE P5l~1·t.-!-/I
Alaska Power Authority
99510
November 29,1982
Mr.Eric Yould
Executive Director,
334 West 5th.Ave.
Anchorage,Alaska
Dear Mr.Yould:
SEQUENCe No.1
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Sell I..~-"I~le have received a letter from Acres American dated November 15;1982L-MPB.
accompanying the Draft FERC license application Exhibit E for the.WD
Susitna Hydroelectric Project.In that letter our comments are re--MS -_.---
quested,and a deadline for receipt of written comments established as'R.C --1--:
60 days after receipt of the document.As you know,the FERC gui del i n-e;-DF ----!
require consultation between the applicant and the National r'1arine --·--1
Fisheries Service (NMFS)regarding project impact to the environment 1_DC .I'
Specifically,Subpart E,section 4.41 (f)requires an environmental 'I~r-~===
report (License Exhibit E)to be prepared after consultation with NMFD I
and that NMFS shall be afforded a minimum of sixty (60)days for consul BUFF,.
tation and documentation of concerns.The FERC has clarified this RlE
process in jtsApri1 1982 publication Application Procedures for Hydro-
pm"er Licenses,Exemptions and Preliminary Permits.Appendix A of this
document concerns the Consultation Process,and describes a three-level
process;initial agency contact after which an application is prepared;
formal consultation requested by the applicant who at this stage pro-
vides NMFS with a copy of the application,a detailed description of the
project and the results of any studies performed,then must allow a
minimum of 60 days for agency comment;and finally documentation of the
consultation process,wherein the applicant presents in the application
its response to comments and recommendations received during the agency
review period.
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As we enter the second stage of this process,our agency recognizes the
concerns over permitting and licensing delays and wishes to provide as
timely a response as possible.However,the 60 day review constitutes
the minimum period prescribed by FERC for all projects larger than 5 MW.
Considering the magnitude of the Susitna proposal and the environmental
values which must be addressed,we believe a more liberal response
period is certainly appropriate.
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Also,as suggested by the FERC 1982 Application Procedures,our review
would be facilitated by receiving the complete application and werequestthatsuchbeprovided.
Sincerely,
/-.~·-9/6~f /ROb7A~y~ctor,Alaska Region
DEC 081982
ALASKA POWER AUTHORITY
34 WEST 5th AVENUE·ANCHORAGE,ALASKA 99501
Review of Draft Exhibit E,Susitna Hydroelectric Project
UASKA POWEll
AUTHORITY
SUSITNA
Phone:(907)2n·7641
(907)276-0001
Susitna File 78.2.7
Task 7.1
December 6,1982
Service
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~.'~.1\~.'I ~IMr.Robert W.McVey
\~I 0 ~Director,Alaska Region
-~\JOG'---National Marine Fisheries
'.....--IVTS-P.o.Box 1668
j ~\lH-'-TJuneau,Alaska 99802rc,'-=!SUbject:
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Dear Mr.McVey:
The letter transmitting a copy of Draft Exhibit E pointed out that
the description of facilities remained unchanged from that found in the
Feasibility Report (with the exception of access and transmission
routes).As your agency is already in receipt of the Feasibility
Report,we did not send you copies of the engineering draft exhibits.
Until submission of the formal application,we are trying to minimize
distribution of transitory documents to reduce the burden of review upon
agencies.We suggest it may be appropriate to wait for the application
document in February,but,if you wish to review these documents as
well,we will attempt to make a set available.
:\..~';.:-I The Alaska Power Authority appreciates the burden that our request
:~c -por a sixty-day review and comment on the Draft Exhibit E makes upon
DF -your staff.To assist them in their review,we presented extensive
------material to agency personnel during the review workshop from
..DC November 29,1982,through December 2,1982.Our intenti on was to
~~~~~acilitate the sixty-day review and comment period which we feel must be
~!1aintained if the Power Authority is to remain on its submission1--+B-U-FF-.-+--I~chedule.
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Sincerely,
FOR THE EXECUTIVE DIRECTOR
--/I
Richard S.Fleming
Deputy Project Manager,Environment
Susitna Hydroelectric Project
RSF:cb
cc:<·John~.Hayden,Acres American,Anchorage
Gary Lawley,-Envfrosphere,Anchorage
u.s.DEPARTMENT OF COMMERCE
National OCllanic and Atmospheric Admfnf.tr8tfan
NationaZ Marine Fisheries Service
701 C St./lox 43 JAN 27 1983
Anchorage,Alaska 99513
BUFF.
IfilE
Mr.Eric Yould
Executive Director
Alaska Power Authority
334 ~J.5th.Ave.
Anchorage,Alaska 99501
January 12,1983
SJLDearI~r.Yould:1!.JIB -I
The National Marine Fisheries Service is currently reviewing the draft li~-slwD~--I
application Exhibit E for the Susitna Hydroelectric project.Due to staf~gi MS __
constraints and the magnitude of the Susitna project.we will require a ~v ~RC __
period exceeding the 60 day minimum specified in the FERC regulations.we-Df
anticipate our official response will be completed and available to you b --OC------
January 28 of this year.APA------
Sincerely,
"1 Sf:t~~·-r~'V~
Ronald J:orris
Western Alaska Office Supervisor
Environmental Assessment Division
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January 25,1983
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.nDD 00J0 83
UNITED STATES DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric Administration
National.Marine Fisheries Service
P.o.Bo:z:1668
Juneau,ALaska 99802
RECEIVED
JAN 2 G1983
A\~~\A r~//w'i
1~~~.0":<:;l Mr.Eri c Youl d
Il·E P/5T:A/I Executive Director,Alaska
, •_I,I _!334 W.5th Avenue
SEQL':-dCr:N c.~Anchorage,Alas ka 99501
r--I
I 1 Dear Mr.Youl d:z~i a:i 1-'
§~I ~\'~1The National Marine Fisheries Service (NMFS)is entrusted with Federal
4'I ~~\'jUrisdiction over marine,estuarine,and anadromous fishery resources.-;-,r.r.7:-r--Under Reorganization Plan No.4 of 1970,3 C.F.R.Section 203 (1970-f~l,,"~--I~compilation),reprinted in 5 U.S.C.Appendix II at 64 (1970),NMFS was
-irl:.:.~;-~;established to exercise those functions previously carried out by the
Ii :--";;--i-;Bureau of Commercial Fisheries.By virtue of this delegation of
;__;authority,NMFS is responsible for oversight and evaluation of activi-Ir'---ties which may affect marine,estuarine,and anadromous ·fishery
•resources.Under the Fish al1d Wildlife Act of 1956,16 -U.S.C.Section
-'661-666 (c)requires that NMFS be consulted "whenever the waters of any
---,stream or other body of water are proposed or authorized to be im-
---'pounded •••for any purpose whatever ••~by any public or private agency
-I _.,---.tunder Federal permit or 1icense.1I NMFSinterests in the protection of
--i~...j-marine,estuarine,and anadromous fishery resources also derives from J
~."•._._'.',....I-J _1---1 the.Anadromous.Fish Conservation Act,the Magnuson Fishery Conservation 1--'n'lA =1 land Management Act,and the National Environmental Policy Act.The FERe1rulesandregulationsrequireconsultationwithNMFSwheneveraproject
:~~~.- -may affect anadromous,estuarine,or marine fishery resources.
FILE~~---------The National Marine Fisheries Service has reviewed draft Exhibit E of
_the Jicense_application for_the.Susitna Hydroelectric_Project._We are._._
submitting comments on this document which satisfy,in part,the agency
coordination mechanism established by the Federal Energy Regulatory
Commission (FERC).The formal position of NMFS in regards to the
Susitna Project has been requested and provided to the Alaska Power
Authority (APA)in several previous instances.Specifically,we refer
to the following NMFS correspondence which should be considered,along
with the Exhibit E comments,as formal ~oordination.
~.Letter to Eric Yould from Robert McVey,Director,Alaska Region
.....NMFS,November 29,1982 •
.,....z.Statement of Robert McVey before the Alaska Power Authority Board of
Directors,April 16,1982.
3.Letter to Eric JOl,lJd Jr".o,m Robert McVey,October 15,1982.
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v Because of the nature and magnitude of this project,and certain
unresolved issues concerning resources for which NMFS bears
responsibility,we do not feel the formal consultation process is
complete at this stage.NMFS will continue to assist your agency
throughout the planning and licensing process.
General Comments
Our review found this license exhibit to be very informative and gen-
erally well developed.It represents a considerable improvement over
the 1981 Feasibility Report,particularly in its consideration of
filling concerns and in discussing project effects from a Watana alone
and Watana/Devil Canyon combined perspective.
We have not commented extensively on chapters 5,Socioeconomic impacts
or 10,Alternatives.However we believe it is important to recognize
certain recent developments which will influence the feasibility of this
project.World oil prices have failed to escalate as projected in
earlier economic studies.Natural gas alternatives have been influenced
by recent pricing agreements and a proposal to construct a gas pipeline
capable of supplying much of the Southcentral population.We have
recently revi ewed the Batte 11 e Rail be 1t El ectri c Power Authori ty Study
Newsletter #4,December,1982.This newsletter presents an updated
electrical demand forecast which,for the year 2010,is 44 percent lower
than the 1980 ISER forecast.Load forecasts will dictate facility
design and operations which,in turn,will determine the amount of water
required for power production and available for downstream fisheries
flow.In an ACRES report of October 1982,Energy Simulation Studies to
Select Project Drawdown and Mitigation Flows,energy simulations were
made which assumed a medium load forecast for the year 2010 of 7791 GWH,
a figure significantly in excess of the recent Battelle forecast of 3844
and 4986 for medium and low 2010 demand.It appears that many of the
basic economic premises upon which this project was planned have now
changed.We believe the license application should fully consider the
impact of these events and discuss their effect or impact on overall
project feasibility,the need for Watana to be_operational by 1993,and
the economics associated with providing sufficient downstream flows to
minimize fishery impacts.
The data gathered from the environmental field studies,begun in June
1981,and presented in the Exhibit,show the Susitna River system to
support large,valuable runs of pacific salmon,other anadromous fish,
and several freshwat~r resident fish species.T~e proposed project
would impact these resources,particularly in that reach of the Susitna
River between Devil Canyon and Talkeetna.The primary interests and
concerns of NMFS in the Susitna feasibility studies have been to assure
that (1)the fishery resources are identified and quantified,(2)
specific impacts are identified,(3)impacts are avoided whenever
possible,and (4)specific and effective mitigative measures are
developed for all unavoidabl~adverse impacts.
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The results of these studies and other materials presented within
license Exhibit E indicate that project construction and operation will
significantly affect fishery resources through changes in streamflow,
water quality,temperatures,ice conditions,vegetation,and slough
habitat.Studies to identi~y and assess these changes and to describe
the fishery resources of the project area were initiated in 1981.At
this time two field seasons of data have been gathered.However,the
draft Exhibit E does not.include most of the 1982 data nor the results
or analysis of that data.The document clearly suffers by this
omi~sion,and we recommend that Exhibit E of the license application
include a presentation and analysis of the 1982 data.
Throughout Exhibit E references are made to ongoing or proposed studies
which will address issues we consider critical to the feasibility of
this project.Yet it is not clear what these studies will entail,who
will conduct them or when they will occur.We recommend that the
license application detail ongoing and proposed studies.
The information presented in Exhibit E regarding reservoir operations
does not sufficiently convey the range of impacts presented by the
project.We recomnlend the license application be expanded to include a
more precise description of impacts and present the following
design/operating concerns:.
Flow releases -based upon weekly rather than monthly averages.
Quantification of II norma lll spillages,below the 1 in 50 year event,
passed through the outlet/cone valve facility.
Potential peaking operations at Watanawithout the Devil Canyon Dam.
ACRES has identified this as a possibility.What circumstances would
dict1ate such operation?What daily and hourly fluctuations would
result?How would such 'fluctuations be attenuated by tributary input
and the river distance between Watana and Devil Canyon?
Compensation flow pumps at the Devil Canyon facility.What flows
will they provide?How were these flows established?Are these
pumps still planned for this facility?
We continue"to be concerned about development"of"a release schedule
which would mitigate impacts to fisheries.The draft Exhibit Estates
that reduced flows could impair fish migration,de-water spawning and
rearing habitat,prevent access to slough and side channel habitats,and
lower or eliminate inter-gravel flows to slough and side channel
spawning grounds.The minimum flows proposed in Exhibit E,however,
were not developed using any recognized in-stream flow predictive
methodologies,and may not constitute the preferred flow regime for
minimizing such effects.The license exhibits do not explain how the
12,000 cubic feet per second (cfs)minimum operational flows for August
and September were determined.We note that these flows have been
reduced from those recommended minimum flows presented in the 1982 Final
Draft Feasibility Report,Volume 2.Similarly,no rationale is provided
which supports II minimum ll winter flows ten times that of existing natural
winter flows.We believe that maximum winter flow limits should be
required as well,particularly in light of p'otential staging should ice
cover develop below Devil Canyon.
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Exhibit E suggests that it may be desirable to spike spring flows to
accommodate out-migrants and facilitate flushing of sloughs and side
channels.It also states that the project release schedule will need to
incorporate both vol ume and temperature consi derati ons.However',
neither of these concerns is reflected in the proposed flow regime.The
release schedule presented is not supported by biological data,nor does
it reflect concerns for fish passage.We recommend that the license-
application contain a specific,detailed flow release schedule,
developed through a guantifiable in-stream flow analysis and coordinated
with NMFS.US Fish and Wildlife Service and the Alaska De artment of
1S an Game DFG,which wou d minim1ze impacts and/or en ance
conditions for s awnin ,feedin,assa e,out-mi ration,and
overw1ntering in t e Susitna River.
The Watana and Devil Canyon dams will cause changes to the existing
water temperature regime of the Susitna River,generally releasing
cooler water during summer months and warmer water in winter.
Temperature variations affect the ability of fish to migrate,spawn,
feed,and develop in the Susitna system.Ice formation will be delayed
or possibly not occur.Exhibit E discusses this matter at length but
does not present an accurate description of post-project temperature
alterations.A model was developed to project temperatures,yet it has
been operated with only one year of data (1981).Further,this model
was run only for the months of June through October.Temperature
modeling is not presented for the Devil Canyon Reservoir,yet Exhibit E
states that the location of ice formation above Talkeetna will depend on
the outflow temperatures from Devil Canyon Dam.
Realizing the importance of an accurate understandin~of the thermal
structure within the reservoirs and of outflow temperatures,we believe
additional information is warranted.We recommend that modeling be done
for both reservoirs throughout the year,and the resultant data be
incorporated into the riverine temperature model calibrated with at
least two seasons data.
----._...~---Of the various fish habitats below Devil Canyon Dam.the sloughs between
Talkeetna and Portage Creek are the most likely to be adversely affected
by the proposed work.Approximately thirty-five sloughs exist in this
reach.Adult salmon have been observed in at least twenty-six of these.
Post project flows and water temperatures will present several
significant impacts to these habitats.These are discussed in some
detail in Exhibit E.However,on only one of these,slough 9,has
detailed investigation been conducted which included groundwater flow,
upwelling,and temperature studies.These sloughs are the most impor-
tant spawning areas influenced by the mainstem Susitna River.They are
also identified as potential sites for mitigating fishery resource
losses through physical modification.We feel it is important therefore,
that Exhibit E present an informed opinion based on site specific data
as to the effects of project operation on slough habitat.In a draft
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report prepared for Acres American,Illc.1/,the author notes that
until the 1982 field data are analyzed.any statements regarding
streamflows necessary for chum salmon access to the side sloughs are
provisional.Within Exhibit E.there are vague and seemingly
contradictory statements concerning slough impacts.Statements are made
~jthin this Exhibit that data on the areal extent of upwelling within
the sloughs at low flows are not presently available,that ground water
upwelling is driven by mainstem river stage,that spawning areas of the
sloughs may be affected by reduced upwelling,and that flows of 16.000
to 18,000 cfs are required for easy access to the sloughs.The document
also contains statements that 12,000 cfs will provide access to most
sloughs,that a 12.000 cfs release will assist in maintaining
groundwater flow and upwelling within sloughs,and that changes in
streamflow during the open water season predicted under operation of
Devil Canyon are not expected to affect slough habitats.Clearly,
post-project impacts to these important and sensitive habitats are
poorly understood.NMFS recommends that the final license application
contain the results and analfsis of the 1982 field data being gathered
by the Alaska Department of ish and Game,et al,and results of an
expanded study ·of sloughs in the Devil Canyon to Talkeetna reach which
would provide a larger and more representative sample than currently
available.
Exhibit E discusses the impact of project construction and operations on
river ice formation.Apparently,post-project ice formation will be
delayed due to higher release temperatures from Devil Canyon.
Currently,ice originating from the upper Susitna contributes 75 to 85
percent of the ice load to the lower River.With this input reduced or
delayed by the project,ice formation on the lower River will be
affected.This impact is not adequately discussed in the Exhibit.
Ice formation above Talkeetna will also be delayed by the project.The
location of the ice front in this reach has ilTlportant implications to
fisheries habitat within the mainstem,side channels,and sloughs.In
areas with ice cover,staging is expected to occur which would increase
water surface elevations,possibly increasing upwelling,overtopping the
..__..._~.__upst~eam ..berms of sloughs.and causing 'high velocities and scour to
occur.
In those areas where ice formation does not occur,water elevations
would drop below natuarally occurring levels,leading to potential de-
watering of spawning gravels and reductions in upwelling areas.Exhibit
E predicts that the ice front should occur at some location between
Talkeetna,RM 100 and Sherman,RM 130 and will depend upon the upstream
temperature,i.e.the"Devil Canyon outflow.As no model was completed
for winter riverine or reservoir temperatures,the full scope and
measure of these effects cannot be assessed.
-
1.Pre1iminar Assessment of access b
Habitat above Ta eetna.Drart Report.
1982.
Salmon to Side Slou h
erlcan.Inc.Novem er.
i i
6
Measures to mitigate unavoidable impacts to fisheries resources are
presented in the Exhibit.Many of those measures designed to mitigate
construction impacts effectively address this concern.Development of a
flow regime that minimizes loss of habitat and maintains normal timing
of flow related biological stimuli is also proposed.We recommend that
such a release schedule be included in the final license a~Plication.
The Exhibit proposes to mitigate fishery losses by physica modification
of side sloughs and creatio~of mafnstem and side channel spawning
areas.This vague commitment to an approach that is only a paper
concept dependent upon the results of ongoing or proposed studies does
not allow us to fully evaluate the feasibility of the proposed project
nor to assess the effectiveness with which project impacts can be
mitigated.
We support the concept of retaining the habitat value of side sloughs
through physical alteration.Further,we recommend that Exhibit E
incorporate a slough mitigation plan which identifies the sloughs to be
modified,the desi n criteria,and the 0 erational lan and tar et fish
species specific to each s oug.Detai s for the mitlgation goa sand
operational monitoring efforts for this plan should be included.The
applicant should note,however,that we feel the release schedule
proposed in Exhibit E should be refined based upon an accepted instream
flow predictive methodology and the specific requirements of the
selected species.We believe this is essential to serious consideration
of a slough modification program.
Exhibit E states that if-alter.native mitigation schemes prove infeasi-
ble,a hatchery could be developed.While we regard such artificial
methods to be the least desirable form of addressing fishery losses,we
realize that slough modification is largely untried in Alaska and that
these mitigative efforts may indeed fail.Therefore,we recommend that
Exhibit E should advance this discussion beyond the statement that lI a
hatchery could be develo§ed.1I Information should be included within
license Exhibit E which escribes the number of hatcheries needed,
locations,sizes,what the production target for each species would be,
g,l1d .cost,estimates._._.,,____.__.__..
Finally,none of the mitigative measures presented comply with FERC
rules and regulations under Section 4.41 (F)(3)(iii);i.e.,costs for
these features are not presented,nor are design plans for mitigation
features included.
Specific Comments
Exhibit E
Chapter One -No comment.
Chapter Two
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page 15,para.4.Breakup
The section should describe when breakup normally occurs,specifically
the dates of the earliest,mean,and latest recorded events.
page 38,para.3
This section should consider that at least eight sloughs exist above
Gold Creek,several of which support large numbers of spawning salmon,
e.g.,slough 21.While Gold Creek may be a logical point at which.to
gauge flow,it does not necessarily guarantee that upstream flowWlll
be sufficient to maintain habitat value in these sloughs.Exhibit E
should discuss this concern and recommend necessary measures to
guarantee adequate flow to these sloughs.
page 47.Section (v)Impacts on Sloughs
The section notes that data to conftrm the areal extent of upwelling
at low flows are unavailable at this time.Currently only one slough
has been investigated sufficiently to predict project influences on
groundwater and upwelling.This slough is not representative of all
such sloughs in the Devil Canyon to Talkeetna reach.
Under existing winter flows,ice formation causes staging equivalent
to an open water flow elevation exceeding 20,000 cfs.Filling flows
of 1,000 cfs,for which i.ce formation may be delayed or fail to occur,
could significantly impact sloughs through de~watering gravel spawning
areas and overwintering habitat .
page 49,para 2
As the temperature of groundwater is considered a function of the
average annual temperature of the rna instem Sus itna;.what will be the
impacts of the second filling year release temperatures to the
groundwater?How long would~ny change persist?No data are
presented to support the statement that groundwater temperatures will
not change.
page 51,para 3.Monthly Energy Simulations
The referenced program uti'i~ed load forecasts developed by ISER,
Woodward-Clyde,and Battelle.These forecasts are now seriously
questioned .in light of recent developments (see General Comments):We
recommend these simulation studies be updated and run with the most
recent load forecasts available.
page 58,para.1.Reservoir and Outlet Water Temperatures
.This suggests that winter outflow temperatures between 1°and 4°C can
be selectively withdrawn through a multiple intake structure.This
control would be dependent upon the thermal profile of the reservoir
during winter,a set of conditions which has not been modeled.
Therefore,we question the validity of the statement which suggests
one degree water temperatures would be available on request.
Information presented by ACRES during the Nov.29 -Dec.3 workshop
showed winter temperatures in Eklutna Lake to be between 0 and 3.6 0 in
the upper 2 meters,while isothermal conditions exist below this
level.
8
page 59,para.2.Ice
It is not clear what impact will occur to the lower River from
reduction of ice flow from the upper Susitna.How far downriver would
ice formation occur?When does freeze-up normally occur?
page 91,para.2.Miti~ation of Watana Impoundment Impacts
This section states t at a proposed 12.000 cfs flow at Gold frreek
would provide salmon access to most of the sloughs and would assist in
maintaining adequate ground water levels and upwelling rates.There
are no studies which would support these conclusions,as only one of
approximately thirty-six sloughs has receive detailed study.
Similarly,current information does not permit the development of
mitigation measures within the sloughs.as stated in the last
paragraph on this page.
page 93,para.2.Nitrogen Supersaturation
While we support the concept of installing cone v·alves at the outlet
works of both dams,the subject requires further discussion.These
valves will only operate (and afford gas supersaturation benefits)
during spillages below the 1 in 50 year high flow event.According to
the discussion presented on pages 79 through 81,such spillages would
be a relatively uncommon event (for the 32 year period simulated,
there were 4 years during which spillages occurred).The discussion
on these valves should present data on their frequency of use and
explain the criteria by which they are planned and installed.This
should include the following:
1.Potential temperature impacts resulting from withdrawal from
these outlet structures.
2.Potential impacts to river ice formation attributed to operation
of these valves during winter.
page 95,para.1.Temperature
The discussion of Devil Canyon post-project temperature mitigation is
inadequate.What advantages are gained by the multiple release
--structure?Will Devil"Canyon reservoir stratify during summer and
wi nter?
Chapter Three
page 8,para.2
IISince the greatest changes in physical habitats are expected in the
reach betw~en-Talkeetna and Devil Canyon.fishery resources using that
portion of the river were considered to be the most sensitive to
project effects.1I Transforming the mainstem Susitna River into a
reservoir is also a considerable change.Later in this paragraph is
the statement liThe mitigations proposed to maintain chum salmon should
allow sockeye and pink salmon to be maintained as well.1I We are
unable to locate specific mitigation plans for chum salmon.Those
conceptual plans presented for slough modification and mainstem
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9
spawning bed construction deal principally with one life history
stage.The statements made here that improved mainstem conditions
will replace loss of slough rearing habitat and that juvenile
overwintering areas are not expected to be adversely affected by the
project are not supported.In fact,preliminary data presented
elsewhere in the Exhibit indicate that overwintering habitat will be
impacted and that sloughs may provide important rearing habit~
page 12.Species Biology and Habitat Utiljzation in the Susitna River
Drainage
Estimates of adult salmon presented in this section depict only
escapement.A more meaningful'estimate should be made using catch to
escapement ratios,as done in chapter five.For instance,in 1982
77,000 pink salmon migrated above Talkeetna.However only one fish in
every 3.8 escaped the commercial fishery.Using the 3.8 to 1 ratio,
this reach of the Susitna accounted for over 350,000 pink salmon of
which over 277,000 were available to the commercial fishery.
Escapement estimates alone fail to indicate the high values associated
with anadromous fishery resources.
page 76.Slough.Habitat
This section does not describe impacts associated with lowered
winter river stage during filling.'Should upwelling and backwater
effects during winter prove critical to developing eggs or juvenile
salmonids,any reduction in these areas could create significant
damage.
We question the figure presented as the number of sloughs in which
salmon spawn within the Chulitna to Devil Canyon reach.Using
information supplied by the ADFG and from Exhibit E,adult salmon have
been observed in 26 of these sloughs.Exhibit E should clearly
present the total numbers of sloughs in this reach and the 1981 and
1982 data on spawning adults.
page 77
The discussion presented on impacts to slough habitat is not clear .
. -__A~Exhibjt Estates thaJ groundwater up~ellj.r!g_in the21o!:J9hs.i s
probably driven by the mainstem stage,which would cause a decreased
flow in the sloughs (post-project),why does this section state that
under post-project conditions only the backwater areas (of the
sloughs)would be affected?
The second paragraph of this page states,"With mainstem flows above
14,000 cfs,a backwater forms at the mouth of the slough.1I How is
this known?Which slough is being discussed?Is this true for each
slough?The same paragraph explains that,during the 1982 field
season,flows in the 12,000 to 14,000 cfs range occurred and afforded
opportunity to observe fish passage at flows below normal August
levels.These flows appeared to hamper or restrict fish passage into
sloughs.Backwater effects were not seen at flows of approximately
12,000 cfs~yet project low flow limits for August have been
established at 12,000 cfs.This section underscores the prob~ems
10
associated with such proposed flows.It is apparent that some
significant changes occur to the slough habitat within a relatively
narrow range of flows;changes which may have important biological
implications.
page 87,para.5
While the described floods may transport sediment and scour the River
bed,-t"eduetion or elimillatiunthrough flow regulation may not
necessarily be beneficial.The Exhibit presents no data to support
the comment that high mainstem velocities limit fish usage (page 87,
para.2).Further,such high flow events may be critical to maintain-
ing side channel and slough habitat through flushing and replenishment
of gravels and by removing vegetation and beaver dams which may reduce
habitat value.This point is not discussed in the following sections
on slough or side channel habitats.
page 103,paragraph 3.Slough Habitat
We disagree that changes in streamflow during the open-water season
are not expected to affect slough habitats.
page 116.Aquatic Studies Program
We believe this discussion suffers from omission of the majority of
the 1982 field study results.We strongly believe that two years of
study are the minimum required as a basis to discuss the impact of
hydroelectric development on the Susitna River.
page 130.Measures to Minimize Impacts ,
It is stated that IiA flow release schedule will be used that minimizes
the loss of downstream habitat and maintains normal timing of
flow-related biological stimuli.1I The flow schedule presented in
Exhibit'E,chapter 2 does not minimize habitat loss,nor does it
maintain normal flow related biological stimuli.This section should
also discuss installation of compensation flow pumps at Devil Canyon
which would provide flow between the dam and tailrace channel.
page 130,para.2.Measures to Minimize.Impacts --"
-The section states that IIInstream flow requirements are being
determined for each species/life stage/time unit combination.1I Who is
performing these studies?How will they be determined?Again,it is
impossible to understand what flow regime,if any,is actually being
suggested within Exhibit E.Is the release schedule presented in
Table 2.17 just a IIfirst cut?1I This is apparently the case.
Considering that the final release schedule is to be based on future
studies as suggested here and may be modified to accommodate Qut-
migration (page 3-132,para.1)and will need to consider temperature
and volume (page 3-143,para.1);why is a flow regime proposed in the
absence of such information?
page 131,para.1
This states,in effect,that slough habitat will either be enhanced
or degraded by the project,and that actual impacts to habitat are
the~subject of ongoing studies.These ongoing studies should be
described.What will be investigated?Which sloughs will be
studied?.
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page 132,para.4
This states that flows of 12,000 cfs are sufficient to undertake
rectifying impacts by modifying habitat.How is this known?The
paragraph shoul d discuss the'studi es upon whi ch thi sis based or
qualify any such conclusions as preliminary and subject to further
study.
page 133,para.1.Winter Flows
The .statement is made that i1Since minimal impacts are expected during
both filling and operational winter flow,rectifying measures are not
needed.II This is not supported.On page 131,para.1,we learn
slough habitat may be degraded by winter flows and that these'impacts
are the subject of ongoing studies.Page 94 presents a lengthy
discussion of impacts attributed to altered winter flows.
page 133,para.5.Reduction of Impacts Over Time
"Post-operational monitoring will be conducted to evaluate the
effectiveness of mitigation measures (see Section 2.6).11 The license
application should detail what monitoring will occur and how the
effectiveness of mitigation efforts will be evaluated .
.page 136,para.3
The discussion of hatchery development is inadequate.In the event
that other mitigation alternatives fail,it will be important to
present a clear picture of what measures would be taken to compensate
for fisheries losses.
page 137,para.3 ,
We believe that the water temperatures of 5°to 6°e during the second
filling year will present significant adverse impacts to salmon.
Addition of a low level portal could apparently avoid much of these
effects.We recommend such a device be incorporated into the final
design.
page 143,para.1 .__...._
"Continuin'g reservoir thermal mo'delfng will allow an evaluation of
available water temperatures throughout the year so that a detailed
release plan can be developed.The release plan will need to consider
both water temperatures and volume in order to minimize impacts~"We
strongly agree with this,and recommend that the license application
contain just such a release plan which would most effectively minimize
impact.
Chapters 4-9 -No Comment.
Chapter 10
page 28,para.6.Diversional Emergency Release Facilities
The release levels referred to do not avoid adverse effects on the
salmon fishery downstream.
•l
12
page 30,para.3
Figure E.2.90 indicates that three,rather than four portals would be
constructed at Watana.We question which is correct and how the
numbers and position of the portals were considered in minimizing
impact.Also we cannot concur that temperatures will be controlled
within acceptable limits.
page 30,para.4
We are not aware of studies which have occurred to mitigate project
impacts through provision of streamflow at Gold Creek.These should
be described.
page 31,para.5
According to presentation by ACRES American at an APA-sponsored
workshop in Anchorage during the week November 29 to December 3,1982,
no temperature model has been run for Devil Canyon reservoir.How,
then,can the utility of a multi-level draw-off at Devil Canyon be
known?This again underscores the present lack of understanding of
project temperature impacts.
The following statements of concern were presented by NMFS before the
APA Board of Directors on April·16,1982.
1I0 ne area of limited information in the Feasibility Report deals with
the.effects of post project flows on the fishery resources ••.II IIThese
sloughs therefore represent an area requiring consideration of
potential mitigation and/or enhancement measures.To date,less than
one eighth of the side channels and slough areas have been surveyed.
Further,the impacts of various flow regimes on the habitat are
unknown because the hydrological and ecological relationships between
the mainstem Susitna and these areas have not been adequately
studied •.•11 liThe results of a comprehensive In-Stream Flow Study
would allow a balancing of fish habitat losses against power
generation ••."IlCurrently,we do not believe a high level of
confidence exists in the projected post project temperature within the
_.--_:two_res~r..\foi.r:s_'_tbe Susitna mainstem,.~l1..d.the side channels and __
sloughs •••11 Il .••spec ific studies must occur which will develop
mitigation options ••.""It is not reasonable to assume that (one
field season of fisheries data)is adequate for proper
characterization of the resources."
"We are concerned that the (license)application will reflect the
serious deficiencies we have mentioned.If our review shows this to
be the case,we feel oUr agency will have no alternative but to
request the FERC to reject the application or direct that the
deficiencies be corrected."
Our review of the material presented in draft license Exhibit E
indicates that these deficiencies still exist.It is regrettable that
we have reached the draft license application stage while these issues
remain unresolved.We feel that these issues and data must be
incorporated into Exhibit E and that without them the license
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13
application will be found deficient.We believe that Exhibit E should
be sufficiently developed so as to fdrm the ba3is for specific license
conditions which would protect anadromous fish and their habitat.As
written,Exhibit E only leads to further studies.The FERC guidelines
specify that information within Exhibit E be developed to a level
commensurate with the scope of the project.The Susitna project will be
the most 27 0stly and complex hydroelectric facility ever considered by
the FERC-,and this complexity and'depth should be reflected in
license Exhibit E..
We appreciate this opportunity to comment on the draft Exhibit E.
McVey
Alaska
2/SusHna Project Status Report -Preliminary Draft.Federal Energy
Regulatory Commission -Data for Decisions.December 1,1982 •
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\'.J I i I.,-,l,
--.,
.':'ILL SHEFfiELD,GOVERNOR
D~PT.OF COM1\-IUNITY A REGIONAL AFFAIRS
OFFICE OF THE COMMISSIONER
March l6~1983
o POUCH 8
JUNEAU,ALASKA 998//
PHONE:(907)465·4100
0225 CORDOVA STREET·BLDG 8
ANCHORAGE.ALASKA 99501
PHONE:(907)264·2294
RECEIVED
-
Mr.Eric Yould~Executive Director
Alaska Power Authority
334 West 5th Avenue
Anchorage,Alaska 99501
Dear Mr.Yould:
MAR 1 :1983
:}J..ASM POWER AUTHORITY
1""",
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i.>ll H
We have received a copy of the Susitna Hydroelectric Project FERCLicense
Application,Exhibit E,and have focused our review primarily to chapters on
socioeconomic and land use issues,Chapters 5 and 9~respectively.In
proposed major resource development projects such as the Susitna project,the
Department is concerned that:1)proposed development activities be
sensitive to Statewide,regional,and local interests and limitations;and
2)the capability of local/regional governments be strengthened in order to
meet demands placed on them by major development activities.In the review
of Exhjbit E,we found many of the Department concerns raised earlier in our
review of the Susitna Hydroelectric .Project Feasibility Report remain in
effect.We have,however,re-emphasized Department concerns as they apply to
the information contained in Exhibit E.A number of gage specific comments
are also provided toward the end of this letter.'
The major issues of concern to the Department in review of the Susitna
Hydroelectric Project FERC License Application -Exhibit E are:
1)the assumptions underlying the socioeconomic analysis imply significant
and yet uncorrmitted policy positions on the part of the State.For example,
Exhibit E contains assumptions regarding the origins of the labor force,
housing opportunities for that labor force,and mobility of the work force
during construction.Implicit in these assumptions are policies addressing
local hire and job training,worker residence at the project site,mode(s)of
access to and from the construction site,and the use of construction camps
as opposed to transporting workers.Should any of these implicit policies
fai 1 to materi al ize as presumed,tile nature of the impacts descri bed in
Exhibit E could change drastically~
In order to clarify the relationship between assumptions of the socioeconomic
impact model and State policy,the Department's recommendation is that the
Alaska Power Authority provide a process for key State agencies to become
actively involved in the methodology and use of the model.This would,in
our opinion,serve two useful purposes.One,it would enable the State to
constructively critique the assumptions of the model,particularly in light
of existing State policies.Secondly~a better understanding and practical
use of the model by State agencies could help form the basis for
establishment of new State policies for the project.In tne same manner,
involvement of the Matanuska-Susitna Borough in the critique and application
of the model should be provided for,should the Borough choose to participate .
:T:,;:-,3 [.:"C:::;py
.I·:!____
Mr Eric You1d
March 16,1983
Page Two
2)It is the Department's opinion that the socioeconomic impacts identifiea
in Exhibit E as resulting from the Susitna project are significantly
understated.
As was described in -the Department's review comments for the Susitna Project
Feasibility Study,we feel that the proposed impacts from the Susitna project
will far exceed those expressed in Exhibit E.We base our predictions on the
impacts historically caused from other large construction projects in Alaska,
most notably the Trans-Alaska Pipeline project (TAPS).
In order to account for a larger impact than described in Exhibit E,the
Department recommends that an alternate socioeconomic impact model
scenario(s)be established to represent,as closely as possible,appropriate
factors of the TAPS experience for the Susitna project.At a minimum,this
alternative analysis should assess those impacts due to induced population
growth and increased numbers of people seeking employment.For example,
Exhibit E (on page E-5-20)describes that within the period 1983-1991,the
latter date representing the peak year of the Watana construction phase,the
population of the Matanuska-Susitna Borough )s proposed to increase by
approximately 22,355 persons.Of this total,only 4,700 persons are proposed
to be connected to the project,including direct and indirect/induced workers
and their dependents.This estimate appears to be low,particularly in Jight
of the experience gained fr.om the TAPS project,when a far larger than .
·anticipated influx of people was attracted to the area.As a result,this
in-migrant population competed with local residents for both direct and
indirect/induced jobs and greatly strained the capabilities of public
services and facilities.The Department feels that the types of impacts
found with the TAPS project could likely reoccur with the Susitna project.
We recommend,therefore,that a model scenario be developed which utilizes
information gained from the TAPS experience in calculating population influx
and resultant impacts.Even with the difficulty in predicting precise
numbers of secondary or induced workers and families,the model can at least
be used to generate likely or alternative scenairos to guide deicsion makers
in assessing potential impacts and preparing mitigation measures.
3)Responsibilities for provision of services and facilities within the.
local project area (Matanuska-Susitna Borough)should be more clearly defined
for the State,Borough and the contractor.
Exhibit E does present a discussion regarding projected public service and
facility needs for the Matanuska-Susitna Borough (and selected cities within)
both in base-case and project-induced scenarios.More specific data,
however,could have been provided regarding the costs and revenues
anticipated for the State,Borough and contractor for specific services and
Mr.Eric Yould
March 16,1983
Page Three
~facilities required under both scenarios.Such information,for example,
would clearly illustrate the levels of State support anticipated both with
and without the Susitna project •
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4)Legal responsibilities for access to the project site both during and
after construction need to be clearly defined.
Exhibit E (Chapter 9)briefly discusses the location of the proposed access
road and its potential future use.It is also discussed that during the
.construction phase,only project personnel will be allowed passage on the
road.Land management planning for the access road area is proposed to also
take place during the construction phase.
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The Department recommends that legal responsibilities should be clearly
identified prior to opening of the road for any purpose.This action would
clarify,for example,maintenance responsibilities and liable parties in the
event of unauthorized use of the road.Secondly,the Department recommends
that land use planning take place before the original road is constructed in
order to incorporate future land use considerations within the original road
design and layout.Similar considerations,as described above,should be
given to the proposed rail access route to the Devil Canyon site.
5)The possibility of dam failure should be taken into consideration for the
Susitna project,particularly for areas downstream of the dam.This is a
critical issue given the"size of the dam and impoundments and the proven
seismicity of the project area.The Department has stressed in our previous
comments that the downstream flood hazard due to catastrophic dam failure
should be mapped and appropriate stipulations should be placed on downstream
development in order to prevent potential loss of life and property.
Exhibit E (Chapter 6)gives attention to seismicity,however,it is simply
stated on Page E-6-36 that the main structures (dams)have been analyzed to
accommodate the ground motions induced by the maximum credible earthquake.
The Department stresses,however,that our above concerns be addressed within
the land use planning for the project area.
6)More information needs to be provided about the proposed permanent
townsite.
Exhibit E presents in various chapters the concept of a permanent townsite to
be established at Watana.Chapter B (Aesthetic Resources),for example,
presents a 'conceptual layout of the proposed townsite.The Department is
concerned that if a permanent townsite is to be established near the project,
much more information needs to be provided regarding:physical site
suitability,livability factors,community expansion areas,government,and
Mr.Eric Yould
March 16,1983
Page Four
opportunities for economic diversification.Additionally,the costs and
providers (State,Matanuska-Susitna Borough,community)of facilities and
services for the community should be specifically identified.
The Department has a number of more specific comments on Exhibit E as follows.
Chapter 5.Socioeconomic Impacts
1)It would be helpful to summarize in one section of Chapter 5 all the
assumptions,standards,and input variables that were used within the impact
model.Data sources of each should be cited.
2)Chapter 5 does not identify if and when sensitivity analysis will be done
for key variables used in the socioeconomic impact model.
3)It would be useful in Chapter 5 to portray in graphic format the data
regarding baseline and project-induced costs vs revenues.The percentage of
costs and revenues per contractor,State,and Matanuska-Susitna Borough
should also be shown in graphic format.Additionally,if various scenarios
are to be eventually portrayed by the model,graphic representations of costs
vs revenues per scenario would be useful.
4)On page E-5-23,reference is made to the absence of impact on the
Matanuska-Susitna Borough School District because a contractor provided
school at.the construction site will seJ:..ve the residents.As specified in
previous Department comments,under Alaska Statutes,the Matanuska-Susitna
Borough is mandated to exercise areawide education powers.The District
would therefore be responsible,by law,for the provision of educational
facilities and services to all residents of the Borough.This does not
prohibit the project contractor and the School Di strict from formally
agreeing to share costs or take other steps to lessen impacts;however,any
educational facilities,programs,and faculty will have to comply with School
District standards and guidelines.Therefore,there will be an impact on the
School District.
5)Page E-5-47:The 1981 vacancy rate for housing (outside of incorporated
communities)within the Matanuska-Susitna Borough is given as 25%.Does this
figure include secondary homes?
6)Page E-5-137;Table E.5.35:A more detailed breakout of costs and
revenues for each service or facility per year would be useful to include
somewhere in Chapter 5 as back-up data to Table E.5.35.
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r~r.Eric Yould
March 16,1983·
Page Five
Chapter 9.Land Use
1)Pages E-9-20 through E-9-22,Section 23 -Description of Existing Land
Use Management Plans for the Project Area:Among management plans listed in
this section,the Denali Scenic Highway Study [pursuant to the Alaska
National Interest Lands Conservation Act,Section l3ll(b)]should also be
included.
2)Page E-9-59;Figure E.9.8:The biophysical coastal boundary for the
Matanuska-Susitna Borough Coastal Management Program has been amended from
that shown on Fig.E.9.8.
Thank you for the opportunity to comment •
cc:Lawrence H.Kimball,Jr.,Director
Division of Community Planning
Al Carson,Chairman
Susitna Hydroelectric Steering Committee
Gary Thurlow,Manager
Matanuska-Susitna Borough
Claudio Arenas,Director
Matanuska-Susitna Borough
Planning Department
Lennie Corin
U.S.Fish and Wildlife Service
IN REPLY lutn.a TO:
018 (ARO-P)
ATTACHMENT II
--("-"L -
United States Department of the Interior
NATIONAL PARK SERVICE
A1as ka Reg iona 1 Offi ce
540 West Fifth Avenue
Anchorage t Alaska 99501
RECEIVED
1.'1
DEC 7.1982
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Mr.Eric Yould,.Ex~£utive Oi re~~POWER f\',;"t •.."./
.Attention:Richard fleming~
Al aska Power AuthoH"ty
344 W.5th Avenue t Suite SOl
Anchorage t Alaska 99501
Dear Mr.Yould:
I appreciate the opportunity to have participated in the recent Susitna.Hydro-
electric Proje~t fERC li£ense Application Exhibit E Presentation and Disc~ssion
and to discuss issues related to cultural resource management with Dr.Fleming t
and Don follows of Acres Americah t Inc.,both of whom have done an outstanding
job in my opinion.
ihe point that I made there t and wish to repeat here,is that the comments of
the Advisory Council on Historic Preservation should be solicited without
delay in the interest of expeditious development of a plan for future survey
and inventory,and for mitigation of potential impact on sites already inven-
toried and evaluated.It is not necessary to wait until the inventory is
complete to solicit Advisory Council comments since the Council can accommodate
actions at this early stage.Council's comments now could negate the need for
the compressed,one-year,program of mitigation that was proposed as a probable
necessity if Council comments are delayea until the survey is completed.In
my opinion more lead time is necessary for development and implementation of a
mitigation plan for a project of this magnitude.-
Again t I appreciate the hospitality of the Alaska Power AuthoritYt and the
opportunity to comment.
Sincerely,
~.L-,..JWS-~~,~.<
Floyd W.Sharrock
Archeologist
cc:
Don Follows,Acres American,Inc.
DEPARTMENT OF NATURAL RESOURCES
December 3.1982
Re:1130-13
Mr.Eric Yould.Executive Director
ATTN:Dr.Richard Fleming
Alaska Power Authority
334 W.5th Avenue
Ancho~age,Alaska 99501
Dear Mr.Yould:
i
!
I
JAY S.HAMMOND,GOVERNOI
619 WAREHOUSE DR••SUITE 2
ANCHORAGE.ALASKA 99501
PHONE:274-4676
This letter is to reaffirm our views on two important points discussed in the
Cultural Resource Section of the Susitna Hydropower meetings on November 30th.
Fiest.we feel the Advisory Council on Historic Preservation should be in-
volved in the cultural rdsources mitigation program at the earliest possible
time.While FERC regulations do not specifically require Advisory Council
consultation during the preparation of Exhibit E.the prudent course is to
have them well-informed as soon as possible.The Advisory Council must be
consulted under 36 CFR 800 when the time comes for determinations of eligi-
bility and effect,and they would be a signatory party to any Memorandum of
Agreement on mitigation of adverse effects to cultural resources.
Second,concerning the remaining fieldwork.we feel that two field seasons are
.preferable to one.An estimated 70 archaeologists will be required to do the
ne~essary work in a single season.We have reservations about the availa-
bility of 70 people with appropriate experience and the limited time left for
logistics planning.
Further.few.if any.institutions have the space required to properly process
the mass of raw data and artifacts generated by so many field workers.This
problem would be greatly ameliorated if the work is spread over two seasons.
In general.we feel that the quality of the work would suffer and can see no
compelling reasons to force the remaining work into a single season.
Once again.we congratulate Dr.Dixon and Mr.Smith of the University of
Alaska Museum on the fine work that they have done to date.We trust that
work of this quality will continue.
-
......
.....
Mr.Eric Yould.Executive Director
December 3,1982
Page 2 -
Please call or write if we can be of additional assistance.
Sincerely,
Judith E.Marquez
Director
·lliplane
'storic Preservation
cc:Hr.Dan Follows
Dr.E.J.Dixon
Dr.E.Slater
TAS:clk
December 15,1982
Fi Ie No.1130-3
Hr.Al Carson
DPDP
Pouch 7-005
Anchorage,Alaska 99501
Dear Mr.Carson
D1VIS10TJ OF PM:KS
JAY S.HAJ.it.~OND.GOVERNOR
619 WAREHOUSE DR.,SUITE 210
ANCHORAGE.AUlSKA 99501
PHONE:2744676
Thank you for the review copy of the draft Exhibit E.We are pleased to
comment on Chapter 4 -Report on Historic and Archaeological Resources.
The report is well done and addresses all the pertinent questions about mitiga-
tion.Table E.4.2 is particularly informative and is a good synthesis of the
available information to date.We concur with the mitigation plan as it stands
in this draft document.We would also like to add our recommendations to the
proposed education program recommended on page E.4.114.We consider such a
program to be a necessary part of any large construction project.It seemed
to be quite effective during construction of the Alyeska Pipeline.If project
personnel are adequately trained and sites are clearly marked,avoidance
should be a viable mitigative measure in a fair number of the indirect and
potential impact cases.
We look forward to continuing to work with all concerned parties on this pro-
ject..
Sincerely,
Judith E.Marquez
Director
z"'''"''j.~~X {}f)c/'(.''--'l'
By:Ty L.Dilliplane
~~(:State Historic Preservation Officer
cc:Leila Wise,Division of Natural Resources Coordinator
Dr.Edward Slatter,FERC Archaeologist
Hr.Lou Wall,Advisory Council on Historic Preservation
Dr.E.James Dixon,Lead Archeologist,Susitpa Hydro Project
Dr.Glenn Bacon,Lead Archeologist,Alaska Heritage Research Group
DR:ces
--
"DEPARTMENT OF-FISH AND GAME
OFFICE OF THE COMMISSIONER
Janua ry 13,1983
Alaska Power Authority
334 West Fifth Avenue
Anchorages Alaska 99501
Attention:Eric Yould,Executive Director
Bill Sheffield,eo"ernc.H'
P.O.Box 3-2000
Juneau s AK 99802
Phone:465-4100
.RECEIVED
JAN.!41983
NASKA POWER AUTHORITY
-
-
Gentlemen:
Re:Review Comments -Draft Exhibit E -Susitna Hydroelectric Project
The Alaska Department of Fish and Game (ADF&G)has reviewed the Draft
Exhibit E,dated Novembet:'15,1982,that was prepared for inclusion in
the license application for the Susitna Hydroelectric Project that the
Alaska Power Authority (APA)intends to submit to the Federal Energy
Regulatory Commission (FERC).
The Department's review of the Draft is based on the adequacy with which
the fish and wildlife resources affected by the project,the
impacts to those resources attributable to the project,and specific
mitigation proposals to offset impacts are identified and quantified.
The types of information reqUired for an adequate assessment
of feasibility,with respect to fish and wildlife resources were
originally identified for the APA in November 1979 through
correspondence relative to the Plan of Study and were most recently
identified in Commissioner Ronald Skoog's statement to the APA Board of
Directors on 16 April,1982.
Our review comments on the following chapters are appended to this
letter:.
Appendix A-Chapter 2 -Water Use and Quality;
Appendix B -Chapter 3 -Fish,Wildlife and Botanical Resources;
Appendix C -Chapter 5 -Socioeconomic Impacts;
Appendix D-Chapter 7 -Recreational Resources;and
Appendix E -Chapter 9 -Land Use.
The time afforded the ADF&G to review the Draft Exhibit E has not been
sufficient to allow a detailed review of all the chapters,nor has it
Alaska Power Authority -2-January 13,1983
enabled us to present our comments in as thorough and refined a manner
as we would have liked.We do,however,expect to take advantage of
future review opportunities to further address these issues.
The appended reviews (Appendices A-E)contain general statements
regarding the overall adequacy of each chapter.Following these are
specific comments addressing the technical content of the report.In
the specific comment section,we have on occasion clarified the
Department's policies and positions with respect to the proposed Susitna
Hydroelectric project.
Throughout the chapters of the Draft Exhibit E that we reviewed,both
the information presented and the assessment of irrlpacts are generally
insufficient for the kind of a planning and source document needed for
preparation of an EIS.We are concerned that·the benefits and cost
aspects of the project have not beeri presented completely and clearly.
The general problems with the Draft Exhibit E chapters that were
reviewed by the ADF&G are .as follows:
1.Data and information contained in the Exhibit E are,in many
cases,incomplete or not properly interpreted.
2.Many potential impacts and issues attributed to the Susitna
Hydroelectric Project are not addressed.Impacts to fish and
wildlife resources and users that are addressed are not
adequately quantified and proposals to mitigate impacts
are not sufficiently developed.
3.Not all source materials,other Draft Exhibit E chapters,or
the results of other study disciplines that are pertinent to
the project are referenced.
4.Throughout the document there is a failure to discriminate
between fact and speculation.
Our comments,recommendations,and suggestions to strengthen the
material contained in Draft Exhibit E in relation to the problem areas
identified above are as follows:
1.The APA should examine the specific comments appended to this
letter and clarify or expand sections in the Draft Exhibit E
chapters where inadequate treatment of the data or information
is suggested.The suggestion here is that while some
interpretations by the authors are not necessarily inaccurate,
they are incomplete.This type of problem in the Draft
Exhibit E may be either editorial or a function of the short
time frame allotted to assemble,assess and analyze the
information available.The Draft Exhibit E chapters should
utilize currently available and relevant information and data
sources.
Alaska Power Authority -3-January 13,1983
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--
2.The Draft Exhibit E chapters should accurately reflect the
current state of resource knowledge and information on impacts
which are understood and those which are still undetermined.
Consequently,the mitigation plans cannot be considered
adequate unless the information and analysis of impacts is
current and comprehensive.The mitigation plans should
clearly indicate how impacts are considered in the design of
the project;what-measures will be taken to avoid,minimize or
rectify impacts;and how effective these measures will be in
mitigating losses.
3.Source material in the Draft Exhibit E is not adequately
referenced.Furthermore,data and information reported in
chapters of the document should be consistent with other
chapters.The lack of coordination between the resource
groups and the engineering and construction groups is evident;
conflicts have not been clearly identified between uses and
disciplines.To remedy this deficiency all conflicts between
engineering and economic factors and environmental
alternatives should be identified and the consequences of
altering those factors should be listed.The environmental
concerns should be weighed equally with engineering and
economic constraints.
4.Throughout the document,there is not always adequate
discrimination between fact and speculation about resource
values,concerns,issues,impacts and mitigation alternatives.
In some cases adequate referencing and reporting of data in the chapters
may resolve this.Where baseline data collection is required to remove
speculation it should be done,or if relevant data and information are
available elsewhere they should be collected and evaluated.
The Department of Fish and Game recognizes the general character of the
above recommendations.These recommendations are made based on an
overview of the ADF&G comments for the chapters we have examined.We
invite further consultation by the APA with our agency to discuss the
specifics of the chapters we reviewed and our general recommendations.
The fish and wildlife resources of the Susitna River Basin are of high
value.Construction and operation of the proposed Susitna Hydroelectric
Project can have wide ranging implications for these resources and their
users.It is the objective of this Department to help Governor
Sheffield insure that fish and wildlife resources are considered along
with other project features during all stages of project planning,
construction and operation.
Based on the above overview of the Draft ExhibitE and the
chapter-specific comments contained in the enclosed Appendices,the
ADF&G does not believe that this planning document ;s sufficiently
complete.Furthermore,we believe that the APA can best insure
expeditious review and approval by FERC if it does as much as possible
Alaska Power Authority -4-January 13,1983
to resolve agency concerns or establishes the mechanism to resolve those
concerns.
We hope our review assists the APA in addressing the concerns expressed
herein and consider that this review represents only part of the process
needed to reach the objective we wish to ~ttain.It is highly important
from our perspective that the FERC License Application scheduled for
submission in February and the process of consideration of the Exhibit E
will positively contribute to the equitable consideration of fish and
wildlife concerns.
Thank you for the opportunity to review and comment on this document.
We would appreciate your providing an explanation of how you eventually
respond to the corrments we have made.
Sincerely,
Don W.Collinsworth
Acting Commissioner
Enclosures
cc w/enclosures:Lennie Boston,Special Assistant to the Governor
APA Board Members:
John Schaeffer
Charles Conway
Robert Weeden
Daniel A.Casey,Commissioner,
Department of Transportation and Public Facilities
Richard A.Lyon,Commissioner,
Department of Commerce and Economic Development
Richard A.Neve,Commissioner,
Department of Environmental Conservation
Peter McDowell,Office of Management and Budget
John Hayden,Acres American
Mark Robinson,FERC,Washington D.C.
-
-)
I,
APPENDIX A
Susitna Hydroelectric Project,Draft Exhibit E
Volume 1,Chapter 2
Water use and quality
GENERAL COMMENTS
This document generally fails to cite supporting evidence for the statements
made or for potential impacts considered to be of major importance to this
agency.An example can be found in the discussion of ice processes in the
lower river.The ice formation proc~sses are simply stated as causing
staging of 4 feet at Talkeetna to 3 feet at Sherman (E-2-59).The method
used to determine this estimate has not been defined.Also,no references
have been provided that evaluate whether ice processes are or are not a
problem below other hydro projects.If this is a purely speculative
scenario,it should be so noted.Otherwise,a scenario assuming that the
staging would be 6 to 8 feet at Talkeetna during the winter months and
annual floods would occur is just as supportable as the statements provided.
The failure to provide a separation of the speculative comments from the
-segments of the text supported by documentation creates severe problems in
assessing the overall credibility of the report.
A-1
This document also needs a preface on how the flow scenario and access route
were selected for the li~ense submittal and a discussion of other available
options.The Exhibit A document referenced on page E-2-86 on access routes
was not provided for our review.
SPECIFIC COMMENTS
The following comments are addressed to page specific areas and paragraph~.
and primarily address general deficiencies rather than grammatical errors.
Page/Par·agraph
E-2-3/4
The source of the 40 percent stream flow statistic should be
identified~
E-2-3/5
State that all the flows listed other than upper Susitna River are also
mean annual flows.
E-2-4/1-4
References are needed to support the flood information discussed.
E-2-S/1
A-2
References are needed to support the statement that the shape of the
llsted duration curves is indicative of flow from northern glacial
rivers.
E-2-5/3
Reference(s)are required to support the discussion regarding Susitna
River morphology.
E-2-10/1
,-.
The description of sloughs as having a steeper gradient than the
mainstem is misleading.The gradient within the sloughs is generally
variable,with a steep upper section and a lesser slope in the lower
end.In upland sloughs,those without scour channels,the gradient
appears to be even less.Overall,the sloughs have a steeper gradient,
but the variability of their gradient is important to their fisheries
production.
E-2-11/2·
There is a need to cite specific references in the water quality text
even though a general reference section was provided in the preface for
the water quality section.
E-2-12/3 &4
A-3
The months that are included in the "winter,spring and summer"time
frames need to be identified.
E-2-12/5
Clarification needs to be provided as to whether the Gold Creek
temperature data presented in Fig~E-2-30 were correct.The location
of this station was determined to be influenced by Gold Creek flows in
1981 and the station location was changed in 1982 to the northwest bank
as a consequence.
E-2-14/1
A reference is needed for the Portage Creek temperature data.
E-2-14/3
It should be noted here that under natural conditions,staging during
freezeup reportedly causes flooding of portions of the town of
Talkeetna near the downtown airport.There is a need to reference the
material presented in this paragraph.
E-2-14/5 &6
The term frazil ice should be defined for the readers.Also it cannot
be ~verstated that.ice jams could have severe consequences to portion~
of the community of Talkeetna.
A-4
.....
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-I
In order to properly assess the effects of the project on the
downstream fisheries and fisheries potentials of the impoundments,a
relationship of suspended-sediment and associa~edparticle size to
vertical illumination is desirable.This does 'not appear to have been
done,in that no quantitative measurement~o~vertical illumination
have been obtained •
E-2-20/5
The dissolved gas concentrations above the Devil Creek rapids were not
supersaturated and were recorded as approximately 100 percent.The 105
percent value was recorded above the Devil Canyon dam site.
E-2-24/2
These sloughs also contain important anadromous and resident fish
rearing habitat.
E-2-25/5
Power generation could be considered an instream flow use under only
unusual circumstances.In the case of reservoirs which store water for
later power generation,the storage of water is definitely an out of
A-S
stream use.Using the ternrinology of "in-stream flow"in the context
presented here for power generation is inappropriate and inaccurate.
E-2-26/3
Fry emergence occurs at different times within and among species.
Emergence is most closely correlated with accumulated thermal units and
has 1ittl e t~do wi th the hydrograph.Al so burbot and Dolly Varden
should be added to the list of important resident species.
E-2-28/6 &E-2-29/1
Seasonal salinity measurements should be collected and correlated to a
wide range of flow levels and tide conditions instead of to a few
selected flow levels.
E-2-29/2
The location of·the sampling site and a definition of the mouth of the
Susitna River should be provided to give credence to this statement.
Saltwater intrusion would be expected to be dependent upon tidal action
so this must also be taken into account when describing saltwater
mixing and intrusion.
A-6
.~
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E-2-29/4-S
The use of regression equations to calculate the peak and low flows
without data on actual discharge of the tributary streams to be crossed
by the access road is inappropriate and should not be used as a
substitute for collection of discharge information.This;s
particularly important to the design of bridges or culverts for
engineering integrity or for fish passage.The sizes of many drainage
structures placed in the North Slope haul road and pipeline workpad
were underestimated when these methods were applied.This resulted in
hydraulic erosion and structure failures that were unnecessaroY.
E-2-29/6
It is stated that liThe line between the dam and the intertie has yet to
designed,sited or constructed."The Exhibit E should include
infonnationon the siting (corridors)of the transmission lines,
baseline infonnation on resources which may be impacted,an assessment
of the impacts,and the methods proposed to offset impacts.
E-2-30/1-S
Discharge measurements should be collected at any stream crossings
associated with the transmission lines if road access is to be
developed.These measurements should be used in determining the size
of bridges or culverts for fish passage and engineering integrity.If
A-7
any other transmission line routes were considered they should be
listed.
E-2-31/General COl'll1lent on Section 3,PRO,JECT IMPACT ON WATER QUALITY AND
QUANTITY.
It is essential to present a discussion of the rationale and "process
for selecting the operational schemes on which the impact discussions
were based.In other words,it needs to be made clear why this
specific operational scheme was selected above other alternatives,what
the engineering rationale is and how considerations of environmental
values,concerns or needs were incorporated into the judgement that
this is a satisfactory operational scheme 0
E-2-32/1
The statement that dewatering a 1-mile section of the Susitna River
will not result fn any serious impacts is incorrect.This area is used
by grayling for wintering,and dewatering will result in a permanent
barrier to migrating fish in the system.Data collected by the ADF&G
in 1981 on intrasystem movements of grayling between Deadman and
Tsusena Creek indicated migration between these systems.
A-a
,~
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E-2-33/4
The statement does not address the large amount of "spoil that will be
generated and the 1arge amount of gradi ng and washi ng that wi 11 be
necessary to obtain proper sized materials for the construction of the
;
dam.This will generate an enormous water quality and spoil disposal
problem that has not been addressed.Spoil disposal sites should be
located in a manner to preclude introduction of sediments into the
Susitna River and fish-bearingtributari~s.
E-2-34/4
Petroleum and petroleum product spills in the smaller g.rayling streams
can have significant impacts on these fisheries •.An oil spill
contingency plan is essential to provide proper direction to prevent or
mitigate spill events.
.E-2-34/5
The description of the treatment of the waste water is totally
inadequate.The discussion of waste water treatment should describe
the volume of the waste water,the nature of the contaminant,a
documented system for appropriate water treatment,the anticipated
quality and the volume of the effluent,and an analysis of the instream
concentrations of the effluent.
A-9
E-2-35/1
Groundwater can be impacted by polluted surface water drained into a
well.
E-~-35/2
The term minor impacts,to describe the effects of excavation of borrow
material,appears to be a mis-statement.If borrow material is taken
from streams or lakes in the impoundment area,the impacts could have
serious consequences on these fish populations.The types and volume
of borrow materials to be removed,and the availability of materials
need to be identified.An inventory of the fisheries in these areas
needs to be made and baseline water quality conditions need to be
documented.An analysis of the effects of borrow removal and
mitigative actions to reduce the impacts by altering site locations or
construction and operation techniques should be presented.This is a
major oversight in this document.
E-2-35/5
Structural measures to prevent downstream movement of fishes through
the tunnels is a necessary mitigative action that is not addressed.
Downstream movement of fish without passage upstream essentially means
these fish are lost to the population.
A-I0
....
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,fflIiIlIllII
E-2-35/6
Upstream migration of fishes will be completely blocked by the velocity
barrier in the diversion gates.
E-2-36/5
As with earlier comments (E-2-29/4-5)t the regression analysis of .peak
and minimum dis~harges should not be substituted for the collection of
discharge information.
E-2-37/3
The level of analysis presented here and detail of mitigation of the
effluent should be provided for all effluents related to the project t
not just sewage.
E-2-38/6
Reference to this information as a personal communication is inappro-
priate.The outmigration of salmon in the spring is as likely related
to photoperiod and development as the other factors listed.Very low
flows in the spring could cause many of the juveniles to remain trapped
in backwater pools that are normally flooded by the mainste~under
pre-project conditions.
A-ll
E-2-39/2
The proposed flows of 12,000 cfs have not been demonstrated to maintain
the character of sloughs and provide the flushing flows needed to clean
..
fines out of the gravel.Also the cycle of vegetation.succession will
be altered if flows do not wash away old vegetative growth.
Consequently,what is now aquatic habitat may become terrestrial
habitat over time.
E-2-39/3
Minimum flows for the winter period should be established according to
fishery resource requirements.This is a critical period for the
populations of overwintering fish and even minor dewatering may have
significant deleterious effects.
E-2-39/5 &E-2-40
There needs to be an analysis of longer filling periods and associated
consequences.The short filling period evaluated (3 years)may produce
unacceptable consequences to fisheries resources.An extended schedule
for filling may provide for a higher and more preferable mitigation
option for fisheries through the 3-year schedule.
A-12
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_.
E-2-42/5
The potential negative impacts to slough areas downstream from.
Talkeetna resulting from decreasing the recurrence intervals of what
are now mean annua 1 bank fu 11 floods is not addr.essed.
E..2..43/2-5
The timing and the consequences of the thermal regime.s created within
the reservoir during filling to downstream water temperatures must be
better defined.
E-2-43/5
The water temperatures downstream from Watana need to be defined more
accurately.The cause of these low temperatures should be identified •
E-2-44/4
What are the predi cted depths at whi ch photosynthesi s wi 11 occur and
how will the quality of water discharged downstream compare with the
preproject conditions with regard to photosynthetic processes?Data or
discussion regarding this question should be presented.
A-13
E-2-4513
The method used to estimate the 30-50NTU values should be defined and
better described.The ·reasons why winter turbidity levels are neither
quantifiable nor subject to estimation should be clarified.
E-2-47/6
The section regarding impacts to slough habitats is not adequately
presented.Basically,the relationship of mainstem discharge to slough
discharge should be illustrated graphically.The response of the
ground water wells to changes in the mainstem at the various locations
(for those wells that were not silted in)should be plotted;a gradient
profile of the groundwater,rather than just the thalweg of the slough,
should be illustrated;and a map of the locations of upwelling in the
sloughs should be presented.The text as written does not present data
and many speculative comments are provided without appropriate
qualifications.
E-2-49/2
The statements suggesting that there will be no changes in the tempera-
ture of upwelling groundwater and consequently,no impacts to
incubating salmon eggs are not supported by data or citation.The
reduction of flows through these sloughs is not quantitatively defined
and could easily be major as well as minor.The loss of scouring
flows that remove sediment in these sloughs as well as beaver dams,and
A-14
'"""
-
removal of spring ice buildups could easily cause a senesence process
to begin which may ultimately destroy the sloughs is not addressed.
E-2-49/4-5
There are no citations,references or data to support these statements.
E-2-50/1
There is no reference to the commercial boat launch at Sunshine located
im~ediately below the Parks Highway bridge on the east bank nor is
there acknowledgement of the boat launch at the Talkeetna Village
airstrip which is becoming more heavily uSed due to bank degradation
and channel erosion at the II new ll Talkeetna boat landing.If the
mainstream of the Chulitna River moves west from its present position
as defined in the Draft .Exhibit E (E-2-42/4),access to the Chulitna
River and Susitna River north of Talkeetna River confluence could be
considerably mor~difficult than at present.The source of the data,
analysis or other documentation to support the comment that minor
restrictio~on upstream access to Alexander Slough may occur during
years of low stream flow needs to be provided.
E-2-51/1
Downstream flow requirements have not yet been determined or agreed
upon.
A-15
E-2-51/2
The criteria used to develop the 5,000 cfs minimum flow as well as any
of the other "target"flows should be presented.There must be some
documentation of the rationale,review or selection process by which
these "target flows"were developed and justified.
E-2-52/1
Optimally operated reservoir scenarios should be examined for other
target flows downstream using the new synthesized flows.
E-2-52/3
A scenario wherein Devil Canyon Dam is not constructed in the projected
time frame should be presented.
E-2-56/2
A detailed discussion on ice processes should be presented.
E-2-57/5
To evaluate the effectiveness of the multiple level intake structures,
their efficiency at removal of a layer of water at a particular depth
must be analyzed hydraulically.The velocity at the port of the intake
structure must be low enough to prevent upwelling at the face of the
1\-16
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""'"
dam.This is a common occurrence that effectively eliminates the
functionality of these types of structures.
E-2-58/1
E-2-59/2
The-process by-which staging elevations were estimated should be
documented.Under preproject conditions with lesser flows~staging is
often much higher than these levels.Local flooding in November
reportedly affects the town of Talkeetna.
E-2-61/1
There should be an explanation why turbidity;n the top 100 feet of the
reservoir is the-main interest.
E-2-63/5
Other potential sources of waste water need to be listed.
A-I7
E-2-64/3
We recognize that this section refers to the operational phases;
however,there is no explanation how the valves will be operated during
the initial filling and startup procedure.An explanation of the
thermal effects of using these valves is also needed,since the valves
will facilitate discharge of waters from the hypoliminion.
E-2-66/1-3
Data to support this presentation should be provided.
E-2-66/S-6
We disagree that navigation and transportation will not be
significantly impacted.These are somewhat contradictory to the
statements in E-2-66/5-6.Information to substantiate this conclusion
should be presented.
In the continuation of paragraph 6 on the next page it is stated that
Ii •••caution will be required in navigating various reaches.1I Also
E-2-67/2 refers to the winter season and the fact that winter travel by
snowmachine and dog sled will be impeded.
A-IS
r ---
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E-2-67/1
Reduction of floating debris will not benefit navigation significantly
in our opinion.Low water flows are expected to be the most
significant hazard in the downstream reach.The source or data to
support statements in this paragraph should be provided.
E-2-69/2
This paragraph conflicts with Page E-3-137,·second paragraph,wherein
it states the dam construction will adversely impact temperature·from a
fisheries perspective.
E-2-70/3
See earlier review comments for E-2-34/S concerning the analysis needed
to determine the water quality hazard from the discharge of concrete
.wastewater.
E-2-76/4
Documentation of the statement that,liAs Devil Canyon reservior is
filled,additional fishery habitat will become available in the
reservoir."should be provided .
A-19
E-2-87/1
Accurate discharge information on the creeks is needed to insure proper
culvert sizing and fish passage.This information is needed to insure
proper mitigation of potential impacts.
E-2-90/2
The minimum flow to maintain fisheries should be refined because 12,000
cfs may not be adequate.
E-2-90/3
The seasonal timing of the construction has.not been addressed.This
is an important factor in addressing fish and wildlife impacts.
E-2-91/2
Twelve thousand cfs for a flow at Gold Creek will not afford adequate
access to 50 percent of available slough spawning habitat.A higher
flow is required to maintain adequate access.This flow must be
determined by an analytical process.Also,other life phases of fish
in the downstream reaches below Devil Canyon are not addressed.All of
the statements regarding the effects of 12,000 cfs flows are purely
speculative and are not supported by data or measurements yet
available.The release of water through the valves may present
downstream thermal problems by releasing cold water in mid-summer.
A-20
~I
E-2-91/4
Changes in downstream river morphology have not been fully assessed.
To state that no mitigation is necessary to maintain slough habitats is
premature.The lack of ice scour and flood flows may cause an aggrada ..
tion of sediment in sloughs and may reduce natural cleaning processes
necessary to maintain productive spawnit"!g substrate and rearing areas.
~E-2-91/5 Line 8
Mitigation should be required and should be borne by the project
developer as a standard project cost.
E-2-92/1
Data to support statements in this paragraph should be provided.
E-2-9213
....
-
Thermal control by withdrawing water close to the surface can result in
vortices causing air entrainment and supersaturation which is
detrimental to fisheries.This subject should be addressed with
supporting analysis to ensure that surface withdrawal of water can
occur without detrimental impacts to fisheries.
A-21
E-2-9214
The report cited did not demonstrate supersaturation because of faulty
analytical techniques.The sample of water was not pressurized before
gas chromatographic analysis as is required by standard methods.
Therefore.any supersaturation would have probably dissipated before
the sample was analyzed.The study did show,however.that the thermal
conditions will not be affected by the valve and that the temperature
downstream will essentially be the same as the temperature at the
withdrawal layer in the dam.
Tables
E-2-1 through E-2-20 References to data sources for tabular material
should be made where they are missing.
Figures·
E-2-1 through E-2-39 Reference to data sources for figures should be
made where they are missing.
A-22
Appendix B
Susitna Hydroelectric Project,Draft"Exhibit E
Volume 2,Chapter 3
Fish,Wildlife and Botanical Resources
GENERAL COMMENTS -FISH
......
Thi s report·1acks suffi cient data to support most of the statements on
project impacts,whether adverse or benefi Cia 1.It does not reference or
F""use the literature or experience obtained from other hydro projects.Many of
the statements regardi ng populations of fi shes do not adequately refl ect
r
consideration of the instream flow requirements necessary to s·ustain those
populations.It does not separate opinion from statements supported by
correlative data regarding responses of the fishery to river regulation and
impoundment..It also does not refer to or cite in the text the economic
consequences of the flow regime presented.The document does not provide
infonnation relative to Alaska or other locations as to the success or
failure of proposed mitigation measures.In short,the data base presented
is insufficient to support most statements of impacts or the quantitative
effects that the project will have on downstream fisheries.
Additional difficulties in reading the report are encountered due to lack of
""'"literature references,processes by which conclusions or assumptions were
8-1
developed,and an absence of lists of technical documents and their
locations.Sources of tabular or figure material often are not cited.In
general,mistakes are common,many errors.are apparent,.and the report is
neither well organized nor edited.
GENERAL COMMENTS .-WILDLIFE AND BOTANICAL RESOURCES
There are numerous typographical .errors,incomplete sentences,and inconsis-
tent or contradictory statements.The fonnat is frequently violated with
impacts of one project feature incorporated into the discussion under the
heading of another feature.Terminology is at times inconsistent or vague.
The level of detail varies greatly from one subsection to another with
Ilminor"impacts often treated more comprehensively than II ma jor"impacts.
There are numerous examples of incompletely thought out ideas,some of which
will not stand up to close scrutiny.These are all indications that the
terrestri a1 portions of Draft Exhibit E,especi ally the impact sections,
were written too quickly before infonnation was organized -and had received
very 1 ittle proofing.The draft is in such poor shape that a meaningful,
detailed review is very difficult if not impossible.However,some major
problem areas that require extensive modification of the impact and
mitigation sections can be identified and specific examples of types of
deficiencies can be cited ..
B-2
r-~---
--
1.guantification of impacts -Magnitude of impacts are rarely indicated
except in tenns such as II minimal ll or II mo derate.1I Even those tenns are
rarely supported by a rationale.Most j~dgments of the significance of
impacts appear to be subjective.While studies are incomplete,and
some data (such as available vegetation maps)are of marginal value,it
should be possible to place outer 1 imits oTt many impacts,at 1east
indicating the order of magnitude.Indication of the general propor-
tion of a population's range subjected to a particular impact would be
useful as a crude indi cator of magnitude that coul d be refined at a
later date.As written,the reader does not know if a species will
lose 10 percent or 90 percent of its habitat.
.....
2.Impacts based on current populations -Current populations are almost
always used as the basis for impact assessment.Impacts·are judged
under current management plans and management strategies.This
approach is not adequate for assessing many of the impacts of the
Susitna Hydroelectric Project.Impacts should be assessed in terms of
the range of population levels that·could reasonably be expected to
occur during the life of the impact.Current populations might be
adequate for short-term impacts,as the population would not change·
greatly duri ng that peri od.However for long-term impacts,such as
those resulting from inundation of habitat,a full range of population
levels that could be supported by the habitat (carrying capacity)and
the range of management objectives that could be supported by those
population levels should be presented .
B-3
It should be recognized that carrying capacity as well as population
level s may vary over time.Consequently,1ikely changes in carrying
capacity during the life of an impact should be considered.Any action
that maintains ~arrying capacity at a generally higher or lower level
than expected in the absence of the project would have a positive or
negative impact respectively.
Carrying capacity cannot always be measured.Where current populations
are near carrying capacity,they are an appropriate measure even for
long-term impacts.Where current populations are believed to be below
c~rrying capacity,some estimate of carrying capacity is required.In
some cases,historical population data may suffice.In other cases,
measures of habitat quality may be used as direct or indirect
indicators of carrying capacity.
There are numerous examples where the Draft Exhibit E completely
ignores these concepts.Prime examples are caribou and wolf.Both
populations are currently at levels below carrying capacity,caribou
because of current management goals and wolves because of high harvest,
much of which is illegal.Exhibit E concludes that project impacts..
would be minimal under current harvest levels and avoids discussin~
impacts that would occur if these goals and actions were altered and
the populations were allowed to increase.Wildlife populations,user
demand,and management goals have changed dramatically over the last 50
years and can be expected to continue to change over the life of the
Susitna project.For example,increased hunter demand is likely to
result in an upward adjustment of the caribou population and harvest
8-4
goals,perhaps even before construction begins.If the Susitna project
precludes attainment of goals that could have been attained without the.-project,there will be a negative impact that has not been adequately
addressed by the Draft Exhibit E.
3.Failure to discuss cumulative impacts -Impacts are usually discussed
one at a time,with little discussion of the potential cumulative
effects on the population.Often each 'impact is sufficiently isolated
that its effect on the population is judged II minimal.1I However the
cumulative effect of all habitat alteration and all mortality factors
may significantly affect the population's ability to sustain major
impacts such as habitat loss.For example,inundation of moose winter
range may reduce carrying capacity,increasing the impact of severe
winters on the population.Project induced mortal ity could slow or
even prevent recovery duri ng subsequent years of milder winters.At
the very least,there would be an impact on the amount of hunter use
the population could sustain.
4.Ranking of impacts -When impacts are ranked,the most significant
impact listed is often one that is easily mitigated.For example,
increased hunter harvest resulting from improved access is often sug-
gested to overwhelm a11 other impacts.In such cases,the'di scuss ion
of other impacts is often cursory.'However,hunting can be regulated
and it is certain that the Board of Game will take measures to minimize
adverse effects of hunting on wildl ife populations,usually shifting
the impact to the users.This treatment is inconsistent with that of
B-5
other easi 1y miti gated impacts such as borrow pits where the impact
after rectification (revegetation)is discussed.
By suggesting that the greatest impact will be unregulated hunting,a
distorted view of total impacts is created.Less easily mitigated
imp~cts such as loss of critical foods tend to be obscured and are
discussed only superficially.
5.Incomplete and inconsi stent treatment of impacts of improved access -
Some of the greatest and longest term impacts of the Susitna project
will be secondary effects of improved access and attraction of people
to the area.This will likely precipitate development and increased
recreational use of the area that might not occur for decades without
the project.Impacts of improved access through hunting,including
direct mortality,disturbance,and ORV use,are discussed repeatedly,
often to the exclusion of less controllable impacts.But impacts of
improved access through individuals other than the hunters are almost
completely ignored.This is inconsistent and·ignores a significant
source of impacts.
6.Inadeq,uate treatment of habitat alteration -Habitat alteration is
consistently treated superficially.As noted above,this is sometimes
done through failure to even roughly quantify the impact or consider
cumulative effects.There are other examples where alteration is
dismissed without adequate rationale.The most serious example is
downstream impacts to moose habitat.
8-6
~,It is concluded that habitat may be enhanced between·Devil Canyon and
Talkeetna during the license period.However it fails to consider that
areas of current·early successional stages may become mature more
rapidly than new areas will become vegetated,resulting in an immediate
loss of habitat quality.
Changes in frequency of flooding are di smissed because bank full floods
will still occur every 5 to 10 years.However this could reduce the
rate of cutting and filling to 20 percent of current levels with a
corresponding reduction in habitat created by that mechanism.Effects
of peak floods and ice scouring below Talkeetna are dismissed ever
though changes in stage will exceed 4 feet in some areas.
This is an example where conclusions were presented without supporting
rationale.Close scrutiny of the problem shows that the underlying
rationale was either faulty or that alternative conclusions are
possible.
The problems listed above,singly or in combination,work to systematically
minimize potential impacts that might require mitigation.This appears to
stem from a tendency to seek a rationale that nullifies the need to fully
discuss impacts.However,if an underlying assumption is rejected (e.g.,
downstream effects on moose habitat),the entire section of the·impact
assessment becomes inadequate.Virtually every sectiDn of the wildlife
impact assessment suffers from at least one of the problems listed.
B-7
Mitigation Plan
The wildlife mitigation plan is too incomplete to warrant detailed comments.
Measures to avoid,minimize,or rectify impacts are scattered.Some are
included in the vegetation section but there is 1ittle indication of how
effective these measures will be for wildlife.It also is not clear which
measures have been incorporated into the project design and which are merely
recommendations from environmental consultants.The mitigation plan should
clearly indicate how wildlife impacts are considered in the design of the
project;what measures will be taken to avoid,minimize,or rectify impacts;
and how effective these measures will be in mitigating losses.This is
necessary to demonstrate that the option analysis the Susitna Hydroelectric
Project Fish and Wildlife Mitigation Policy has been followed and so that
residual impacts can be estimated for compensation planning.
The inadequacies of the impact assessment are evident in the mitigation
plan.There is no mention of compensation for impacts to species other than
moose.It is suggested that miti gation measures for moose wi 11 partially
mitigate for losses to bears and wolves,but that will depend on what
actions are taken and where.No mention of options for out-of-kind
compensation is made.
B-8
SPECIFIC COMMENTS -FISH
Page/Paragraph
E-3-2/5
In this paragraph it is stated,"•••criteria for assessing the rel~tive
importance of biologi.c.al impact issues have been provided by ••••(2)
comments and testimony by the Alaska Depar~ment of Fish and Game
(Skoog,1982;•••)."We have reviewed the text of Sl(oog,1982 and,we
do not believe this statement can be construed as establishing
It •••criteria for assessing relative importance of biological impact
issues ••••II The context of the COlTll1ents by AOF&G were specific to
three alternative access plans,numbers 13,16,and 17,and provided
qualitative assessment of impacts for each of those plans.It was
clearly noted in several areas of the 1etter that ADF&G's assessment
was subjective and qualitative.We would like to state that the
criteria by·which project impacts are judged should lead to a
quantifiable determination of impacts.These criteria for project
access routes to our knowl edge have not been establ i shed.Programs
which will collect quantifiable information to insure equal
consideration of fish and wildlife and their habitats and mitigation of
those impacts in access corridors have not been performed.
A reference to Commi ssioner Skoog I s April 1982 testimony to the APA
Board of Directors would be appropriate.Also,references to comments
B-9
and testimony provided by Schneider (1979,1982 a.b.c.)are not cited
in the bibliography.
E-3-3/1
The.ADF&G disagrees that its policy implies "•••that project impacts on
fish and game species will be of greater concern than changes in the
distribution and abundance of non-game wildlife and invertebrate
species."First,the terms "fish and game"and IIfish and wildlife"are
used interchangeably throughout our policy document,and secondly,the
ADF&G's greatest concern is fish and wildlife habitat and its ability
to maintain productive populations.As stated in ADF&G policy,liThe
overall mitigative goal of the Department of Fish and Game is to
maintain or establish an ecosystem with the project in place that is as
nearly desirable as the ecosystem that would have been there in the
absence of that project."We are primarily interested in maintaining
the quality,quantity and diversity of the habitat for fish and
wildlife with the project that is similar to that existing without the
project.
E-3-3/2
The genera1 tone of statements in this paragraph indicates a process of
rationalization rather than of a clear sense of direction and logic.
It is stated in this paragraph,II~Jhere there is a high degree of
confi dence that an impact wi 11 actua 11y occur,it has been ranked above
impacts predicted with less certainty.II For this thesis to have any
B-10
.....
validity one must also specify the vulnerability of the resource to be
evaluated.The same applies to assessing the process for evaluating
the probability that an impact will occur.It is equally important.if
not more so,to specify the magnitude of the impact that will occur.
E-3-3/3-4
The priority sequence for ADF&Gmitigation policy is not only for
mitigation option analysis in a planning sense but also for mitigation
option implementation.We have five potential .options for
implementation as listed,and require an assessment which quantifies
project impacts,and determines the parameters under which the project
must operate to implement each option.The highest priority mitigation
optl0n which is feasible is the one which this Department will require
for direct implementation.Quantifiable information sufficient to
determine whether an option is feasible must be available to enable the
ADF&G and others to select the appropriate mitigation option.As stated
in the ADF&G mitigation policy,liThe burden of proof to justify lower
estimates of damage to fish and wildlife habitat lies with the
deve 1oper.II
E-3-5/3
We suggest that management strategies will require the concurrence of
resource management boards and agencies.
B-11
E-3-7/2
Chinook,pink,chum and coho salmon mi 11 at the entrance to Devil
Canyon.Chinook salmon spawn in Devil Canyon in Cheechako Creek (RM
152.5)and Chinook Creek (RM 156.8).The lower limit of Devil Canyon
is defined as RM 152.It would therefore be correct to state that liThe
Susitna River is a migrational.corridor,spawning area and juvenile
rearing area for five species of salmon from its point of discharge
into Cook Inlet to upstream within Devil Canyon.1I
E-3-8/1
Impacts to less sensitive species with similar habitat requirements
would be mitigated,however,species with a lower evaluation priority
may be highly sensitive to change and may not be mitigated.For
example,species that are adapted to .turbid waters may be adversely
affected if a project creates substantial decreases in turbidity.
Burbot are an example of a species which may be so affected.
E-3-8/3
Chinook and coho do not have a greater conmercial value than chums,
although they do have a greater sport fishing value.
The projected change in conditions in the mainstem are not necessarily
beneficial to rearing juveniles as suggested in this·paragraph.The
condiltions (parameters)referred to should be i denti fied.Further,
B-12
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",.
i
mainstem habitat will not necessarily be improved in winter·months,
higher turbi dity is an example..Juveni les are al so consi stently
present in sloughs.There are no data or literature cited to support
the last two statements in this paragraph.
E-3-8/4
Arctic grayling also utilize mainstem habitats not only clearwater
tributaries as implied.
E-3-9/1
What are the resident evaluation species below Talkeetna?None are'
indicated in the listing.
Rainbow and burbot should be included in the list of evaluation species
because of their importance to the sport fishery and because of their
abundance and adaptation to the turbid conditions.There may bea
particular sensitivity to possible changes in the case of burbot.
E-3-10/3
Table E.3.3 does not reflect the 1.2 million figure discussed in text.
8-13
E-3-10/4
Table E.3.4.reflects different figures than the text with regard to
chum salmon escapement.The chum salmon escapement was 20,800 and
49,100 in 1981 and 1982 respectively.
E-3-11/1
Value (ex-vessel)on coho salmon is not presented.
E-3-11/S
If Mills (1980)data are to be used to indicate significance of
recreational use,the 1981 information should be included.
E-3-12/1
The harvest figures reported here reflect primarily Susitna River
harvest.Additional harvest occurs on some of the anadromous species
(chinook for example)outside the Susitna drainage,i.e.,in Lower Cook
Inlet saltwater fisheries.The statement that the sport fishing
harvest is from an area larger than that which may be impacted is
incorrect.
B-14
.....,
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E-3-12/3
The Tyonek Village subsistence fishery is principally.suppor.ted by
Susitna River chinook salmon stocks,not "at least in part"as stated
in the text.The Department not only recognizes the subsistence
harvest of fish by Tyonek,but.is responsible to insure the
continuation of this stock of fish •
E-3-13/1
Throughout the discussion,the escapement year is unidentified.
E-3-13/4
Types of individuals or species of fish should be identified.
E-3-16/1
The statement that,"Out-migration in the reach from Talkeetna to Devil
Canyon peaks prior to early June and terminates by the end of July
throughout the drainage."requires documentation.
B-15
E-3-18/2
There"are lakes with sockeye in the upper Susitna River (Talkeetna to
Devil Canyon reach).The potential for sockeye enhancement in the
upper Susitna Basin should also be mentioned.
E-3-19/3-4
Based!on -ehe:1982 evaluation of sonar versus tag/recapture Petersen
estimat:es~~the latter has been detennined to be more representative of
escapements than sonar estimates.Therefore~it is recommended that
Petersen population estimates be used where available.
E-3-22/1-5
We.suggest Petersen population estimates would be more meaningful in
lieu of sonar counts for the stations at Sunshine,Talkeetna and Curry.
The 1982 evaluation of sonar versus tag/recapture Petersen estimates
indicates that the latter are more rel iable.Therefore escapement
should be defined on Petersen estimates when available.
E-3-24/1-7
The year the data represent ;s not stated in the text.
8-16
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E-3-26/4
Eulachon are known to extend as far upstream as RM 58 based on 1981
observations by Su Hydro !'quatic Studies staff.The RM 48 figure
provided by Trent (1982)was for 1982 observations.
E-3-28/2
Principal study areas were located in the first mile of the tributaries
upstream of their confluence with the Susitna.The reference to upper
stream reaches in the fourth sentence should be removed.
E-3-29/1,Subsections 1 and 2
These statements are speculative and cannot be supported by existing
data.
E-3-29/2
A much larger number of grayling depend upon the area to be inundated
over and above those included in this estimate.
8-17
E-3-29/3
Grayling fry were captured at Watana Creek area in 1981,indicating
spawning in the immediate vicinity.
The final sentence concludes that if other unidentified conditions are
suitable,spawning habitat will not be a limiting factor for grayling.
This needs proper referencing and evaluation.
E-3-30/1
Burbot also inhabit Susitna River tributaries,not just the mainstem.
E-3-30/2
Areas downstream from Talkeetna of importance to burbot were identified
specifically.The four mainstem sites upstream from Talkeetna should
also be specifically identified.
E-3-31/3
The discussion of whitefish occurrence in the impoundment is not clear.
8-18
E-3-32/4
The juvenile long nose sucker collection effort was not sufficiently
uniform to conclude changes in distribution from the catch per unit
effort data.
E-3-37/3
.Chinook salmon extend to RM 156.8 (Chinook Creek)not RM 158.2.
E-3-37/4
Resident species of sculpin also occur in the Susitna mainstem.The
text should therefore report seven species.
E-3-40/1
Timing for respective salmon use based on 1981 data would be more
accurate if changed to:
Coho -30 July through mid-September,
Pink-27 July through 20 August.
E-3-41/1
The Arctic lamprey also occurs in the Susitna River above the Chulitna
confluence.
8-19
E-3-41/5
Based on set net and electrofishing catches in 1982,pink salmon mill
in the Susitna mainstem immediately below Devil Canyon.
E-3-43/1
Not all sloughs a re overtopped by flows of 20,000 to 24,000 cfs.
Examples are Sloughs 10,11,14,and 15.
E-3-44/4
Holding areas at the mouth of sloughs are not considered a critical
factor any more than "hol di ng areas ll at the confl uence of many of the
chum salmon producing streams.The fact that there are holding areas
does not necessarily make the sloughs more productive.
E-3-44/8
In the last sentence,are the authors speaking of a tributary mouth or
tributary?In either case,importance of the habitat type for rearing
cannot be measured simply by number of fish captured at a site.This
is particularly true for tributary mouths because they are part of the
downstream and out-migratory pathway where fish may be seasonally
concentrated.
B-20
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E-3-46/4
Thes~are not static populations.The populations of individuals
becomes redistr'ibuted to favorable rearing habitat locations,including
tributary mouths.
E-3-46/7
Chum salmon preference to slough habitat over tributary streams is
unsupported.Only index surveys were conducted on tributaries whereas
sloughs have been surveyed in total •.The 1974 investigations and 1982
ADF&G surveys indicate that tributaries may be equally as important to
overall chum salmon spawning in the Talkeetna to Devil Canyon reach as
slough habitats.
E-3-47/1
Indian River is a major chum salmon spawning stream.Based on 1974,
1981,and 1982 escapement surveys,this stream supported higher numbers
of chum salmon than chinook and coho salmon.
E-3-49/4
Eulachon were found upstream to RM 58 in 1981,and to RM 48 in 1982.
8-21
E-3-51/7
Based on 1981 and 1982 ADF&G spawning surveys,sloughs do serve as
chum,sockeye and pink spawning habitat.
E-3-"S2/3
Yes,all speci es of sa 1mon were recorded in tri butari es ;n 1981 but-
sockeye were not found in notable numbers.We do know that the Chase
Creek system supports a "small"sockeye run.ADF&G surveys·are
conducted in the half mile reach of tributaries upstream from the con~
fluence with the Susitna River.The balance of the tributaries are not
surveyed.If the report is to reflect that all species utilized
tributaries,then it would be appropriate to modify Page E-3-46,
paragraph 2 which presently excludes sockeye as being present in
tributaries.
E-3-SS/3
Fish Creek in the:Big Lake drainage supports a significant rainbow
trout population and also pink salmon.
B-22
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E-3-62/4
Cheechako Creek is a ch"inook salmon spawning stream.Chinook salmon
spawn both in the creek and the mixing area at its confluence with the
Susitna River.
Gravel removal/dam construction will·destroy this production area.
which is along term impact.The Cheechako Creek pl ume area is a
spawning site.Will project impacts be mitigated here at least until
Devil Canyon is built?
If Tsusena Creek will have the long-term and degree of impacts stated
it seems contradictory and optimistic to say it will or can be
rehabilitated.
E-3-65/4
Investigations should be conducted to determine the presence or absence
of fish in the referenced lake.
E-3-67/3
This is a mid-summer estimate of only those·grayl ing inhabiting the
impoundment area and is not an accurate reflection upon the number of
grayling that depend upon that same area for spawning.rearing,or
wintering.
B-23
E-3-68/3
Data are required to support the suggestion that the reservoi r may
provide additional wintering habitat.
E-3-71/3
The ADF&G studies document juvenile salmon occurrence in mainstem
habitats all summer.Catch rates were relatively low,however,and·
large numbers of fish could be present in low densities over a large
area at any time.
E-3-73/4
Water temperatures of 5°to 6°C at Talkeetna during open water period
may have major impact on returning adults.If higher flows will reduce
temperature,it may be better to reduce flows or find ways to tap
warmer layers of water for discharge.
E-3-74/2
The statements in this paragraph are speculative and reflect the need
for further study and analysis.
B-24
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E-3-75/2
Same comment as E-3-74,.paragraph 2.
E-3-78/1
The statements here are speculative and not supported by data or
references •
E-3-7813
Beaver dams in Sloughs 9Band 19 did not inhibi·t use by adult salmon in
August of 1982.Slough 9B had a peak survey count in 1982 of five chum
and one sockeye salmon on 19 September.Low water condition in
mid-August generally precluded adult salmon access to Slough 9 which is
the access corridor for salmon using Slough 9B.Slough 19 was
essentially void of adul t salmon spawning in 1982.Only one pink
salmon was observed in thi s slough and this fish was recorded on
4 August 1982.No beaver dams were present in Slough 19 which would
have precluded fish access.
E-3-79/4
Oeadhorse Creek (RM 121.0)is not an establ ished anadromous fish
stream.Occasionally,one or two adults enter this stream,usually
pink salmon.However,no successful spawning has been documented.
B-25
Annua lly,Deadhorse Creek flows go below the surface in the lower
one-third mile during the late fall and winter period.
It is questionable whether successful salmon production occurs in
Sherman Creek.About 25 pink salmon entered Sherman Creek on or about
12 August 1982,presumably for spawning,it has not been establ ished
that the eggs will·successfully incubate.The creek flows subsurface
in the winter and eggs may be frozen.
Skull Creek (RM 124.7)is another stream which probably will be perched
with flow changes in the Susitna mainstem.This creek supports a small
chum salmon population.
E-3-80/1
Devil Creek (RM 161.0)would be equally accessible to salmon as Tsusena
or Fog creeks.Devil Creek appears to have potential chinook salmon
spawning habitat.
E-3-80/2
Data regarding flow characteri stics are i nsuffi cient to substanti ate
minimal impacts into Susitna River reaches downstream from Tal keetna.
A greater proportion of the Sus itna 'Ri ver fi shery resources uti 1 ize
thi s downstream reach.A sma 11 change may affect a proportionately
larger resource base.
8-26
E-3-80/3
See cormnents for E-3-80/2.
E-3-80/4
In addition to salmon utilization,the Susitna River reach from
approximately RM 4.5 to RM29 is·almost entirely eulachon spawning
habitat,sustaining a spawning adult population ranging in the millions
of fish.
E-3-81/1
All resident species occupy mainstem habitats during ice free months,
not II may II occupy.
E-3-82/1
Eulachon spawning limits extend from approximately RM 4.5 to RM 58.
E-3-82/3
Eulachon do not spawn in backwater or semi-placid areas.Principle
spawning areas are adjacent to cut banks where the substrate included
deposits of unconsolidated sands and gravels,and riffle zones or bars
with relatively moderate velocity and unconsolidated sands and gravels.
B-27
E-3-88/4
The statement on sediment in this paragraph contradicts the statement
on page E-3-90,paragraph 2,sentence 3.
E-3-90/1
These statements are not supported by data.
E-3-90/3
Ice cover would probably form at RM 114 not RM 14 as presented.
E-3-90/4
The impacts to fi sh habitat due to backwater and staging processes
caused by increased post-project winter flows are not defined.
E-3-90/5
These statements are not supported by data and are speculative.
E-3-95/6
Eulachon do not spawn in backwaters.See comment on E-3-82,paragraph
3.
8-28
,.,..
,,
, I
I
T
E-3-98/6
Other species are known to be present.A relatively small population
of Dolly Varden inhabits the subject areas along with at least one
sculpin species.
E-3-100/3
Additionally,Jack Long Creek supports adul t coho salmon.Portage
Creek also has spawning populations of chum and pink salmon.
E-3-103/3
Changes in streamflow during open-water seasons will affect slough
habitats depending on the flow released.The potential for destroying
these aquatic habitats appears high.
E-3-122/S
Does restricting unauthorized traffic mean that project personnel will
be allowed to fish and the general public will not be allowed access to
the fisheries?This may not be an acceptable form of mitigation during
a construction phase that may span 20 years.The Board of fisheries
management deci s ions wi 11 a 1so supercede the stated pol icy of APA on
catch and rel ease fisheries by project personnel.It does net seem
1ike ly tha t the pub 1ic wi 11 be ba rred from the a rea wh i 1e proj ect
personnel have exclusive access and use of the fisheries.
B-29
E-3-126/4
The lakes for water withdrawal should be identified and their resources
inventoried.
E-3-127/2
Individual fish will not necessarily be lost by filling of the
reservoir.Fish do not have to be moved through the diversion tunnel •
.Structural protection from passage through the tunnel is a potenti al
mitigative measure.
E-3-130/3
A 10 percent reduction of flows during a critical and stressful period
for fish does not constitute a minor reduction.The potential effect
of reducing the November flow have on the recharge of groundwater
reserves which will be needed throughout winter should be evaluated.
Icing may take place much sooner with reduced flows and be much more
severe.
E-3-130/4
There are no data presented to support the statements regarding
fisheries impacts at the referenced flows.
6-30
rr
I
E-3-131/5
Pink·salmon fry moved out primarily during the ice breakup period.
Chums out-migrated primarily following the early run-off period.
E-3-134/2
There are no assurances that responses,i.e.,releases of water,will
happen quickly enough to keep from losing one year class of fish.By
the time the problem appears to be sufficiently severe to warrant
correction,it is most probao1y too late to act.This problem needs to
be further examined.
E-3~134/4
We are not aware of testing of this procedure.in this area of Alaska,
or that the technique is feasible.Additional research needs to be
conducted to evaluate the feasibi1 ity of the concept of introdudng
spawning substrate.
E-3-135/4
Data have not been presented to suggest thi s procedure wi 11 work for
chinook salmon.It is as likely that suitably sized gravels placed in
side channels,given maintenance flow,may attract chum salmon.
B-31
E-3-136/3
There is no definition of species to be produced,nor a management
scenario.In addition a suitable location for the proposed hatchery
facility has not been identified.To be considered a feasible
mitigation alternative,these considerations must be included •
.E-3-138/3
There are no data or references presented to document the feasibil ity
of this mitigation approach.Altered thermal regimes in the main-
stem and side-channels would cause potential pre-emergence of salmon
fry in these i;l.reas.However,early emergence of salmon fry spawned in
sloughs may not result as a consequence of higher mainstem tempera-
tures.Therefore,the proposed feeding and rearing of pre-emergent
salmon fry would not be resolved by the proposed spawning.channel and
rearing ponds (E-3-143-and 144)as mainstem fish would have no access
to them.
E-3-138/4
A much larger number of grayling than .included in this est.imate depend
upon the area to be inundated.Also,this is not a wintering
population estimate.
8-32
--
Additional Comments on Mitigation
On a more general basis,the attitude implicit in the mitigation plan is
"that losses are inevitable but unquantifiable,and that some mitigation
measures will be implemented but may not work."It is also implied that if
monitoring demonstrates inadequacy of a mitigation measure other steps wil1
be taken.
How and by whom will the effectiveness of mitigation measures be determined?
Under natural conditions small sub~populations of salmon undergo extreme
vari ations in survival.Thi s wi 11 confound eval uation of the mitigation
measures and could be a source of continuing conflict between the operators
and the resource agencies.The frequent references to alternatives and
operations which could be implemented if a mitigation measure proves
inadequate puts the burden on the wrong parties.The mitigation aspects of
this document are too tentative and too speculative.Substantially more
detail and information is required before ADF&G can make a reasonable
decision on mitigation methods.
Other additional comments specific to the mitigation section are as follows:
E-3-136 and E-3-140/1
Reference the following statefllent from the Exhibi t E document:
IISince the effective mitigation measures to avoid~minimize,rectify or
reduce impacts to the grayling population in the impoundment area are
8-33
not available,it will be necessary to compensate for the loss of these
grayling.Compensation is proposed to be in the form of hatchery
propagation of grayling •.•Sufficient grayling will be planted such the
number [sic]of catchable grayling will be similar to the number lost."
The FRED'Division of ADF&G has been experimenting with grayling culture
for several years,first at Fire lake,then Ft.Richardson,and now at
Clear Hatchery.We are continuing to work with grayling and intend to
develop techniques that someday wi n support a grayl i ng production
.....program.At this time and for the forseeable future,grayling produc-
tion in Alaska must be considered experimental.In brief,several
factors impact hatchery grayling production:
1.It is difficult to find egg sources that are sufficient in number.
Whereas salmon egg takes in the tens of millions are common,a one
million grayling egg take is a major undertaking.
2.The eggs and fry are extremely small and from a culturist's stand-
point,very difficult to work with.Grayling fry hatch at 30,000
per pound as compared with salmon which are ten times that size at
emergence.Marking and therefore evaluation-of survival after
stocking are not possible with existing technology.
3.Survival from green egg to fry have generally been low -50
percent as compared to 80 to 95 percent for salmon production.
8-34
4.Attempts to rear fry in hatcheries have been largely unsuccessful.
The obvious survival advantage that could be gained by releasing
larger fish cannot be obtained until techniques are developed
which will permit holding and feeding of fry.Grayling have been
successfully reared in the lower 48.However,those fish hatch at
a larger size (20,OOO per pound)and'behave differently in
raceways.
We intend to -overcome these problems as we learn more about the
performance of grayling in our hatcheries.However,the idea that an
irrevocable loss of grayl ing due to habitat inundati'oncan be compen-
sated by hatchery propagation must be judged speculative at this point.
The development and operation of spawning channel s and the modifi ca ...
tions of sloughs,that has been proposed as mitigation warrants further
discussion.
Reference the fo 11 owi n9 .seven excerpts from Chapter 3,of the Draft
Exhibit E document:
1.liThe slough habitat for the incubating salmon embryos may be
enhanced through increased intergravel flow associated with larger
flows,or it may be degraded if the higher flows substantially
alter the intergravel temperature regime or ice conditions.II
[E-3-131]
8-35
----------------------------------------
2."The [proposed]flows are of sufficient magnitude,however,to
undertake to rectifying (SIC)impacts to salmon spawning activity
by modifying existing spawning habitat to maintal"natural
spawning by salmon."[E-3-132]
3."If further impact reduction is required to maintain existing fish
populations,additional mitigation measures will be incorporated.
Certain target mitigation issues will receive priority in the
monitoring program.1I [E ..3..133]
4.liThe outmigration of salmon fry will be monitored to evaluate if
proper timing of outmigration is achieved.The basis for such an
evaluation will be the basel ine outmigration studies and within
year comparison to adjacent unregulated systems."[E-3 ..134]
5."Success of a multi-level intake depends on the thermal structure
of the reservoir,the existence of sufficient water at the desired
temperature and location with the reservoi r ...Temperatures near
this [8 to 12°C]range may exist in the top 100 feet •..If this
layer is present,it can be accessed by the multi-level intake
gates •.."[E-3-137,'138]
6."The most significant adverse impact associated with the altered
thermal regime would be accelerated incubation and early emergence
of salmon fry ...The modified sloughs or spawning channels designed
to rectify or compensate for lost spawning and incubating habitat
will be provided with a rearing pond at their downstream end ...
8-36
-
Used to collect early emergents and hold them to prevent their
downstream migration ..•Until appropriate conditions,including
temperatures are reached in downstream habitats."[E-3-138]
7.The fry will be fed if natural food production is insufficient to
support the number of fry present."[E-3-144]
In response to the above:The major problems appear to be flow
alteration with resulting affects on slough access,hydraulics and
water temperature.As might be expected,the determination of the
degree of impact (loss of habitat and fish)is very difficult to
quantify and there is not specific information provided.Instead,
engineering solutions are proposed for engineering problems.Modified
sloughs also known as spawning channels are addressed on a conceptual
level.Somehow it is proposed,that an unquantifiab1e loss .of fish
\'1111 be rectified/compensated by a multi-purpose habitat modification
program which includes channelization,flow control structures with
day-to-day flow alteration,gravel cleaning,gravel introduction,
enhancement of upwelling,rearing ponds with fry screens on the outlets
and artificial feeding of fry.
The engineering,construction and operation of these channels is
totally lacking in detail.There are not operational spawning channels
for these species in Alaska.Canada has had mixed success,but they
are located in environments far more temperate.
B-37
--._-------_._----
The cost of maintenance and operation of these channels should be
included in any determination of feasibility.The proposed
demonstration project should focus on fish production and'survival as
well as the physical properties of the modified slough.
The concern about changes in the thermal regime are inadequately
addressed.It is apparent that the impoundment temperatures and hence
the utility of a multi-level intake are not known.The rearing ponds
at the downstream end of the channels may not be effective in
accomplishing the desired objective.Emergence of fry will not occur
within a short time span but over a period of weeks.Therefore,at any
given time the fish in the slough or pond will cover a wide range of
deve 1opmenta 1 stages.A schedul e of 11 re 1ease"of these fry into the
mainstream must be provided.Once emergence timing is upset due to
altered temperatures it is unlikely that survival levels could be
maintained by holding them in a pond.
Fry will not automatically feed on an artificial diet,there is an
aspect of "trainingll which is obviously successful in a hatchery
raceway.Washi ngton has had some success with pond cul ture but the
fish are generally hatchery lots of similar size.
Assuming that the 'operator'of these sloughs and the proposed rearing
ponds determines that artificial feeding is required,how will this be
accomplished through the ice cover that may develop on the rearing
ponds?
B-38
.....
SPECIFIC COMMENTS -WILDLIFE AND BOTANICAL RESOURCES
The following specific comments are intended to illustrate the types of
deficiencies in the wildlife sections of the draft Exhibit E.The poor.
'state of editing and overriding major problems'listed in the general
comments precluded a complete listing of inconsistencies,errors,omissions
and other deficiencies.
Page
E-3-279
Rationale for considering alteration of habitat less significant than
hazards is not supported.
Increased predation is mentioned on page 284,with no indication of its
significance to the population,but ignored in the ranking of impacts.
The current moose population is highly impacted by predators.The
project is likely to increase the vulnerability of the moose population
to predation in several ways.Brown bear.and wolf populations are
likely to be less affected than moose in the early years of the
project,causing an alteration in predator/prey ratios.The project
could reduce the availability of spring foods for bears and caribou for
certain wolf packs,causing a further increase in predation on moose.
The drawdown zone and ice conditions are likely to facilitate hunting
of moose by wolves.The moose population may have reduced productivity
B-39
\...,."'._--,----~."----
because of poorer habitat quality,especially after severe winters,
reducing its ability to sustain predation.These factors could allow
predation to drive the moose population to very low levels and maintain
it there for long periods.Similar situations have occurred throughout
much of Interi'Or Al aska.Ul timately predator popul ations would suffer
and any habitat enhancement attempts could fail.
E-3-280
Sections relating to impoundment clearing are inconsistent,
illustrating poor editing and confusion about the certainty of
mitigative actions.Most sections assume the impoundments will be
cleared in a stepwise manner,but on page 306 it says,"lf portions of
the impoundment are cleared •••11 On page 286 it suggests a brief
increase in forage,but on page 287 it predicts a substantial reduction
in value.
Moose are sometimes attracted to areas being-logged by availability of
branches of deciduous trees.
E-3-283
Overuse of winter range can lead to reduced natality as well as
mortality.Moose that never use impoundment areas will be impacted by
over utilization of adjacent areas (see page 287 also).This could
expand the zone of impact for several decades.
B-40
r
i
E-3-284
.No rationale for concluding that mortality factors wi 11 have a
negligible effect on the population.Mortality along access routes
should be considered along with dam construction activities because
they occur together.
E-3-288
Effects of drifted snow on vegetation~availabil ityof vegetation and
phenology are not addressed.
E-3-289-290
See general comments on adequacy of assessment of downstream effects on
vegetation.Frequency of flooding (290 first paragraph).is probably
very important.No rationale is provided for assessment of the effects
of ice scouring on vegetation.The potential effects of scouring
should be quantified.
8-41
III
E-3-290
The effects of drifted snow on movements of moose are not mentioned
here,but are for caribou (page 298).
E-3-292
Increased morta.l ity resul ting from increased predation should be
considered.Floating ice during latter stages of breakup could have
the same effect as floating debris.
Accidental kills will continue during operation of Watana.
E-3-294
The summary of impacts for Watana comes closest to addressing
cumulative impacts.However it is not systematic,ignores some impacts
mentioned earlier and contains many subjective judgements that are not
supported by quantitative rationale.It also does not include impacts
of access routes and transmission lines which must accompany Watana.
The uninformed reader is likely to be confused and have no real concept
of the range of potential changes in moose populations.
B-42
E-3-297
There is no b.asis for the conclusion that the Nelchina caribou herd
will not use the area north of the impoundments at its current
population size.It is highly likely that this area of high quality
range will be used heavily in the future even at moderate population
levels.
Large movements of caribou across the impoundment areas have only been
observed once since 1973.Movements were not monitored closely in most
years.
It is highly likely that the management goal of 20,000 caribou will be
modified,perhaps before Watana is constructed.Therefore the
'F'
I
conclusions about level of impact are invalid even if the assumptions
about range use were correct.
E-3-298
Statements about drifting snow remaining in the impoundment conflict
with statements made in the Feasibility Report.This needs to be
clarified and documented.
B-43
E-3-298
The most significant mortality factor to caribou could be floating ice.
In many years the spring migration to the calving grounds would
coincide with breakup of the Watana impoundment.During a period of
northerly winds~caribou could encounter open water when they reach the
north shore.Seeing no obvious barrier they would start to swim across
and would encounter a mass of broken floating ice.This would create a
problem similar to floating debris.Mortality could be substantial in
some years.
E-3-299
The impression is created that the four possible responses are mutually
exclusive.More likely all four responses will be exhibited by varying
proportions of the herd.
E-3-300
The statement that the Mount \~atana sheep popul at;on does not occur
near the impoundment is an example of a statement based on a brief
period of observation.Sheep have been observed near the impoundment
in the past.
B-44
-
-
-
.-
r
I
i
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E-3-301
All portions of exposed soil at the Jay Creek mineral lick are not used
equally.Some of the most heavily used areas are low on the bluff.
Therefore the percentage of the lick that would be inundated is
misleading.This is also an example of an lIoperationl1 impact being
discussed under "construction."
E-3-305
Carrion is not mentioned as a spring brown bear food in the first
paragraph •.
The assumption that spring foods are not important to bears is
incorrect.Food intake during periods of stable weight or even weight
loss can be absolutely critical because it reduces a negative energy
balance.A prime example is the importance of winter forage for moose •
The suggestion that loss of carrion is more important than loss of
green vegetation ~s.questionable.A moderate quality,but abundant,
food may be more important to the population than a high quality,but
sparse,food.
The assumption that,because lactating female brown bear do not use
areas that would be inundated,other bears could do well without those
areas is not supportable.Females with cubs probably have overriding
reasons to avoid these areas.,This includes the cub's ability to
8-45
travel and the risk of predation on cubs by males.Pregnant females
develop heavier fat deposits that probably help sustain them during
this period.A female that was not able to coast through this period
would probably lose her cubs and move to riparian areas near the river.
Spring foods in the impoundments are probably most important to
yearlings which emerge from dens in poorer condition,particularly in
years following poor berry crops,and suffer the highest rate of morta-
lity.It is unreasonable to conclude that yearlings could survive as
well as a lactating female without spring foods.
E-3-303-308
Importance of spring foods to brown bears is inconsistent among
"construction,""filling"and "operatio~"sections.
E-3-308
While bears are capable of crossing the impoundments and ~ome will,
there still may be a hindrance of movements between seasonal food
concentrations that could reduce productivity of the population.This
section is inconsistent with a similar section on black bears (page
310).This is another example of where the potential significance of
an impact to the population is not discussed in even general terms.
The fact that healthy bear populations exist where salmon are not
available is not pertinent.Salmon are one of several seasonal food
concentrations.They are probably most important during years when
8-46
other summer foods,such as berries fail.Bear productivity and
survival are probably higher because salmon are .present and hence the
population is generally higher.
The entire brown bear impacts section is filled with unsubstantiated
speculation.Most of it is biased towards minimizing potential
impacts.It fails to consider how several ,impact mechanisms may work
in combination and how they might influence the population.The impact
section should 1 ist important foods of bears'by season,indicate how
the project might influence the availability of each food to bears,and
indicate the possible effects of these changes in availability on bear
productivity and survival.
E-3-310
The consequences of disturbance of denning black bear during clearing
are not emphasized.This is likely to cause problems for both bears
and crews.A number of bears are 1ike ly to be shot.r-1any of the
disturbed bears will not be able to find new dens and mortality is
likely to be high.This can result in a more rapid,more violent and
more visible adjustment of the bear population to the project.
8-47
E-3-31O
There currently is no resident black bear population near the Tyone
River confluence and the Fog Lake area supports low densities.
Therefore it is unreasonable to expect these areas to support viable
populations-during operation.
E-3-310
Project facilities may block movements of bears from the Devil Canyon
impoundmeRt area to berry areas adjacent to Watana.
E-3-311-312
The entire wolf impact section is deficient in that it fails to
adequately address "impacts of reduced prey densities.
Caribou populations may be reduced.Even if changes in caribou numbers
are m"inor the distribution is likely to be altered in a way that
reduces availability of caribou to specific packs.There are data from
the Susitna basin indicating that moose densities influence wolf
territory size~pack size and pack stability.Some current territories
may be reduced to the point where social factors would cause loss of a
pack.
8-48
r
~,
E-3-313
The statement that the amount of habitat lost would potentially affect
only two wolverines is not completely accurate.The habitat lost will
remove portions of territories of a number of wolverines,not all of
only two territories.
E-3-314
Impacts of prey loss on belukha whales is inadequately addressed.This
section appears to focus on adult salmon only.Outmigrating salmon and
eulachon are more likely the foods attracting belukhas to the area.
Eulachon in particular may be important.·Until effects of the project
on the availability of these foods are detennined~no conclusions on
impacts on belukha can be drawn.
8-49
E-3-340
Statements of cl imat·ic effects should be documented and quantified with
regard to magnitude of impact.
Elimination of ice scouring is suggested as a benefit,yet ice scouring
may be the most important factor maintaining early successional stages
north of Talkeetna (on page 289 reduction in ice scouring is seen as
detrimental).Even the potential short term benefits may be offset by
current shrub cormnunities advancing to more mature stages.
E-3-341
The flow regime would be used for fisheries management and its affect
on vegetation should be identified.It could prevent vegetation of
newly exposed substrate and further offset the potential benefits
suggested on page 340.
E-3-340-342
The discussion of downstream effects·of Devil Canyon Dam are
misleading.On page 340 it states "moose may benefit from an increased
availability of riparian habitat."Then,on page 341 it points out
that much of the habitat will not be available in winter because of
open water.(The potential effects of ice fog on use of these areas by
moose is ignored.)Finally on page 342 it pulls the two statements
together and states that effects on moose could be "moderate to
B-50
fF"
I
severe.1l Then on page 370 it says changes in vegeta ti on wi 11 have a
"sma ll population -level effect."
This is an example where the combined eff~cts of several impacts have
not been clearly thought out.The full range of possible changes in
vegetation has not been discussed,only the most optimistic
possibilities.When one of several potential overri,ding factors is
identified,the acreage affected is not quantified.
A far more enlightening impact assessment should be possible by
building a simple model with existing data.The ana1ys-is on page 172
takes a step in the right direction but does not carry it to a useful
conclusion.It crudely estimates the maximum acreage that could become
available for vegetation.This should be refined to estimate the
amount that would enter productive successional stages annually during
the life of the project.Uncertainties about rates of colonization
would produce a broad range of estimates,but the order of magnitude of
change and more importantly the chronological patterns of change should
become apparent.Similar estimates for currently productive habitat
that will advance to mature s~ages should be subtracted to provide an
estimate of net change in acreage of value to moose.TFie proportions
of thiS acreage that occurs on islands and would be inaccessible to
moose during winter should be subtracted to produce a crude estimate of
possible changes in available winter range.
A similar systematic approach should be appl ied to all areas that might
be subject to habitat loss or alteration.Impacts that show a
8-51
potential for serious effects can then be studied in more detail to
refine the estimates for mitigation planning.
E-3-342
Devil Canyon impoundment wi 11 primarily affect different moose.than
Watana.Therefore the statement that moose population will have
already been greatly reduced is misleading.The sumnary of impacts
uses the word II minima1"five times in reference to impacts on moose in
the upper basin",but completely fails to convey any impression of the
range of popu 1at i on changes that cou 1d occur du ri n9 the 1i fe of the
project.
E-3-343
II small proportion of acceptable black bear habitat
proportion of what area?How important is that proportion?
E-3-350
II What
The orientation of access routes in relation to wildlife concentrations
and movement patterns should be considered.Some subpopu1ations will
be more heavily impacted than others.Mortality and habitat loss from
access routes should be added to other impacts affecting the same sub-
populations during the same time periods.
B-52
E-3-351
Impacts of road and railroad traffic start at tidewater.Increases in
unscheduled traffic on existing roads,particularly the Parks and
Denali Highways are likely to be substantial.Levels should be
estimated and impacts assessed.
E-3-352
The timing of rail road and highway traffic is more important than an
average rate.Both seasonal and diurnal patterns should be considered.
Scheduling of traffic should be considered as a mitigation measure.
Secondary impacts of access routes,other than hunting,shoul d be
considered •.
Combined effects of access potential of transmission corridors and
access routes should be considered.
E-3-355
Caribou calving north of the Susitna River is sufficiently dispersed
that no alignment of the Denali access road will avoid calving areas
completely.
B-53
E-3-356
Frequency of traffic will be substantially higher during co"nstruction
unless unscheduled traffic is restricted.
E-3-355-356
It is not always clear which "herd"is being referred to.The Denali
access road runs through a central part of the upper Susitna-Nenana
subherd's range.It also runs through one of the highest quality
portions of the main Nelchina herd1s range.Use·of the word
"peripheral"is highly misleading.
Potential cumulative effects of the access routes and impoundments on
caribou range use should be discussed.
E-3-359
Potential alterations of prey distribution,especially caribou,on
specific wolf packs should be discussed.
E-3-360
The access routes will provide excellent access to tundra habitats.
Therefore human use of areas important to wolverine during summer will
increase.
6-54
E-3-366-368
Transmission corrido~s should be considered along with other impacts.
For example where they intersect the range of a subpopulation the
changes in habitat quality shoul d be added to changes caused by 'pther
!
project features within the range of the same subpopulation.
Pl acement and management of transmi ssion lines in proximi ty to roads
and railroads.can influence animal movements and rates of mortality.
For example moose train collisions could be greatly increased if a
transmission corridor attracted moose in a manner that "increased
crossings of the railroad.
E-3-370-371
The big game impact summary is completely inadequate.It addresses
only impacts on existing populations.It ignores many impacts,
including some judged substantial,suggesting that these need not be
mitigated.It conveys no impression of the potential magnitude of
change,even in current populations.The one effort at quantification
uses the smallest possible number of moose that would be impacted by
one mechanism.Even those numbers are stated in a misleading way.
They are numbers estimated on one survey during a mild winter.There
is no basis for the statement that this represents "most years,11 and it
certainly does not represent even a minimum number of moose that would
be eliminated by the project.
8-55
-
--
Appendix C
Susitna Hydroelectric Project,Draft Exhibit E
Volume 3,Chapter 5
Socioeconomic Impact
GENERAL COMMENTS
The ADF&G has continuously expressed concern regarding the adequacy of
socioeconomic studies relating to the determination and assessment of
potential impacts of the Susitna Hydroelectric project.to fish and wildlife.
Expression of these concerns dates back ta initial meetings with the Alaska
Power Authority in 1979.The original study plan developed by the AOF&G in
1979 contained an objective designed to assess these very impacts.
Upon review of this chapter,these concerns remain.In our view,little
substantial progress has been made to define project related socioeconomic
impacts.
Impacts to fish and wildlife ~sers have not been adequately addressed,
either in the areas most directly effected by construction or those areas
outside the immediate project area.Portions of the fish and wildlife
resources produced within the Susitna project area are harvested or utilized
in other more distant regions.There needs to be an assessment of these
uses of fish and wildlife with regard to (1)identification of resources
used;(2)quantification of use levels;(3)description of use patterns
including seasonality,its context within the local communities,etc.;and
(4)description of geographic areas of use.
C-1
Throughout this chapter reference is made to current and/or planned studies.
These studies,however,are not described,objectives are not presented and
time of implementation or completion is not defined.
SPECIFIC COMMENTS
Page/Paragraph
E-5-6/l
Only characteristics of personal monetary income have been described.
There should be some description (especially in the Local Impact Area)
of relative importance of natural resource harvests as part of the
household income.Any income determ-ination need not necessarily be
made in monetary terms,but should be done (1)qualitatively by (a)
assigning importance values to the harvest and use of each resource;
(b)assessing culturally significant practices;(c)describing the type
of economic organization of the area;and (2)quantitatively by (a)
assessing amounts of time spent harvesting resources;(b)assessing
estimated proportions of household food consumption;(c)determining
amounts of money spent in pursuit of wild resources;and (d)expressing
the overall output or consumption of a household unit.
r·"
""'"
....
-
E-5-12/4-6
This section on recreational facilities related to fish and wildlife
resources would be more appropriately termed recreational
opportunities.This area has an abundance of opportunities but little
development like trail systems,shelters and other man-made facilities.
A full assessment of the use of these opportunities and existing facil-
ities would be appropriate.Certainly there is information available
on Mt.McKinley National Park and the State park recreation areas.
E-5-54/4
The indirect influences affecting commercial businesses dependent upon
fish and wildlife resources as discussed are undefined.
E-5-54/5
The "partial short term displacement ll as discussed is not defined.The
statement made that with increased access,business opportunities will
increase is purely speculative.One might also expect business
opportunities to be reduced as a result of "increased access,particu-
larly if the business·is associated with the commercial use the of
limited fish and wildlife resources.
C-3
E-5-54/7
This paragraph indicates similar factors are necessary for both
successful lodge and guide operations.This statement is incorrect.
Commercial lodges are most successful with improved access and visita-
tion by large numbers of visitors or customers.With construction of
new roads,railroads and airstrips the project area would appear to
best fit this category.
A big game guide,on the other hand.,appreciates and can tolerate less
competition from additional hunters and recreational visitors.-His
type of business best functions at low levels of human activity and
participation.
E-S-54/8
Loss of additional habitat,and the change in location and amount of
salmon harvested as stated requires definition.The statement "lorig
term"impacts to Cook Inlet fishermen and other fish and wildlife users
will be small,is speculative.Long term is not defined,nor are
"other user groups,"or "recent activity levels."No supportive data
or study results are presented to support this statement.Types of
on-going studies should also be clarified and referenced.
This entire section includes many categories of users who are not
licensed.Trappers and subsistence users,for example,are not
C-4
-
-
.....
required to have business licenses to operate.The definition of
business needs to be presented.
SECTION 3.7,LOCAL AND REGIONAL IMPACTS ON FISH AND WILDLIFE USER GROUPS
General Comments
1.Organizationally,the section of FISH is not comparable to that of
GAME which make it deficient in the presentation of vital informa-
tion:
a.It makes no mention of guided sport fishing activities which
area major use of the Susitna River and its tributaries.
b.No mention is made of fishing lodge operations dependent on
~usitna River fisheries.
c.No category comparable to that of liThe Hunter,"E-5-75,is
made for sport or subsistence fishermen.
d.The category "Resources"on E-S-7S elaborates on game
resources,their characteristics and the users of those
resources.Only limited information is currently available
pertaining to recreational and subsistence uses in the
Susitna River Basin.There is a need for additional data
collection.
C-5
e.In the Game section,no "Methodology"is presented as it is
for Fish.
Although it may be true that impacts to the fishery resource depend upon
loss of habitat and subsequent loss of fish,the issue in this section (3.7)
is also the impact upon user groups.In this case,the methodology in this
chapter should address both impacts to the respective user groups,and to
fish and wildlife resources.
Specific Comments
E-5-68/1-3
This section is labeled "Methodology,1l but provides no methods
appropriate to the evaluation of impacts to user groups.Implicit in
this type of evaluation is the need for a measure of existing use.The
only statement defining methods is included in Paragraph 2 which
described data used to determine impacts of the dam on the fishery
resources.It should be noted that pink salmon are more abundant on
even years than on odd numbered years.As such,1981 was a year of low
pink salmon occurrence.
C-6
......
..,..
E-5-68
A survey of conmunity usage of wild resources by Cantwell would be
useful in assessing levels of use and importance of the salmon,moose,
caribou,and other resources.
The Cantwell area is likely to be affected by (1)wildlife population
fluctuations due to construction activity;(2)population fluctuations
because of increased hunting pressure which could result from (a)_
increased human population,and/or (b)increased access to resources.
While local residents may not appear-as a "significant"portion of the
overall harvest,those resources may very well be important to the
community in many ways.
E-5-68/4
The assumption is made in the first sentence that "•.•the conmercial
fishery for salmon produced in the Susitna system occurs only in Upper
Cook Inlet."This assumption is invalid since Susitna River salmon
stocks are harvested throughout Cook Inlet,including the lower
district.Impacts to Susitna River fish are indeterminable because it
is not possible to separate the mixed salmon stocks as they migrate
through Cook Inlet.
C-7
E-5-68-69/5
The monetary figures presented here cannot be used to determine the
specific financial loss of Susitna fish,because of the mixed stock
(see comment E-5-68/4).Many of these fish are Kenai River or Kasilof
River fish.
E-.5.-69/3
The fi rst sentence states IITtie specific impacts whi ch woul d result from
construction of the Susitna dams have not been determined in a manner
which allows accurate quantification."This statement invalidates
comments in E-5-70/1-3,and statements in other Draft Exhibit E report
chapters.
The paragraph does not address impacts to Susitna River salmon
resources downstream of Talkeetna.Greater salmon occurrence exists in
these areas,than does the area further upstream of Talkeetna.
E-5-70/3
Chinook salmon are harvested incidentally by commercial fishermen in
both upper and lower Cook Inlet.Project impacts to these users
requires definition as do the criteria for establishing II s ignificant
quantities ll as stated.
C-8
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E-5-71/1
Personal communications with sport fish biologists should be properly
cited.
E-5-71/2
The discussion indicates the area and level of impacts to resident and
migratory fishes is not determined.Chapter 2 and Chapter 3 of the
Draft Exhibit E present relatively detailed presentations of these
impacts.
The statement,IIData on specific angler use of the Susitna and
tributaries above the Talkeetna River confluence are virtually nonexis-
tent.1I is incorrect.Data are available on angling use in this area
from the ADF&G Statewide Harvest Survey.
Impacts are limited not only to areas upstream of the Talkeetna River
confluence,as impl ied.Sport harvest of stocks util izing the upper
Susitna River are thought to occur elsewh.ere in Cook Inlet,as far
south as the Homer area .
E-5-71/4
Table E.5.40 as referenced in the paragraph omits burbot in the list of
major species.This paragraph states study is underway to define
recreational values of Susitna River fisheries resources which may be
C-9
impacted by the project.We are unaware of these studies,and they
should be referenced.
Section Surrmary:
The sport fish discussion is not complete nor does it compare with the
commercial section in the presentation of figures and numbers.For example,
population estimates are available for several species as are data regarding
recreational utilization.These data are not presented.The research
mentioned as "currently unden'laY"is not referenced.
E-5-71/5
Generally, the section on Subsistence Fishing is based on the
assumption that the harvests which occur in Cook Inlet are from the
Susitna River.This assumption is not necessarily true as most of the
effort occurred in the Central District where Kenai and Kasilof salmon
stocks are taken.Information in Stanek (1980)indicated the residency
of subsistence permit holders.Net survey information (Stanek,unpub-
lished data)is available depicting general areas utilized by
subsistence fishermen "in the Northern District.Similar information is
available for the Central District (AOF&G,1980).
Additional assessment of user groups should be made under the category
of domestic use of salmon.Salmon for domestic use is obtained from
commercial,sport and subsistence fisheries.
C-lO
Infonmation on use of salmon resources in Tyonek is also available
(Stanek arid Foster,1980).More recently,data were collected during
the spring of 1982 on the specific uses of salmon by Tyonek residents
(Foster,1982).It is assumed that most of the chinook salmon caught
in the subsistence fishery at Tyonek are Susitna River fish.
E-5-72/2
The value elf "su bsistence"caught fish cannot adequately be determined
using a shadow price.Usher (1976)described the difficulty in
determining the value of wild foods.The "po int of ~ubsistence capture
estimate"would not adequately estimate value.A more appropriate
value would be the processed cost.In addition,the nutritional value,
cultural value,and equipment investment must be added as cost
qua 1 ifi ers.
It is also stated that value might be determined using 1I •••the price of
an equally desirable alternative food source.II A major question would
b~how an equally desirable food would be determined when,for many
people,there is not a better source in terms of quality,nutritional
value,cultural value,social value and recreational value.Indeed,
salmon is the standard by which value is determined.
C-11
E-5-73
Under the category of Game there is no section on methodology as under
the Fish section.
In the section on "Guides and Guide Services"'there is no
quantification of the number of guides ~perating in the area or their
revenue.In addition quantification of the numbers of people providing
outfitti ng and transporti ng servi ces that are not gui des is requi red.
Information is available from the AOF&G and from the Guide Licensing
and Control Board.
E-5-74/2-3
There is no discussion of available data (Phase 1 of big game reports)
that provide estimates of losses of animals,effects of access,new
hunting regulations,etc.~that would influence "available harvestable
animals."
In the category of lILodgeOperators"no indication is made of the
amounts of services and relative value of services furnished.
Many additional lodges on the highway system provide services to the
individuals who hunt along the highway system or who use the highway
system as a point of departure.
C-12
~c·."""""---··~·,','"-~"__.__',_---;---:-~·---:-~;~-~-'-nr--;;-;c:-.".-,,-_·-·
-~
.-
{qlSa
I
E-5-75/2
Apparently the intention of the"statement "The impact of the proposed
project on the lodge operators would be indirect and of the same nature
as that of the guiding industry.1I is that any direct impacts would be
upon the resources.However,in the case of the inundation of land
areas utilized for hunting,camps and travel,the impact would be
direct.
E-S-76/2
Reference to the figure 71,000 animals must be put into proper
perspective with regard to the present management for the popul ati on
and range carrying capacity.
E-5-76/3
The infonmation presented deals with the residency of hunters rather
than the experiences they seek.
E-S-77 /l
A comparison is drawn between hunting pressures or numbers of hunters
during the early 1970's and 1980's.Hunting pressure is a function of
the number of permits and the number of animals in recent years.This
paragraph is misleading and,in fact,the comparisons are invalid.
C-13
E-5-78/5
The category IIExperience Sought ll is inappropriate for the informational
content of this section.It provides information on characteristics of
user groups.
E-5-79/2
Although harvest ticket reports allow for the reporting of multiple
means of transportation~analysis of the data allow for only one
primary means of transport.The use of highway vehicles is the most
common method of transport to the general area.Within the area~
however~other forms are more common.
E-5-80/1
References should be noted with regard to who is doing the studies and
their schedules for completion.
E-5-80/2
The first sentence is misleading and inaccurate because the implication
is that regulations will be of greatest impact to the users.
Regulations are a function of resource status and user groups charac-
teristics.Those regulations which may be promulgated due to any
reduction in quantities of resources are a reflection of resource
status and perhaps increased user access to the area.
C-14
.....
The statement,"In such cases,the project would cause little or no
additional reduction in hunting opportunity."when referring to
a1ready stri ngent regul ations on some speci es is inaccurate.·Indeed,
some regulations are more stringent as with caribou,but may become
even more stringent if range is inundated and the area of available
habitat is reduced.Regulations on increasing numbers of moose in the
region may be relaxed in the near future,but if these prove
unsatisfactory and mitigation measures do not compensate for moose
losses in the impoundment area,further restrictions may be required.
E-5-80/3
The statements indicating that regulatory structures will be the major
impact on the user is misleading and inappropriately identified as the
major impact on the user.
E-5-80/4
There is no indication of how the quality of the surrounding
environment will be changed thereby affecting the expectations of the
user.
E-5-81/2
Subsistence users in the region have not been identified with regard to
the use of game resources,except caribou.In this case,a set of
criteria were developed which qualify a certain number of people on a
C-15
first-come first-served basis.For other game resources,further work
is required to determine resource use patterns.Information provided
in the text refers only to caribou.
Although "bringing home food meat may be the 'main goal,11I there are
other goals of the user.These include (I)o~taining a high quality
goods at a relatively low pr"ice;(2)fulfi11.ing certain cultural
traditions and obligations to the community and/or family;(3)
attaining goals of self-determination and independence of welfare
programs;and (4)attaining the knowledge and ability to support one's
self.
E-5-82/3-4 &E-5-83/1
Data limitations on trappers do exist;however,a survey of trappers in
the Local Impact Area would be appropriate.
E-5-84/5
The term lion balance"is unclear.There is some question as to whether
existing trappers will benefit or if there will just be more numbers of
trappers due to access.It is doubtful that increased access to the
inundated area will,in fact,benefit trappers since fluctuating water
levels will not benefit more aquatic species especially if draw-downs
occur during winter months where food caches and burrows may become
inaccessible.
C-16
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E-5-85/2-3
Construction of access roads and transmission lines may provide added
access to some areas for trappers.However,the loss of habitat and
increased pressure on martens from trapping and human activity
generally may reduce the numbers of marten and thereby be a major loss
to trappers.Paragraph 3 more accurately portrays likely impacts than
does paragraph 2.
E-5-86/3-4
The assessment of trapping activity and its importance to users in the
Local Impact Area should be more extensive.There is some confusion as
who an Alaskan trapper is,compared to "recreational"trappers who
supplement their income by trapping.Especially when,as stated in
paragraph 4,"It is estimated that there are a large number of
residents in the Local Impact Area who do some trapping on a part-time
basis •••,"more information is required on how large this group is and
the level of importance trapping is to them.
E-5-88/4-6
There is no mention of what people's attitudes were toward changes in
section other than 3.1 and 3.5.Because natural resource use is
important in the area,there should be some indication of local
attitudes toward changes in the availability of resources.
C-17
II
It therefore follows from E-5-89/3 that only the attitudes presented
with regard to section 3.1 and 3.5 are addressed.
No further mention is made regarding measures to mitigate impacts to
resource users.There should be some indication as to what can be done
to resolve the impacts.
C-18
--
-i
Appendix 0
Susitna Hydroelectric Project,Draft Exhibit E
Volume 4,Chapter 7
Recreational Resources
GENERAL COMMENTS
This report segment lacks supportive data for many statements related to
project impacts.Statements or-discussions are often simplistic,based on
faulty assumptions and methodologies;and lack the necessary definitions to
provide adequate project impact analysis.
In general,analysis of current trends in recreational boating and fishing
in Upper Cook Inlet,leads to the conclusion that many of the recreational
use projections in this report are far too conservative.
Discussion of project impacts in some instances is limited only to
statements that anticipa~ed impacts are similar to others discussed,or to
other impoundment projects.The specific comments that follow will
demonstrate many of these deficiencies.
SPECIFIC COMMENTS
Page/Paragraph
0-1
E-7-13/2
Fairbanks is not considered to be within the Southcentral area of
Alaska.
E-7-13/3
The paragraph implies members of the Knik Kanoers and Kayakers are
representative of the overall increase in recreational boating within
the Susitna River basin.They are not,as they comprise only a minor
segment of the recreational boating users.Substantially greater
increase in boating,and water oriented recreation with other types of
watercraft has occurred.
E-7-15/3
Lake Susitna,Tyone Lake and Tyone River are already major recreation
areas.They are not potential areas for IIfuture development ll as stated
in the text.Both Lake Susitna and Tyone Lake have numerous
recreational cabins located around their perimeters.
Boaters are not able to float down the Susitna River and up to Lake
Louise as stated.Powered watercraft are necessary (often equipped
with jet or air-drive propulsion)to ascend the Tyone River,to Tyone
Lake.
D-2
E-7-20/1
We are not aware of any recreational boaters traveling upstream on the
Talkeetna River to Stephen Lake for fishing,due both to the distance
and presence of major rapids on the Talkeetna River.
E-7-21/2
See comment (E-7-20/1)
E-7-24/2
Management of lands for public recreation and appreciation as presented
in the paragraph requires additional clarification.It is not clear
what will be accomplished to achieve these goals.
E-7 -25/1
This paragraph refers primarily to wildlife related impacts,and little
mention is made of potential fisheries impacts.In addition to quarry
activities discussed for Tsusena treek,it can be anticipated that the
lower reaches of all Susitna River tributaries within the impoundment
may be effected by vegetative clearing,road construction,gravel
removal,as well as the stated water quality changes.
0-3
Paragraph one also implies the actual construction area is a relatively
minor one.It in fact will be almost 50 miles in length,and one which
does not constitute only a minor inconvenience to recreational users.
E-7-25/2
As in the previous paragraph the discussion is directed primarily to
wildlife and wildlife related impacts.The discussion fails to address
the fact that the lower reaches of all clear water tributaries to the
Susitna River,within the impoundment,will be inundated.These areas
are the most valued aquatic habitats at present,and are the areas
where all recreational use currently occurs.
E-7 -25/5
This paragraph does not clarify why fish populations are not expected.
to occur in the impoundment.Statements in Chapter 3 (fish,wildlife &
botanical resources)indicate the impoundment waters are expected to
provide additional fisheries habitat.
The apparent inconsistency in these statements,and report segments,
requires clarification.
0-4
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E-7-25/6
This paragraph is uncl ear as to locations of areas where sport fishing
will be disturbed.Dredging reference is to "channel"but does not
clarify if it is within the Susitna River or the tributaries where
sport fishing currently occurs.
Additionally,dredging may create impacts other than just changes in
water quality as stated.Quarry activities,road construction and
resultant recreational use restrictions as a result of these activities
are not discussed.
E-7-26/1
The flows predicted during the fill period will not only "temporarily
diminish"fishing opportunities as stated,but will totally eliminate
some of the slough and side channel habitats.The effects of slough
dewatering during the fill period may result in the loss of several
year classes of some species of fish,creating not a temporary impact,
but a "long-term"one.
E-7-26/2
There is no information to support the statement of increased fishing
opportunities with increased winter turbidity levels as stated.
D-5
£-7-28/1
No data exist to support the statement that the presence of
construction workers will not have detrimental effects to the
recreational resources,nor is there an adequate discussion of what
constitutes "proper contro1.11
£-7-28/2-3
References to the impacts of 550 workers,the loss of 32 miles of
river,construction of a 34-111ile road,and current uses of the river
are treated superfi ci·a lly.Impacts to recreational resources resulti n9
from improMed road access alone will affect not only waters within the
impoundment but those of adjacent areas as well.
£-7 -29/3
This paragraph is speculative.No data are presented to support the
statement that winter fishing is unaffected by increased turbidity
levels.The increase in turbidity levels requires definition.
E-7-30/3
No data are presented to support the assumption that recreational use
is non-specific to the area,and can simp1y be moved to adjoining
areas.A definition of subject species and recreationa1 uses discussed
is requ ired.
0-6
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E-7-37/4
Data extracted from the 1970 report should not be used when similar
data from the 1976 and 1981 reports are available.Existing ADF&G data
suggest that per capita participation days and projected increases as
published in the 1970 plan,and for dema-nd estimation,are inappro-
priate for 1980 and 2000.
E-7-38/1
Quality is not the same for all activities and should not be discussed
as though it were.The assumption that travel time and cost totally.
influences recreational use is faulty.
E-7-39/4
Data in this paragraph are interpreted incorrectly ..A careful review
of the evidence cited does not suggest that fishing effort has been
~ecreasing in the impact area,or even that it has decreased relative
to statewide trends.Areas used for yearly comparisons do not repre-·
sent the impact areas.In addition,areas used for comparison were not
the same from year to year .
E-7-40/4
No data are presented in this paragraph to support the assumption of a
declining recreational demand in the Susitna River area.The
0-7
discussion does not define the other "attraction values,11 nor does it
address the increasing recreational needs of an increasing human popu-
lation in the rail belt area.
E-7 -41/4
The doubling of recreational use as presented is considered conser-
vative.With the addition of a road system into the upper Susitna
River area and the expanding human population,greater increases are
expected to occur.
E-7-41/6
With the decreased flows downstream from Devil Canyon dam,and improved
road access to the dam site,we would expect increased days of
recreational use by kayakers,canoers and rafters.
0-8
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"F'
!
r
I
Appendix.E
Susi~na Hydroelectric Project
Draft Exhibit E
V~lume 4,Chapter 9
land Use
GENERAL COMMENTS
This document is written in such a general manner that it is difficult to
comment on.It contains information that contradicts statements made in
other chapters,and ignores potential impacts to land use and access
downstream from Gold Creek.
Although mitigation of impacts to land use is mentioned,there is no
commitment to impl ementing possibl e measures.In additi on,there is no
discussion of which measures will be implemented or when or how.Some
impacts to land users are completely glossed over and it is suggested that
users will have to accept impacts or move elsewhere.
SPECIFIC COMMENTS
Page/Paragraph
E-9-2/7
,
Activities such as consumptive,recreational or subsistence use of fish
and and wildlife resources are considered as dispersed use and isolated
non-site-specific activities which do not involve a commitment of
resources at any particular site.
E-l
.Harvest,and production of harvestable resources is specifically
dependant on a commitment of a speci fic amount of 1and {habitat}.
Participation in the harvest of fish and game {levels of effort}is
therefore site-specific.Consequently,the loss of species habitat
including the lands and waters used as harvest areas win have a
measurable impact both on management of wildlife and 9n public use.
E-9-3/5
An assumption is made that because the project is isolated and located
in a subarctic environment,extremely low density land use results.
However,use of 1and both by the pub 1ic and wil dl ife is seasonal and
can be very high for a specific season.
E-9-15/3
Hunting use of Zone 1 is less than in Zones 2 and 3.However,hunting
in Zones 2 and 3 is basically associated with the existing lodges and
cabins and is more readily quantifiable than identifying independent
hunter effort.Use of AOF&G harvest stati sti cs woul d hel p quantify
independent hunter effort.
Figure E.9.5
Reference to rating public use of lands occurs throughout Chapter 9 and
is ultimately reflected in Figure E.9.5 a map which identifies 11 use
or ·sample use sites with evaluations of use intensities for each site.
E-2
I~
I~
.~
~,
r'
I,
The designation of Low,Medium and High intensity uses should be
defined.
E-9-32/1
Proposed mitigation for the loss of public use of project lands has
only addressed the consideration of establishing restrictive access
regulations.Other mitigation alternatives should be identified
including replacing opportunities lost with lands that provide equal
value .
E-3
nEI-AIlTl"IENT 0 ..'NATURAl.n":SOURCES
OFFICE OF THE COMMISSIONER
January 13,1983
BILL SHEFFIELD,GOVERNOR i
555 Cordota Slreel
Pouch 1..{J05
Anchorage.AK 99510
19011 216-2653
Mr.Eric Yould
Executive Director
Alaska Power Authority
334 W.5th Avenue
Anchorage,AK 99501
Dear Mr.Yould:
REceIVED
JAN 1 71983
ALASKA POWER.AUTHORITY
1()-J2LH
The Alaska Department of Natural Resources has reviewed the draft Exhibit E
application for the Susitna Hydroelectric Project.We are submitting
comments on this document which in part satisfy the agency coordination
requirements established by the Federal Energy Regulatory Commission,
(FERC). The formal position of the Department of Natural Resources regarding
the Susitna project is contained.in the Exhibit E comments which follow;our
April 16,1982 testimony to the Alaska Power Authority Board of Directors
(copy attached)and the letter to Eric Yould from Reed Stoops dated October
11,1982 (copy attached).We request that an-unabridged copy of these
comments accompany the perfected application submitted to FERC.
ORGANIZATION AND PRESENTATION OF EXHIBIT E
In some cases the Exhibit E text,tables,and figures do not reference the
documents from which the material was taken.The consequence of this
inadequate documentation is that the reader cannot determine the
specificity,accuracy or sufficiency of the Exhibit E.We recommend that
the specific references to original documents be included in this Exhibit E
before the application is submitted to FERC.
WATER QUANTITY AND QUALITY
During the past two years the Department of Natural Resources has emphasized
the great importance of acquiring a clear understanding of the relationship
of various flow-release rates from the proposed dams and the corresponding
impacts on downstream aquatic resources,habitats,and uses.This
information is vital to enable DNR to make informed decisions with respect
to instream flow reservations and water appropriations both of which are
required in order to facilitate the Susitna Hydro Project.The flow
releases schedules presented in Exhibit E for filling and operation of the
Watana and Devil Canyon Dams have not been developed in consultation with
the Department of Natural Resources or by a methodology approved by this
Department which is charged by law with authority to adjudicate all water
......
......
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(,)
(v
appropriations and instream flow reserv~tions in the State.Indeed,
Exhibit E does not explain the process by which these release schedules
flows were devised.We strongly recommend that the license application
contain a specific,detailed flow release schedule developed through a
quantifiable instream flow analysis pr~gram coordinated with DNR and with
state and federal fi$p and wildlife agencies.
Attached please find the entire text of the review comments from our
Division of Land and,Water Management.Please consult that text for
additional specific comments relating to navigability,thermal modeling,and
nitrogen gas supersaturation.
ACCESS
This department's comments regarding the proposed route from the Denali
Highway to the project site should not be construed as support for that
project route as the preferred means of access.This agency,along with the
other state and federal resources agencies,has consistently favored road
access to the project from the Parks Highway.However,1£the route
proposed in Exhibit E is selected,we recommend certain design
modifications.
We recommend that the principal design criteria for the proposed route be
the enhancement of scenic values and public safety.We consider the
proposed high-speed design of the road inappropriate.The long-term use of
the road aft~r dam construction will be primarily sightseeing and
recreation.The highway should,therefore,be designed to take maximum
advantage of the scenic potential of the area which traverses some of the
most dramatic in North America.
In,addition to being an,Unattractive counterPoint to the natural'landscape ,"
the high-speed road proposed '(55 miles per hour with 40 miles per hour at
difficult curves)may create serious safety problems.The long braking
distance for a vehicle traveling 55 miles per hour 'on a gravel road
endangers the stop and go driver and those who park and stand along the side
of the road to take photographs.Although a high-speed road will yield cost
savings during dam construction,it is questionable whet~er these,cost
savings outweigh the long term benefits of a scenic road.The rationale for
a high-speed access road design should be based on an explicit
quantification of the cost saved by that design.We believe the scenic and
public safety benefits foregone by a high-speed design when accumulated over
the expected life of the road are almost c;ertainly greater than the costs
saved by such a design to facilitate the brief construction phase of the
dams.
Although design standards for upgrading the Denali Highway between Cantwell
and the proposed access road were not discussed in Exhibit E the issue
merits comment because an upgrade will be necessary to accommodate
project-related traffic."The portion of the Denali Highway affected
provides exceptional views of the Alaska Range,Reindeer Hills and the
(0
Talkeetna Mountains.The Alaska National Interest Lands Conservation Act
(ANrLCA)of 1981 called for a joint state.federal and private study
of the scenic qualities of the Denali Highway.The intent was to encourage
cooperative land management of lands adjacent to the highway to protect its
important scenic values.The Denali Scenic Highway Study will be published
in early 1983.DNR encourages APA to consider carefully the recommendations
of that report and to.support a design which is consistent with the study
recommendations.
Finally.we recommend re-routing of the proposed access road where feasible
to take'advantage of the extraordinary vistas.'Presently the road transects
a large wetland in the upper Brushkana drainage.Consultants responsible
for the aesthetics portion of Exhibit E recommended that this section of the
road be re-routed to higher ground to the west.We concur and support that
recommendation.which will also protect the wetland from the impacts of road
construction and should result in lower long-term maintenance costs because
of better soil conditions.
RECREATION AND AESTHETICS
We agree with the consultants'conclusions that recreation plans be focused
on those opportunities occurring elsewhere in the project area rather than
those directly associated with the reservoirs.Because of fluctuating water
levels and steep shorelines.the reservoirs themselves will not present an
attractive recreation environment except for "occasional use by speedboats.
The greater recreation opportunities will be associated with the access road
,Jud the .many lakes •streams •and alpine hiking_areas that can be reached
from -that road.""The consultants'identification"of recreation"resources on
Cook Inlet Region.Incorporated (CIRI)land raises the question as to how
these recreation opportunities might be realized.We recommend that the
Power Authority consider some sort of leasing or concession arrangement with
crRI to facilitate public recreation use on Stephan Lake.At least one
public use site of a suitable size (40 acres or more)should be provided at
Stephan for camping.fishing.and as a staging area for those people using
the lake for float trips down the Talkeetna River.In addition.legal
access across village and regional corporation lands should be secured and a
trail constructed from the reservoir to Stephan Lake.In order to most
effectively enhance the recreational potential of the proposed projects.We
would recommend that the recreational element of Exhibit E add three sites
adjacent to the Alaska Railroad.These sites are Indian River.Gold Creek.
and Curry.Each of these sites would provide a destination point for
recreation users of the Alaska Railroad and would provide a greater
diversity of recreation opportunities.We recommend that management of the
off-site recreational facilities associated with the access road are best
met through the budgeting process of the Alaska Power Authority.If the
Division of Parks is expected to manage these sites.then we will have to
work closely with APA to identify priorities for project funding.
In summary.we feel that the consultant has done an excellent job in
identifying the recreation opportunities and resources available in the
project area and would request that the scope of the study be expanded to
look at the identified sites along the Alaska Railroad as described above.
!",r.+.F 111~··-C--'-----.-.--.---,~-.__._
.-
HISTORIC AND ARCHEOLOGICAL
The report on historic and archeological resources is well done and
addresses all the pertinent questions about mitigation.We concur with the
mitigation plan as presented in the draft document.
We concur with and support the proposed education program described on Page
E.4.114.We consider such a program to be a necessary and effective part of
any large construction project.If project personnel are adequately trained
and sites are clearly marked,avoidance should be a viable mitigative
measure in many of the indirect and potential impact cases •
TRANSMISSION LINE
,....
(0
The Access Plan Recommendation Report dated August,1982 proposes routing a
transmission line through a non-roaded area south of the proposed road
between the dam sites.The line was well sited taking advantage of terrain
and vegetation to minimize environmental and visual impacts as well as
minimizing construction costs.We support the route proposed in the August
report.We have since been informally advised that APA has decided to route
the transmission line along the road between the dam sites to allow
year-round access for maintenance (winter over-land access via all terrain
vehicle is feasible without a road).If road access is determined to be
absolutely necessary,we agree with this decision;it would be inappropriate
to have two east~est road corridors through this area.However,.
presentation by consultants at the APA sponsored workshop in Anchorage
during the week of November 29 to December 3,1982,indicated that t~ere may
be excessive concern by maintenance engineers with year-round access.The
consultants argued persuasively that maintenance by helicopters is not only
feasible,but is cheaper than road maintenance and is a common practice in
states other than Alaska.Helicopter maintenance has also proven itself in
more rugged terr8in;~nd extreme weather conditions of southeast Alaska.
The need for road access in case of bad weather is a concern,but it.is
important to clarify precisely what is gained in terms of minimizing the
risk of power outage by having road access.That gain should then be
compared with the costs.In this case the major cost is a strong negative
visual impact on the road between the dam sites.In contrast,the gain
seems to be minimal.In short,the value of year-round access is not
infinite and in this case may be significantly less than the costs.
SOCIOECONOMIC IMPACTS
l~The permanent townsite appears to have been located in an exceptionally wet
area.Apparently the major criterion for locating the townsite was land
status.A more appropriate location from the standpoint of land ~apability
and general amenities for the inhabitants of the townsite would be in the
Fog Lakes area south of the Susitna River on privately owned land.The
townsite is particularly important because.as indicated in the Exhibit E.
the tendency for workers to reside on-site depends on the quality of housing
and other amenities.Exhibit E emphasizes that a high amenity site will
minimize impacts on outlying communities by encouraging a higher percentage
of workers to live on-site.We support this objective but do not think
siting the townsite as proposed will help achieve it.We strongly suggest
finding a more suitable location for the townsite.
Exhibit E projects minimal project impacts on local facilities and
services due principally to the provision of on-site housing for workers.
The total Mat-Su Borough population increase as a result of the project is
projected as 4,700 in 1990 (peak year),1,110 of whom are expected to live
off-site in rural communities.Should that projection be accurate,the
off-site impacts would,indeed,be limited.However,the projection assumes
absolutely no in-migration by unsuccessful workers.This is a misleading
assumption.In fact,in-migration by unsuccessful job seekers will probably
be considerable.Such in-migration is a likely result of decreases in job
opportunities in the lower 48 and has occurred in Alaska during construction
of the oil pipeline.Current economic conditions would stimulate extensive
in-migration to a greater extent than is predicted in Exhibit E.
If in-migration is seriously underestimated in Exhibit E,then a wide range
of socioeconomic impacts is underestimated as well.Past experience in the
state shows that boom conditions,such as the proposed dam construction
would create,have led to rent increases,proliferation of sub-standard
housing and strain on public facilities and services.The potential impact
caused by unemployed in-migrants is particularly significant in light of
their tendency to be more of a disruptive influence on small communities
than employed in-migrants.Unemployed in-migrants,for example,tend to
require more services such as public health and family assistance of various
forms.They pay fewer taxes and may have little stake in the community,
thus caring less about relatively minor issues such as yard maintenance and
the appearance of local parks.In the small,rustic communities in the
project area,these problems could create considerable tension between
current residents and the new in-migrants.We consider the socioeconomic
impact assessment to be inadequate without an attempt to estimate the.
numbers and effects of unsuccessful job seekers arid their dependents who
will move into the region.
It would be more accurate and useful to provide a range of projected'
population increases in affected communities rather than a precise number
such as 263 in Talkeetna by 1990 or 75 in Trapper Creek.These numbers
convey a precision not supported by the methodology or the probability of
error inherent in such projections.More useful information for community
planning purposes would be a high-low range.A key consideration in
planning for public services is the population threshhold which requires new
capital expenditures.For example,if a population increase of 300 would
require a new community well in Talkeetna,the city would be better off
knowing that it fac~s a probable increase of 250 to 350,rather than knowing
that someone has dis aggregated a series of numbers to produce an estimate of
263.
Exhibit E discusses generally the need for measures to ensure that the local
unemployed get a chance at project-related jobs.Assuming there will be
considerable competition for jobs by in-migrants and that the state's
objective is to encourage local hire,it will be necessary to develop a
clearly defined and legal program to achieve that objective.The measures
recommended by Exhibit E are vague and do not reflect the significance of
this issue to the state or the borough.We suggest more attention be given
to developing a more comprehensive approach to address this issue in the
Exhibit E application to FERC.
~
I
ALTERNATIVE ENERGY
The Exhibit E devotes about four and one half pages to the geothermal energy
alternative.This information is factual and provides general ba~kground
for the reader.The Exhibit E could be improved by noting that the
Department of Natural Resources has a geothermal lease in the Mount Spurr
area planned for May,1983.The Exhibit E should acknowledge that
geothermal energy is immune to fuel price escalation as is hydropower.We
agree with the Exhibit E statement that little is known about,'the geothermal
properties.Until exploration of the geothermal properties of Mt'.,Spurr has
occurred the viability of geothermal power for the railbelt region is
unknown.We recommend that the Exhibit E be revised to include this
information.
In summary,we appreciate this opportunity to provide formal review comments
to APA on the draft Exhibit E.
Sincerely yours,
~~;J~
Es ther Wunnicke
Commissioner
Attachments
cc:Division Directors
Special Assistants
MEMORANDUM State of Alaska
DEPARTMENT OF NATURAL RESOURCES DIVISION OF LAND AND WATER MANAGEMENT
December 23,1982
3430.3
276-2653
DATE:
FILE NO:
SUBJECT:
TELEPHONE NO:~~cr-P~~
Y.R.(MOHAN)NAYUOU,Chief
Water Management Section
Su Hydro Draft Exhibit
E-FERC Li cense
Application
Paul Janke,Gary Prakosch and Mary Lu Harle of my staff have reviewed the
Draft FERC License Application,Exhibit E,dated November 15,1982,
prepared by Acres American,Inc.and provide the folowing comments.
TO:AL CARSON,Acting Director
Division Of Research And Development
FROM:
I.General -Organization
The report lacks documentation.With few exceptions.·~uch of the
textual material,tables and figures do not reference the documents
from which the material was taken,the specific page n'umbers in the
original documents,or where those original documents reside.
These references should be incorporated into Exhibit E before the
finalized license application 1s submitted to FERC.The
organization of draft Exhibit E is poor.Separation af Volumes I
and II.Chapters 2 and 3 makes review and evaluation of the Exhibit
very difficult.Issues,impacts and mitigations should be combined
in a more logical manner to allow easier evaluation ..
Many of the statements and conclusions presented in this docume~t
are unquanti fled 'and speculative.The revi ewer is conti nually"':
confronted by words such "as IImay ll,II pro bablyll and lIis expected ll
•
Statements whi ch are quanti fled should be so noted and referenced
and speculative statements and conclusions should be so noted.
Speculative statements must be quantified before effective
evaluation of the .document can be performed.As such;the document
does not present enough data and analysis to adequately evaluate
the project at the present time.
II.Major Issues
The following are major issues concerned with the draft Exhibit E.
They are not in prioritized order.
A.Flow Releases
The flow releases presented for both filling and operation of
Watana and Devil Canyon Dams have not been developed with nor
approved by the Alaska Department of Natural Resources.The
document does not,in fact,explain the process by which these
flows were developed,except to say they were selected to
satisfy power production requirements and fisheries concerns.
Other water uses,including navigation,river based recreation
and wildlife are assumed to be covered by these flows.This
may not be the case,and this conclusion should be quantified.
This department in its review comments on this project has
continually asked for a range flows and their associated
impacts.This has not been provided by this document,and
should be included.
Su-.~dro Exhibit E Page 2
--
-
Further,the impacts from the selected flow releases are
eval uated only for indivi dual parameters,such as temperature,
river morphology and ice,and are not well quantified.What is
needed is the cumulative effects from all the affected
parameters and thei r impacts on issues of concern,such as
fisheries and navigation.Only then can mitigation measures be
addressed.It ~pears from the data presented in this documeni
that the propose flow releases are inadequate.
8.Access Road
A final decision should be made now as to whether the access
road to the dam sites will be public or private.Plans for
road construction indicate the road will be built as a private
road to move personnel,supplies and equipment to the
construction sites.However,the recreation plan seems to
indicate that the access road will provide public access for
recreation to the area once the dams are operational.A
decision should be made on this issue now to obtain public
review and comment on this issue during the formal FERC review
proc~ss ..
C.Townsite
Further investigation into the townsite location should be
conducted..The present location is apparently located in a
swampy area.Additionally,the water supply is questionable.-~~?
Ground water is preferable to surface water for the water
supply source as drilled wells are of less environmental
consequence.However,·a ground water source of adequate
quantity is questionable in the present planned location •.
D.Land Status
The land status of the land involved in the damstte,access
roads and transmissions corridors should be addressed now.
Types of land acquisition such as land exchanges,permitting,
leasing and condemnation should be investigated and action
begun in order to prevent delay to the project further down the
line.
III.Specific Comments
There are many sections in this report where inadequacies are
recognized by the authors.It would be a futile effort to
reiterate all the statements made in this report that ~ay "further
work is on-going"or "documentation has not yet been made",etc.
As a reviewing agency we also recognize this and would expect that
the work will be done and the inadequacies addressed~without each
statement having to be noted in these comments.
SU-Hydro Exhibit E
A.Volume I.Chapter 2 -Water Use and Quality
Pages E-2-26 and 27;£-2-49 and 50;E-2-66 and 67:
Page :r
"Navigational difficulties between Devil Canyon and the confluence with
the Chulitna River will be increased due to shallower water and a
somewhat constricted channel.Although there will be sufficient depth in
the river to navigate it,greater care will be required to avoid
grounding M
,Since "greater care will be required".this is a project
impact and therefore needs to be discussed along with proposed mitigation
measures.This statement also differs from the following report:
Susitna KYdroelectric Project.Task 7-Environmental,Subtask 7.04-Water
Resources Analysis.A Preliminary Analysis of Potential Navigational
Problems Downstream of the Proposed Hydroelectric Dams on the Susitna
River,March 1982.The above statement does not indicate what depth is
assumed to be sufficient for navigation.The above March 1982 report
studies ice-free navigation only and assumes a depth of 2.5 feet is
required for the following reasons:(1)The cross-sectional data used
was obtained for purposes other than studying project effects on
navigation,and (2)the accuracy of the predicted water surface profiles
is,at best,approximately one foot.From an extrapolation of Figure 2
in this report.to maintain a depth of 2.5 feet at cross-section 32.
located near Sherman,a discharge of 6500 cfs is required.Thus.from
Table E 2.17.post-project navigational difficulties may Occur near
Sherman during both filling and operation during May,June.July 1-27,
September 19-30 and October.This is when the project flows are less
than 6500 cfs.This conclusion differs from the no navigational problems
statement in Exhibit E.It is believed that the March 1982 report
provides the latest information available.If a more recent report or
different criteria are used,this should be stated and discussed.
Additfonally,it is stated that lithe reach downstream of Talkeetna is
navigable under low flow condition but can be treacherous at times".
What flows are considered low flows?Are the proposed releases from the
project considered low flow when considering navigation?What flow
conditions should be considered low flows in the areas above Talkeetna
when considering the possible impacts on navigation?
The impacts on navigation,including commercial boating.recreational
boating.float planes,and winter transportation use of the Susitna River
from dam sites to Cook Inlet is inadequately addressed.The impacts need
to be quantified and mitigation measures proposed.
Pages E-2-27;E-2-50
These sections say that information on recreation and recreational water
uses are contained in Chapter 7 of Draft Exhibit E.However.Chapter 7
addresses a recreation plan for the Susitna Hydroelectric Project.It
does not address project impacts on downstream recreational uses of the
Susitna River by boats and float planes for sport fishing and hunting.
This is a major use of the Susitna River in its entirety.The impacts on
this water use should be identified and quantified and mitigation
measures proposed.
SU-Hydro Exhibit E Page 4
"""
If a more recent report or different criteria are used.this should be
stated and discussed.
Pages E-2-36
The availability of groundwater for village and camp water supply in the
location of Tsusena Creek is in question.Before construction begins on
any water supply system a permit to appropriate water and construct a dam
must first be granted by the Department of Natural Resources per AS
46.15.
Figures E-2-18 thru 2-25:
These figures do not include low or high flow frequency curves for
January -April,November and December.These curves may be useful when
looking at the minimum flow releases for these months.
Pages E-2-14, E-2-47. E-2-51.E-2-56. E-2-66,and E-2-72thru 75;
E-2-83:.
Sloughs and side channels are very important fish and wildlife habitat.
The effects on this habitat due to all phases of the project should be
well documented.Some of the basic questions not answered are as
foll ows:
Regarding ice,what will the effects on slough and side channel winter
habitat be with minimum flows of 1000 cfs during filling of the Watana
reservoi r?Taking into account the .!ncreased tel!!p.erature and associ ated
lack of ice formation ;0 th.e._t~actL~bove Talkeetna,without the normal .
~formatlOn river staging will be lower.What are the effects of the
lower stagi ng on slough upwelling and water temperature?If water
upwelling in the sloughs will be decreased,what effect will this have on
all life stages of fish which use the sloughs.
~ith the predicted flows of 10,000 cfs during operation of Watana Dam,
what effects will this have on the slough and side channels above
Talkeetna and below Talkeetna?With increased flows and water
temperature at O°c below Talkeetna,increased ice formation will cause
higher water stage than normal.What effect will these hi gher water
stages have on sloughs and side channel habitat?Will the sldugh heads
be overtopped?What effect would ice formation in the slough due to
possible overtopping have on overwintering fish,out-migration,slough
water temperatures,etc?If the sloughs below Talkeetna are overtopped
due to increased ice formation and associated higher river staging and
ice does from in the sloughs.beside the effect on overwintering fish and
possible delays in out-migration due to cooler than normal water
temperature,how will this ice and othr debris be removed from these
sloughs without the annual spring flooding?If artificial flooding by
scheduled release from the dam is tried.how will timing of flooding
Page E-3-55:
The fishery resource in some specific streams in the transmission line
corridor is discussed.Also stated is:"little is known about the other
streams that will be crossed in this segment."Is it possible that
valuable resources in other streams may be impacted by the transmission
line?It appears more·stUdy is needed here.
SU-Hydro Exhibit E Page 5
Page E-3-58:
The discussion of the Watana dam construction states the following:"The
movement of fill materials and the actual process of construction of the
fill dam are potential contributions to turbidity and siltation.1I
Acceptable levels of turbidity and siltation should be specified,and
these should be written into the construction specifications.This is
not discussed in mitigation of construction impacts,pages E-3-120 to
127.
Page E-3-73:
The statement liThe entire canyon is expected to be passable by chinook
salmon,allowing them to enter Tsusena and Fog Creeks ll is found in the
discussion of potential impacts from Talkeetna to Watana dam during
filling of the Watana reservoir.What are the impacts of dam construction
and operation on chinook salmon movement into these creeks?If there are
impacts,what are the proposed mitigation measures?This is not
discussed in the mitigation on pages E-3-128 to E-3-144.
Pages E-3-74 to 76:
In discussion of potential impacts from Talkeetna to Watana dam during
filling of the Watana reservoir,the following statements are made:
a."Many of the physical changes identified for mainstem habitats would
also,occur in side-channel habitats.Since side-channels are generally
characterized by higher streambed elevations,the forecasted changes in
streamflow may cause greater effects in side-channel habitats.11
b.I'Many side channels that normally convey water in May,June and the
first three weeks of July,would likely be dewatered under filling
flows •••11
c.IIIn other side channels,flow may be reduced to an extent that the
outmigration of salmon fry wO,uld be delayed.1I
,
d~·"Some side'':channels-'above Talkeetna would be completely dewatered
under the proposed filling flows •••"
e."Reduced flows in the spring may inhibit emergence and outmigration
in some side'-channel spawning area ••"
f.liFo recasted August and September flows under the fi 11 i ng schedule may
adversely affect spawning habitat in side-channels.1I
g.lilt is unlikely that new spawning areas would become available under
the filling flows.1I
It is understood that with reduced flow rates in sloughs and
side-channels,beaver may become more active in these areas.Thus,it is
possible that the beaver dams may block the outmigration of fry.What
are the impacts from this?Mitigation measures associated with
side-channels are not discussed on pages E-3-128 to 144.
Pages E-3-75 Through E-3-77:
The following statements are made with regard to the problems related to
flow releases during the different times of the year,"reduced flows in
spring may inhibit emergence and outmigration in some side channel
spawning area","August and September flows may adversely affect spawni ng
Su-Hydro ~xhibit ~Page 6
habitat in side-channels","16,000 to 18,000 cfs is needed at Gold Creek
to insure easy fish passage into sloughs··,and lithe stage of the mainstem
at flows of approximately 12,000 cfs did not create backwater effects at
the mouths of ~sloughs great enough to allow free passage by adult
sa1mon ll
•
The total effect of low flows on the fisheries can not be evaluated until
the total number of sloughs and side channels both below and above
Talkeetna that will be affected,and to what extent they will be
affected,'is known.What percent of the total salmon population are
using the slough or side channel habitats that are expected to be
impacted ,and at what time of the year these i mpa.cts wi 11 be most severe.
Page E-3-80 through E-3-85;E-3-95 through E-3-97
The impacts on the Cook Inlet to Talkeetna reach during both filling and
operation are extremely generalized and lack documentation.Impacts on
the mainstream,side channels,sloughs and tributaries must be
investigated and quantified.This includes impacts resulting from
changes in discharge and stage,water temperature,water quality,
sediment transport,ice and river morphology.While this reach of the
river will be impacted less than the Talkeetna to Devil Canyon reach,the
possibility remains that small project changes may result in
significant impacts.Of particular importance in this reach is the
determination of the cumulative effect of the individual impacts noted
above."Mitigation measures associated with these impacts are not
addressed in pages E-3-128 to 144.
Page E-3-129:
The list of reasons for providing suitable flows should include the
following additions:
1."~~~~t~~,~U1t sa1monacc:ess to slol'gh and side channel spajning
2.Maintain flow through the spawning gravel during the incubation
and rearing periods.
3.Maintain suitable flows to preserve slough upwelling waters.
4.Maintain flows to control proper water temperature needed in the
mainstem,sloughs and side channels.
Page E-3-133:
Regarding winter flows,'IMinima1 impacts are expected".The possible
impacts addressed on Page E-3-94 seem to be major.
The only rectification of impacts on sloughs that is presented is slough
modification.This is an untested mitigation measure in this river
system.What are the costs involved with design,testing,construction
and operation and maintenence of slough modifications.How many sloughs
will need to be modified.This sect~?n should include other alternatives
besides slough modification to recti~y impacts on sloughs.
Pages E-3-136:
On this page and elsewhere,the document predicts water temperatures in
the reservoirs and downstream of the dams.No information,however,is
given describing how these temperatures were predicted.The model used
Su-Hydro Exhibit E Page 7
should be given or referenced.along with the details describing its
verification for use on this system.The validity and hence the accuracy
of the temperatures predicted.therefore.must be questioned.
Page E-3-137:
"The impacts associated with alteration of the temperature regime during
reservoir operation can be minimized by incorporating multiple level
gates in the power intake.11 Not discussed are water quality parameters
other than temperature associated with each reservoir level.A monthly
schedule should be given that quantifies the water levels to be used and
the associated water quality parameters of the release water.Of
specific concern is the dissolved oxygen content of water released from
Devil Canyon if the intake is drawing water from the hypolimnion.
Page E-3-140:
IIGas supersaturation will be avoided by includ"ing fixed-cone valves in
the outlet facilities ••eA prototype test of Howell-Bunger valves showed
them to be effective in preventing gas superstaturation (Ecological
Analysts Inc.1982).11 Since this reference is an unpublished report,it
can not be easily obtained.The bibliography leads one to believe that
this valve was tested at one site.If this is true.it is inadequate.
Due to the potential negative impacts from nitrogen supersaturation,the
valves to be employed here should be well tested for this applicaiton.
It appears that this in not the case for these Howell-Bunger valves.
IV.Summary
In summary,this draft Exhibit E is a start at answering questions
regarding issues and resources to be affected by this project and
their impactSjand.possible mitigation.However,a great deal more
data collecti~n and analysis is needed in order to answer still
unanswered questfons before this project can be effectively
evaluated.
These comments on the Draft Exhibit E prepared by the Alaska Department
of Natuaral Resources should be included unabridged with the finalized
comments transmitted to the Alaska Power Authority.
cc:Mary lu Harle
Gary Prokosch
Paul Janke
11f.IlEPLY REnR TO:
L3031 (ARO-P)
United States Department of L_~Interior
NATIONAL PARK SERVICE
Alaska Regional Office
540 West Fifth Avenue
Anchorage,Alaska 99501
1 4 J1U~1983
.....
....
r
r,
r
Mr.Eric P.Yould~Executive Director
Alaska Power Authority
334 West Fifth Avenue
Anchorage,Alaska 99501
Dear Mr.Yould:
We have reviewed the proposed Susitna Project recreation planas presented in
the draft license application Exhibit E and have the following comments.
Cultural resource management issue comments were addressed previously in the
December 3,1982,letter from our archeologist,Dr.Floyd Sharrock.
The recreation plan .appears to be well-conceived.A diversity of recreation
resource opportunities are planned with facility development in stages which
will permit future modification where it is appropriate.The plan also reflects
excellent coordination between its authors and appropriate public agencies and
the private sector.
We support the following recommendations,many of which were shared with the·
EDAW,Inc.,representatives at the December 1,1982,workshops for recreation
and aesthetics.
1.Before construction begins,existing river conditions from upstream of
the project (perhaps the confluence of the Tyone and Susitna Rivers)to
Gold Creek should be recorded on film.A high quality motion picture
with narrative describing preconstruction resource conditions could be an
effective interpretive tool for the visitor center(s).A permanent film
record of the Devil Canyon whitewater is especially important.A film
record of the project construction process and the project in operation,
including a description of the recreation opportunities,should also be
made and perhaps combined with the preconstruction film for use at the
visitor center(s).
2.If normal operation of the Watana Dam will minimize the danger now asso-
ciated with kayaking the unregulated Devil Canyon whitewater,consideration
shou.ld be given to providing public access to the Susitna River below the
dam prior to the completion and operation of the Devil Canyon Dam.
3.Consideration should be given to providing public access from the project
transportation corridor to Portage Creek for fishing and/or kayaking.
2
4.Appropriate day use and/or overnight facilities should be considered for
Gold Creek.These facilities could accommodate:river users coming out
of the project~backpackers who enter the project area via the Devil
Canyon Dam construction right-of-waYt and other recreationists using the
Alaska Railroad who wish to layover in the Gold Creek area.
5.The status of the Stephan Lake-Prairie Creek corridor is presented on
pages E-7-83 t 84 as a lower priority resource area.The priority should
be elevated to Phase One implementation as negotiations with Cook Inlet
Region,Incorporated t and/or the village corporations could be lengthy.-
Public access to the Talkeetna River (a potential State Recreation River)
via the Stephan Lake-Prairie Creek corridor is an important issue that
needs to be resolved early so that public use may continue during project
construction.
There is an incorrect statement in paragraph 6 t page E-l-15,that should be
revised.The text incorrectly states that the Susitna River has been studied
for potential inclusion in the National Wild and Scenic Rivers System.A
study and evaluation under the authority of the Wild and Scenic Rivers Act has
never been undertaken.
Recently it came to our attention that the electrical transmission corridor
between the Watana Dam and Gold Creek will now be relocated closer to the
transportation corridor to facilitate maintenance.We trust that careful
attention will be given to the development of appropriate mitigation measures
to safeguard,as much as possible,the scenic values associated with the
corridor.
My staff looks forward to continued involvement with the project and is avail-
able to answer any questions you may have concerning the above recommendations.
Sincerely,
-\\-...~£:..I,....u~.~\\.-\-"'\.
Associate Regional Director
Planning,Recreation,and Cultural Resources
Alaska Region
cc:
Jack Wiles,Division of Parks
Al Carson t Division of Research and Development
Robert Erickson,EDAW,Inc.
Bruce Bedard,Alaska Power Authority
-
-
.DEP.\.RTMENT OF N ..<\.TURAL RESOURCES
DIVISION OF f1{)8fST,LAND AND WATER MANAGEMENT
NORTHCENTRAL DISTRICT
January 28,1983
BILL SHEFFIELD,GOVERNOR
4420 AIRPORT WA Y
FAIRBANKS,ALASKA 9970'
PHONE:479-2243
RECEIVED
Bob Mohn
Susitna Hydro Project Manager
Alaska Power Authority
334 West 5th Avenue
2nd Floor
Anchorage,Alaska 99501
Dear Mr.Mohn:
FEB 31983
l\l.ASKA POWER AUTHORITY
--
The Southcentra1 District of the Division of Land and Water Management
forwarded to this District your November 1982 Exhibit G and project maps
of the Susitna Hydro Project FERC license application.The Northcentral
District is concerned about the proposed 400'wide alignment of the
right-of-way for the stub (transmission line)from Healy to Fairbanks
and its impacts on past and present land disposal actions within the
subject alignment.
We have mapped out the land disposals that are along the proposed route
and the following text lists the status of those disposals.
1.Healy Agricultural Sale:Proposed for F.Y.1985,a soil survey has
already been ordered for this disposal.
2.Spruce Hill Large Lots:These lots will be offered during F.Y.
1985.
3.Windy Creek Remote:This area is currently open for staking and
preliminary investigation indicates that the right-of-way passes
through six leases;402154, 408803,407791, 402157,402156,and
409474.
4.Windy Hills Subdivision:This was preViously disposed of and is
classified private recreation.It appears the line passes in
proximity to sale 406226.
Bob Mohn
January 31,1983
Page 2
5.Southwind Remote:This is proposed for disposal in F.Y.1985.
6.Windy Agricultural Sale:Proposed for F.Y.1985 and a soil survey
has already been ordered.
7.Proposed area of Tanana Industrial Site.
8.Goldstream Agricultural Sale:This disposal is proposed for sale
in F.Y.1984 and a soil survey has been done.
9.Alder Creek Subdivision:The proposed right-of-way line appears to
be in close proximity to this subdivision which has already been
offered for sale.
10.Northridge Subdivision:Portions of the proposed line appear to
abut and/or cross into ASLS 81-214.All lots within this subdivision
were sold in the last lottery and placement of the line in proximity
to the subdivision would greatly effect the viewshed from the
subdivision.
The overall District concern is the impacts the proposed right-of-way
will have on land disposal actions and proper land management practices.
Particularly,we would like to know why the new transmission line couldn1t
be placed adjacent to the existing transmission lines to lesson impacts?
I am sure other questions and concerns will become evident as the project
becomes more finalized.We look forward to working with you on the
resolution of these conflicts.Please keep us informed on the progress
of your studies in these matters.
Sincerely,
.".......---~-~'.,..•..,-
Jerry L.'Bross;a
District Manager
Attachment:Map Showing Conflicts
cc:George Hollett,Acting Director
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ALASKA POWER AUTHORITY
334 WEST 5th AVENUE -ANCHORAGE,ALASKA 99501
February 8,1983
Department of Natural Resources
Division of Parks,NDe
4418 Airport Way
Fairbanks~Alaska 99707
Attn:Dave Sharski
Dear Mr.Sharski:
Re:Susitna Transmission Line Routing Effort
Phone:(907)277-7641
(907)276-0001
We appreciate your working with us to identify issues related to
the proposed routing of the Susitna Hydroelectric Project Transmission
Line near Anchorage (Fairbanks).The next step is for our consultant
routing team (Harza/Ebasco Susitna Joint Venture)to actually begin its
work of confirming the proposed route or suggesting improvements.We
will contact you once this effort is underway.
There are a variety of objectives that will be considered in
routing,including:
·Maximizing system stability.
·Minimizing construction and operation costs.
·Minimizing conflicts with land uses,communities,natural systems
and cultural resources.
·Minimizing visual impacts.
Another item to resolve will be the appropriateness of sharing
existing utility corridors.
We look forward to continuing the informal consultation recently
begun,and please do not hesitate to contact us with any questions or
comments you might have.
Sincere ly,
~JJ-'/-/prL
Robert A.Mohn
Susitna Project Manager
IN REPLY REFER TO:
L3031 (ARO-P)
.g ni ted--States-Department-oLt-he-Inter-ioI:
NATIONAL PARK SERVICE
Alaska Regional Office
540 West Fifth Avenue
Anchorage,Alaska 99501
Mr.Eric P.Yould,Executive Director
Alaska Power Authority
334 West Fifth Avenue
Anchorage,Alaska 99501
,....
iF"
I
Dear ~~r.Yould:
We have had an opportunity to review the final draft of Exhibit E ("Report on
Historic and,Archeological Resources ")of the Susitna draft license application
and offer the following supplemental comment to our letters of January 14,
1983,and October 22,1982,evaluating the final cultural resources report.
The mitigation plan proposed in Section 4 appears to us to be well conceived
and designed,and the plan for implementation realistic.However,the role of
the Advisory Council on Historic Preservation should be better developed and
clarified.Specifically the detailed mitigation plan should be developed and
approved by the State Historic Preservation Officer and representatives of all
appropriate land managing agencies in the Project area.This document would
be the basis for Advisory Council comment and,if approved by the Advisory
Council as adequate and appropriate,would constitute the core of an Advisory
Council Memorandum of Understanding.
We appreciate the opportunity to comment.If you have questions concerning
our comment,please contact Dr.Floyd W.Sharrock (907/271-4051).
Si ncerely,
--IS:'-~J.<:....'-<..\-\
Associate Regional Director
Planning,Recreation,and Cultural Resources
Alaska Region
cc:
L.Wright/ARO-P
IN REPL Y REFER TO:
\rJAES
United States Department of the Interior
FISH AND WILDLIFE SER VICE
lOll E.TUDOR RD.
ANCHORAGE,ALASKA 99503
(907)276-3800
.'4 JAN 1983
Eric P.You1d,Executive Director
Alaska Power Authority
334 West 5th Avenue
Anchorage,Alaska 99501
Dear !·1r.You1d:
The"Fish and Wildlife Service (FWS)has been requested by letter dated 15
November 1982,from Acres American,Inc.,to formally review and comment on
the Federal Energy Regulatory Commission (FERC)draft license application
Exhibit E for the Sus'itna Hydroelectric Project.This response is being
provided as partial fU'lfillment of your request and is intended to be a
constructive evaluation'.in regard to fisl1 and wildlife resources.\~e hope
that our comments will be of value in drafting the final license application.
The following FWS letters \'iere also provided in response to formal
pre-application requests on this project:
l.23 June 1980,1etter to Er ic You ld.
2.17 December 1981,letter to Eric Yould.
3.30 December 1981,1etter to Er ic You 1d.
4.5 January 1982,letter to Eric Yould.
Since these letters were formally requested as part of the FERC
pre-application coordination process we consider it appropriate that our
responses be specifically addressed as part of the Exhibit E.
The following letters were provided as informal consultation to facilitate the
Susitna Project planning process:
1.15 November 1979,letter to Eric Yould.
2.16 April 1982,testimony presented to the Alaska Power Authority
(AP A)Board.
3.17 August 1982,letter to Eric Yould.
4.5 October 1982,letter to Eric Yould.
,....
.-
..-
....
-2-
We anticipated seeing in the draft Exhibit E specific responses to the
concerns and recommendations raised in the letters ~nd testimony provided.
This is consistent with advice provided by the FERC.!I.In that this did not
occur,we recommend that the APA respond in the Exhibit E to the specific
co~nnents and recommendations which are contained in these letters and
testimony.
The response provided by this letter,our previous letters (both those
formally and informally requested),the testimony presented to the APA Board,
and the letter recently provided to you on.19 November 1982,constitute the
official position of the FWS on this project.
The principal authority of the FWS to provide comments and recommendations
rests in the Fish and Wildl ife Coordination Act (48 Stat.401,as amended;15
U.S.C.661 et seq.}g!.The Coordination Act requires that fish and wildlife
conservation be given equal consideration with other project features
throughout the Federal lead agencies'planning and decision-making processes.
The Act also requires consultation with State and Federal fish and wildlife
resource agencies to ascertain what project facilities,operations,or
measures may be considered necessary by those agencies to mitigate and
compensate for project-related losses to fish and wi ldl ife resources,as ~"ell
as to enhance those resources.The reports and recommendations of the fish
and wildlife resource agencies on the fish and wildlife aspects of such
projects must be presented to action agency decision-makers and (where
applicable)to Congress.The Coordination Act requires mare than a
consultative responsibility;it is an affirmative mandate to action agencies.
Like the National Environmental Policy Act (NEPA)(42 U.S.C.4321 et seq.),it
requires early planning and post-construction coordination and full
consideration of recommendations made by resource agencies.
Our recommendations,under the Coordination Act,must be,lias specific as is
practicable with respect to features recommended for wildlife conservation and
development,lands to be utilized or acquired for such purposes,the results
expected,and shall describe the damage to wildlife attributable to the
project and the measures proposed for mitigating or compensating for these
daralages .11
Similar language is found in NEPA's Section l02{2){B}that agencies identify
and develop methods and procedures which will insure that presently
unquantified environmental amenities and values may be given appropriate
consideration in decision-making,along with economic and technical
considerations •
11 Appendix A.FERC Application Procedures for Hydropower Licenses,
Exemptions and Preliminary Permits.A~ril 1982.
g;The Federal Power Act (16 U.S.C.791a-825r;41 Stat.1603),as amended,
as interpreted in Regulations (F.R.Vol.46,No.219,13 November
1981)specifies requirements to satisfy the Coordination Act.
-3-
Both the Coordination Act and NEPA,necessitate,commensurate with the scope
of a project:
(1)A description and quantification of the existing fish and wildlife
and their habitat within the area of project impacts;
(2)A description and quantification of anticipated project impacts on
these resources;and
(3)Specific mitigation measures necessary to avoid,minimize,or
compensate for these impacts.
We have reviewed the draft Exhibit E in consideration of these statutes.The
adequacy of the review document has been examined in respect to whether or not
the information,analysis,and mitigation plan provided would allow the FERC
to be in compliance with the requirements of these environmental mandates if
they issued a license to the applicant.
Our review has been undertaken in light of our former correspondence,
including the 16 April 1982,testimony presented to the APA Board by Deputy
Regional Director LeRoy Sowle Except for item (8)we find the testimony as
valid today as it was at that time.It is apparent that the consultation
process has failed in so far as the intent of the FERC regulations~.We
have written numerous letters on this project to assist APA in planning
measures to protect and enhance fish and wildlife resources.Responses to our
letters have been non-existent,or too late to deal with the problem of
concern (e.g.,FWS letters dated 5 October 1982,and 19 November 1982).An
illustration of what we have found to be an inadequate level of consultation
can be found in the 15 December 1982,response to our 19 November 1982,
letter.We considered our requests to be fully within the intent of the FERC
regulations±!•
Attached to this letter are our formal comments on the FERC draft license
application Exhibit E for the Susitna Project.Comments are provided on
Chapters 2,3,5,7,8,9,and 10.We have also reviewed Chapters 1,4,and
6.However,we do not at this time have any comments to offer on these
chapters.
The comments provided are organized into general comments and specific
comments for each chapter.In our attempt to be as responsive as possible
within the limited time frame APA has established for our review and comments,
we have not been able to organize our comments into a comprehensive listing of
deficiencies,clarifications,information needs,and recommendations.Many of
these comments have been left within the context of the section within which
they are raised.We feel by commenting in this way it will assist you in
consistently correcting the deficiencies identified.
~See Footnote 1,supra.
4/See Footnote 1,supra.
~.,,
-
-4-
-
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The following comments are generally applicable to several chapters and,in
some cases,are applicable to all of the chapters:
1.It is our understanding that the projections of future power needs used
in the license application are generally agreed to be high§!and are
being reevaluated for submittal to the FERC after the license application
is submitted (Acres American Deputy Project Manager John Hayden,personal
communication).The changes in the load forecasts are dramatic.Ip the
Acres American report evaluating economic tradeoffs of flow regimes~
the assumed moderate Toad forecast for the year 2010 is 7 791
gegawatt-hours (GWh).In the latest Battelle NewsletterzJ the moderate
forecast is 4,986 GWh and the low forecast is 3,844 GWh.The significant
decline in projected power demands has large implications to many of the
project assumptions which have constrained mitigation planning,for
example:available water for downstream flows;mode,timing,and routing
of construction access;and scheduling of work.The license application
should fully discuss the implications of the latest load forecasts.
2.The intent of the Coordination Act and NEPA is that environmental
resources be given equal consideration with project features.Consistent
with NEPA,as well as the APA Mitigation Policy,avoidance of adverse
impacts should have been given priority as a mitigation measure.We have
found this generally not to be the case,for example:mode,timing,and
routing of construction access;scheduling of work;type and siting of
the construction camp/Village;recreation development;instream fTow
regime;and filling schedule.Other examples can be found in our
Specific Comments.
3.Engineering and environmental stUdies do not seem to be interactive.It
appears that the findings of enviornmental studies have not been
integrated into the engineering design.This maybe due in part to the
short time frame established for project planning.An examination of the
sequencing of the studies illustrates this problem.It is our
understanding that the Aquatic Studies Program,designed to be the basis
for determination of impacts to the aquatic system and associated
mitigation measures,was established as a five year study.We are now
two years into this program.The analysis of the data to allow an
assessment of impacts and formulation of mitigation proposals may add
another year to this process.APA expects to obtain a license,and
Railbelt Electric Power Alternatives
§j
Acres Anierican.Energy Simulation Studies to Select Project Drawdo\'Jn
and Mitigation Flows.October 1982.
§!Battelle.Newsletter #4 (Final):
Study.December 1982.
""'"I
Z!See Footnote 4,supra.
-5-
begin construction in late 1984,or early 1985~.Obviously,this does
not allow for an impact analysis and mitigation planning based on these
studies prior to licensing.Mitigation planning,and an assessment of
the impacts of different mitigative options needs to be undertaken in
regard to project costs,viability,socioeconomic considerations,and
mitigation proposed for potentially competing interests.This should all
be considered through the development of the environmental impact
statement,and certainly prior to license issuance.
4.Numerous examples of lack of coordination and/or communication between
the groups responsible for the different study elements are evident.
Examples can be found by comparing discussions concerning minimum
downstream flow releases in Chapters 4 and 10 to what is found in
Chapters 2 and 3.Reservoir temperature modeling discussions in Chapter
10 are not consistent with what is stated in Chapters 2 and 3.Another
example is found in the minimal level of concern expressed in Chapter TO
for socioeconomic (Chapter 5)considerations,such as impacts of license
denial.lv'lore specific comments are included in the attached document.
Other Exhibits were not provided to us for review although we requested
them by letter dated 19 November 1982.
5.Research of background information is frequently inadequate and
incomplete.An example would be the discussions concerning subsistence
(Chapters 3 and 5).r,lore adequate research of th is very important area
appears justified.We have Tisted several readily available references
which would be of value in improving this discussion.
In Chapters 2 and 3 minimal information is brought into the discussions
concerning physical changes which have been observed at similiar
hydropower projects.We are sure that many of the potential impacts that
are discussed for Susitna (e.g.,temperature concerns)are not unique to
this project.The State1s experience with the Trans-.:M.aska Pipeline
System (TAPS)project could have been drawn upon more fully as an
example,particularly in regard to socioeconomic (Chapter 5)
discussions.Another example is the discussion concerning natural gas
and geothermal electric generation as alternatives to Susitna (Chapter
10).Very little use was made of existing information bases.
6.Speculation is not always clearly distinguished from data-based
conclusions.This problem is most apparent in Chapters 2 and 3 and
should be corrected.
7.Lack of quantification is a recurrent problem in the Exhibit.Neither
base line data nor impacts are appropriately quantified (e.g.,Chapters
2,3,5,and 10).Statements in the document let us know that,"Much of
the discussion is based on professional judgement,1I (page E-3-3),and,
IIt:lany of the statements are specu 1at ive • • •and • • •unsupported,II
(page E-3-56).Other statements 1et us know that ongoing,or planned
studies,will fill these numerous data gaps to allow a quantification of
the resources and impacts which would let us go beyond,lithe conceptual
~Alaska Power Authority.Request for Proposal No.APA-83-R-030
Construction Management Services for the Watana Phase of the Susitna
Hydroelectric Project.15 November 1982.
-
8.
-6-
mitigation plan,"(page E-3-ll6).Recognizing a problem does not,in and
of itself,correct it.We were particularily concerned with this in our
review of Chapter 3.In the Exhibit E,the existing resources should be
quantified.The potential impacts to these resources should be
q1d~ntified and then evaluated over the life of the project.Only at that
point can specific,effective mitigation measures emerge.We consider
quantification of existing resources and impacts and a specific,
effective mitigation plan essential to the development of an acceptable
environmental impact statement.
The ongoing,and planned studies,which are frequently noted
(particularly in Chapters Z and 3)should be fully identified so we can
examine them in regard to their scope.We cannot,otherwise,determine
what needs to be done and the time frame for accomplishment.Further
discussion is provided in our Chapters 2 and 3 general comments,and
throughout our specific comments sections.
-
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9.In several of the chapters (e.g.,Chapters 2,3,and 5)we are faced with
mitigation options to contend \Jith identified (although frequently
unquantified)adverse impacts.For example,in Chapter 3 there are
discussions on the potential value of spiking spring flows for salmon
out-migration and the installation of a fifth portal on the multi-level
intake structure to provide \'1armer downstream temperatures during
filling.If these mitigation proposals have validity,they should have
been incorporated into the project design and operational plan.The
docu~ent does not provide an adequate mitigation plan as required.
In addition,mitigation measures which are presented should have proven
successful in Alaska,or in a similar environment.If the proposals are
not proven,then they would need to be demonstrated effective in the
project area.Further discussion is provided in our Chapter 3 general
comments sections.
10.The need for an effective monitoring program through construction and the
operation phase is discussed in many of the chapters.However,the
program is not adequately described.We fully support the establishment
of a monitoring program.We believe the program should provide for
participation by representatives of appropriate State,Federal,and local
agencies and be financed by the project.This panel should have the
authority to recommend modification of how activities are conducted to
assure that mitigation is effective.Recommended changes in the
mitigation program should be adopted through a mechanism established in
the license,mutually acceptable to all concerned bodies.
11.Unfortunately the rush to meet the schedule for the license application
has resulted in poor quality control,i.e.,countless typographical
errors,missing lines,misreferenced tables and figures,unclear
sentences,internal inconsistencies,inadequate documentation,missing
references in bibliographies,etc.This should have been eliminated in a
thorough editing prior to release for agency pre-license application
review.Our review for biological completeness was somewhat hampered by
this problem.
ill
-7-
In the previously referenced FWS letters and testimony,many of the same
concerns discussed above and in the attached comments were raised.It is our
view that unless the issues raised in this letter are satisfactorily resolved
we do not believe the application could provide the basis of an acceptable
environmental impact statement.In this respect we consider the license
application to be deficient.
We recommend that you strengthen the license application by including
information resulting from a thorough evaluation of the biological data
collected during the 1982 field season.This would enable an assessment of
the adequacy with the data base to support a sufficiently quantified impact
analysis and,in turn,a specific,effective mitigation plan.We believe a
realistic appraisal could then be made as to when any remaining deficiencies
could be satisfied.
Attachment
cc:WAES
Yvonne Weber,WO-FWS
C.Debelius/Acres American
Quentin Edson/FERC
NMFS,EPA,NPS,USGS,BLH,ADEC,AEIDC -Anchorage
Al Carson/ADNR,Anchorage
ADF&G,Hab.Div.,Su Hydro Studies,Anchorage
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Chapter 1.GENERAL DESCRIPTION OF THE LOCALE:No comments.
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Chapter 2.WATER USE ArlO qUALITY
General Co~ents
In exa@ininy Chapter 2 we were concerned that sufficient scope and
quantifications are not provided to allo\1 a quantified impact evaluation of
the fisheries and other biolo~ical resources.The information provided should
allow for the development of specific and effective measures \/hich would fully
mitigate for all adverse impacts.We are left with the definite impression
that the project would,through changes in stream flow,water quality,
temperatures,ice conditions,vegetation,and slough habitats,have
significant effects upon the resources of concern to us,particularly the
fisheries.However,quantification of the potential i~pacts is generally
lacking,as are specific effective mitigation measures.Of course the latter
can not be accomplished prior to the former,despite the attempts found in
this chapter.
A significant portion of the lack of specificity found in Chapter 2 is due to
the fact that although two years of data have been gathered (1981 and 1982)
the Exhibit E reflects only the 1981 data.We have consistently stated that
the 1982 data be analyzed and included in the Exhibit E (see Deputy Regional
Director LeRoy Sowl l s 16 Apri 1 1982 statement to the APA Board,and our letter
dated 5 October 1982 to Eric Yould).Our position remains the same.
The chapter does not identify what studies have been completed,what studies
were ongoing in 1982,and what studies are proposed.Until this ;s provided
\'1e cannot determine ~/hat studies \'Ie \lould like to see modified,and what we
see as being missed.Without this type of information,the resource agencies
are placed in a reactive ri1ode,i.e.we can only cOliDllent on Hhat should have
been examined in completed studies.However,in so doing,\le can better
facilitate the applicant1s efforts to plan a project we can support.An
example of a proposed study which is not addressed in this chapter is the
Arctic Environmental Information and Data Center (AEIDC)study.The following
;s a summary of this proposed study:
The AEIDC proposal is designed to (1)accurately and comprehensively
predict system-wide streamflow and temperature effects of the dam(s),and
(2)interpret effects of such changes in terms of aquatic habitats and
fish populations.To accomplish these general objectives,AEIDC proposes
using a linked system of simulation models which requires data from other
project studies,available literature sources,and professional judgement.
The study is a result of the need to consider the special aquatic habitat
relationships in the Susitna River basin and the need to account for the
interrelated effects of ice,sediment,streamflow,and temperature changes
which will accompany construction,filling,and operation of the selected
dam or dams.
Most assessments of hydroelectric projects are based upon impacts
associated with changes in mean monthly streamflo\/s and temperatures.
HO\/ever,the actual iiilpacts of the project lJay not be caused by the mean
events but through changes in the natural pattern of streamflow or
temperature variation.Further,a single set of mean ~onthly flo\/s does
not actually reflect instantaneous flows in the river;the actual
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predicted mean monthly discharge will probaply not occur during a given
d6nth because of expected anomalies in hydrologic statistics:Therefore,
it is necessary to predict the range of mean monthly flovs expected,based
on reservoir inflow,power generation requirements,and downstream demands.
The AEIDC model system would depend heavily upon a reservoir operation
model to generate an exhaustive range of feasible weekly or monthly flow
regi~es and the expected variation over a 30 year forecast period.
The model syster.l would include provisions for ice and sediment modeling to
account for changes in substrate distribution,bed elevation or channel
configuration which might result from project operation.At a minimum,
ice and substrate modeling would support the assumptions that hydraulic
boundary conditions either remain stable or change \~ithin predictable
liQits with project operation.
The array of predicted weekly or monthly flows and temperatures may be
biologically interpreted in several ways.The available habitat data base
is heav'ily \Jeighted at this time toward kno\m chum and sockeye salmon
spawning areas in sloughs and side channels in the Susitna River bet\Jeen
Talkeetna and Devil Canyon.Access and spawning dynamics with respect to
mainstem discharge are the major simulation goals of several ongoing field
studies.The AEIDC modeling system could provide a time-series approach
to deterQine effects upon critical life history stages of these species.
It is possible that the entire riverine life cycle of chum salmon might be
simulated under various flow regimes to predict long-term population
trends.A similar analysis of sockeye salmon might be possible.
The primary concept,again,is first to credibly and corllprehensively
predict all project operations and their effect upon the habitat-related
physical parameters \dthin the system;secondly,those effects will be
interpreted,through long-term forecasting,in terms of their influences
upon affected salmon populations.
We support the proposed AEIDC study.It should provide the basis for
determining project instream flow impacts and a reasonable assessment of
mitigative alternatives.
It is apparent that the proposed instream flml releases are designed for
maximum power production and do not reflect biological needs.The 12,000
cubic feet per second (cfs)figure for August reflects the maximum amount of
water that can be discharge without significant economic effects.It is our
understanding that the project releases would be 10,000 to 12,000 cfs year
round.No consideration was given to the potential impact of the project
during winter when flows of this magnitude might prove highly detri~ental to
the fishery.The potential value of spiking flo\/S during the spring to
facilitate smolt out-migration and flush the sloughs of ice and debris is
discussed.However,these flows are not reflected in the proposed releases.
We consider it very important that the license application contain a specific,
detailed flow release schedule,which is designed to mitigate project impacts,
protect or enhance conditions for fish spawning,feeding,unrestricted fish
passaye,out-migration,and provide overwintering habitat for fish in the
Susitna River.This schedule should be developed through a quantified
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instrea~flow analysis which has been coordinated with the FWS,National
r'larine Fisheries Service,and the Alaska Departr.1ent of Fish and Gar.le (ADF&G).
In response to the APA request of 2 September 1982,the ~S,by letter dated 5
October 1982,provided input specific to the draft Exhibit E.We had expected
our cOr.lr.lents to be addressed in the draft Exhibit E.This is in cOr.lpliance
with the FERC recomr.lendation that inforr.lation included at the initiation of
forr.lal consultation,1I •••responds to the preliminary cOr.m1ents and
recor.u;lendations of the agencies.lI~Since this was not done,our 5 October
1982 letter should be made part of our forQal response on the draft Exhibit
E.As such,the points raised in that letter should be specifically addressed
in the Exhibit E submitted as part of the license application.tlany of the
points raised would be r.1ost appropriately responded to in Chapter 2.
Avoidance of adverse impacts should,in COQpl iance with the APA f1itigation
Policy document,and NEPA guidelines,be given top priority in the license
application.In particular,our concerns as to the decisions which led to
such project features as the carllp/vi 11 age,transmi ss ion 1ine routing,
construction access routing,turbine configuration,filling regiQe,flow
regime,etc.,with regard to avoidance of ir.lpacts should be addressed.
Specific Comments
2 -BASELINE DESCRIPTIONS
2.3 -Susitna River Water Quality
(a)Physical Parameters
(i)Water Temperature
-Mainstem:Paragraphs 1 and 2:Those months vhich are being referred to by
winter and SUr.1r.1er snould be indicated.
-Sloughs:paragraph 1:The first step in understanding the temperature
relationship between the mainstem and the sloughs is to measure the tempera-
tures of both sites.This has been done.The relationship between the
r.1ainstern and the sloughs regarding temperatures (as well as other water
quality parar.leters)then r.1ust be established.This process,apparently,is
just beginning.To this end,one slough (#9)has been examined.This exami-
nation has focused,correctly,on the groundwater relationship.According to
Tony Burgess (Acres American),in his Susitna Hydro Exhibit E IJorkshop presen-
tation (12/1/82)on groundwater upwelling and water ter.lperature in sloughs.
the yroundwater regime can be modeled,but locally the match is not very
good:The groundwater temperatures near the surface do not match the predic-
ted temperatures.Continued study is obviously indicated for slough #9.
After an understandiny is achieved for that slough,the program would need to
be expanded to other sloughs,possibly slouyhs SA,11,19,20 and 21.These
sloughs have been r.1ore intensively examined than other sloughs in this reach
of the Susitna River.iJe recommend that this general pro~ram be undertaken.
2!FERC Application Procedures for Hydropower Licenses,Exemptions and
Preliminary Permits.April 1982.
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-Tributaries:Paragraph 4:The difference in temperatures of the Chulitna
and Talkeetna Rivers should be referenced at least by ~onth.It would appear
that the cooler temperatures displayed by these rivers ~JOuTd be useful in an
assess~ent of post-project temperatures effects at the confluence and further
dO\-mstre~.Ue recof.lr.lend th is be exa~ined.
liiUc!
-Freeze-u~:paraaraph 3:The i~pact of this process should be fully
explained 1n regar to river r.1orphology and maintenance of the present
riparian zone.
-Winter Ice Conditions:paragrahh 2:Please refer to our comments on Section
2.3 (a}(i)-Sloughs.The S10U9 s should be identified by number,and
percentage to which the statements apply.
(iii)Suspended Sediments:The percent contribution,by season,from the
~ajor suspended sediment sources should be indicated.An analysis of the
anticipated changes,by season,due to the project operation should be made.
(ix)pH:The pH range,from 6.6 to 8~1,is broad and should continue to be
~onitored.The potential exists for a lethal pH shock to occur to aquatic
life with a change of 1.0 pH.A change of this r.1agnitude ~ight be possible
from a reservoir ~Jater release.A pH below 6.6 Iilay be harmful to fish
depending on the amount of free carbon dioxide present in excess of 100 parts
per ~illion.Egg hatchability and growth of alevins could be adversely
effected at a pH range between 6.5 and 6.0.The need for a predictive ~,ater
quality model is apparent given the toxic heavy metals that occur in the
drainage.We recommend that one be utilized.
(d)Other Parameters
(iii)Others:The railroad right-of-way that parallels the Susitna River has
been sprayed with various herbicides for vegetation control for a period of
years.Herbicides used include amitrole,2-40,bromicil,and Garlon (tordon).
Strealils of prililary concern are Chase,Indian,Lane,and Gold Creeks.A spill
of Garlon occurred in Lane Creek in 1977.Sloughs located along the railroad
right-of-way could also be recipients of sOlile of the herbicide spray.No fish
and/or \Jildlife tissues have been analyzed for food chain herbicide impacts in
the area.Due to the type of herbicide used,we are certain that detectable
amounts will occur over a long period of ti~e.Please incorporate this
information into your discussion •
2.4 -Baseline Ground Uater Conditions
Cd}H It should be noted that the
s aug s provlde va ua e rearlng a ltat oranadromous and resident fish.
Additional comments concerning the groundwater connection and current studies
are prOVided under Section 2.3 (a)(i)-Sloughs.
2.5 -Existing lakes,Reservoirs,and Streams
(a)lakes and Reservoirs:parasraph 1:Project features include transmission
lines,access roaas,transrniss10n line maintenance roads,railroad staging
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areas,etc.and should be exar.tined within the context 'of this section.The
proposed Recreation Plan would lead to the encourager.tent of impacts to
nu~erous lakes throughout the upper Susitna basin.Secondary i@pacts
resulting from the project would expand impacts to additional syste~s.
2.6 -Existing Instream Flow Uses
(b)Fishery Resources:Reference should be made to burbot and Dolly Varden as
important resident species.
(9)Freshwater Recruitment to Estuaries:Paragraph 2:It should be noted that
salt water intrusion and mixing "QuId be relate:d to tidal action.
2.7 -Access Plan
(a)F10~/s:?aragraeh 2:The use of regression equations in calculations of
peak and low flows 111 1ieu of actual discharge data should not be a substitute
for the co11ection of data,when sizing culverts for engineering integrity or
fish passage.Washouts due to undersized culverts resulted on the north slope
haul road and,more recently,at the Terror Lake Hydro construction site.
2.8 -Transmission Corridor:Base line information on the transmission
corrldor from the dam sites to the Intertie has been acknowledged as lacking
within the Exhibit.As with other project features,the Exhibit E should
provide base line data,ir.tpact assessment,and mitigative planning.We
recor.Jrilend that th is be done for th is project feature.For further comments
please refer to our letter dated 5 January 1982 on the Transmission Corridor
Report.~e provided this letter as formal pre-license consultation and
continue to view it as SUCh.
3 -PROJECT HlPACT ON ~£iTER QUALITY ArlO QUANTITY
3.2 -Watana Development:Reference is ~ade to Exhibit A.By letter dated 19
Novel,lber 1982 we requested a complete copy of all the Exhibits.This
infor~ation has not be received.
(a)Uatana Construction
(i)Flows:paragraph 1:The significance of the loss of the one mile reach
due to construction would more appropriately be assessed in Chapter 3,under
Fishery Resources.
(ii)Effects on Water Quality
-Suseended Sediments/Turbidity/Vertical Illumination:parafiraph 2:
Anticlpated suspended sedlment and turbidity levels shoulde co~pared,by
month,to the ambient conditions.This would allow an evaluation and
understanding of potential project impacts.The amount of spoil which wou1d
be generated and the extent to which grading and \/ashing of material would be
needed is not addressed.This has obvious i~plications in regard to \/ater
quality and spoil disposal.We do not at this time have sufficent data or
maps ~/ith wh ich to provide specific input.lie vlOuld recof.lmend to the extent
possible,borrow material be obtained from within the future impoundment area.
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It is stated that,"downstrear.J,turbidity and suspended sedir.Jent levels should
rer.Jain essentially the safole as baseline conditions.1I This \>Jould not appear to
be the case during the \/inter,when the ambient conditions are crystal-clear.
-Contafolination by Petroleum Products:Spillage of petroleum products into
the local graylingstrearol y/ouldhave significant impacts on this fishery.An
oil spill contingency plan should be presented in the mitigation plan which is
in cOfolpliance with State and Federal regulations.
-Concrete Contamination:The types of potential problel'i1s associated with
this activity should be identified and a pollution control contingency plan
should be developed as a component of the proposed r.Jitigation plans.Such a
plan r.Just be in compliance \/ith State and Federal regulations.The Uastewater
Treatment section (page E-2-37)is a much more appropriate level of analysis.
(iv)Ir.J act on Lakes and Streal'i1s in 1m oundr.Jent Area:Discussions regarding
orrowan SpOl materla s are extrer.le y genera.The potential sites,
quantity of material to be removed,or deposited,extent of cleaning that
\"ould be necessary,and biological description of the sites to be disturbed,
should an be described.flitigative analysis should address suoh issues as
timing constraints on various operations and measures required to reestablish
pre-project conditions for those sites which would not be permanently lost.
(v)Instream Flow Uses:Anticipated impacts for flows yreater than the one in
50-year event should be described.
-Fisheries:para~raph 2:The desirability of avoidiny this fishery loss by
gating the diverslon tunnel should be discussed.
(vi)Facilities:General input is provided in our cownents on Chapters 5 and
10.·The decisions regarding the type,administration,and siting of the
construction cafolp/village \/ere made \/ithout input from resource agencies.In
addition,the timing constraints placed upon the construction of this project
are no longer supported by economic studies ••(Chapter 10.General
Comments).The Exhibit should be revised to reflect updated forecasts.
Reference is made to Exhibit F.Although we have requested this Exhibit,it
has not been provided.
-Uater Supply:It should be noted whether or not the features described in
this section were coordinated with the Alaska Department of Environmental
Conservation.
(b)Iopoundr.Jent of Yatana Reservoir
(i)Reservoir Filling Criteria
-~linimum Do\/nstream Taryet Flows:Paragraph 1:The factors that went into
this fishery vs econor.Jics tradeoff analysis for determining the appropriate
downstream flows should be discussed in detail.At the Susitna Hydro Exhibit
E Uorkshop (conducted on 29 November throu~h 2 December)it ../as indicated that
the analysis consisted of determining at what sumfoler flows econol'i1ic benefits
drop off.Given that the econolilic analysis upon which this is based is
generally considered out-of-date (Battelle Newsletter #4,Railbelt Electric
Power Alternatives Study),confidence in this analysis frolil an econot'lic
perspective f.lUSt be 10 ../.From a fishery perspective,it is unacceptable.
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Paragraph 2:Once we have an acceptable instrea~flow regi@e,several gauging
stations wl11 be necessary to assure proper flows.It should be recognized
that at least eight sloughs are located above Gold Creek and that several of
these currently support fish.Flows to ~aintain or,if possible,enhance the
productivity of these sloughs should be provided.
parafiraph 4:The out-~igration of sal~on in the spring is as likely related
to p ota-period and develop~ent as the other factors listed.Very low flows
in the spring could cause @any of the juveniles to re~ain trapped in back\/ater
pools that are norQally flooded under pre-project conditions.
Paragraph 6:The proposed flows of 12,000 cfs have not been de~onstrated to
~aintain the integrity of slough ~orphology and provide the flushing flows
needed to clean fines out of gravel.Also,the potential problem of beavers
coloniziny many of the sloughs,not being naturally controlled by flooding,
and therefore interferiny with fish usage of the sloughs should be addressed.
COQpeting interests of aquatic and terrestrial project co~ponents such as
sal~on ~beaver conflicts have been given ~ini~al attention in the Exhibit.
Paragraph 7:Adequate instrea~flows for the winter period should be
established according to fish require~ents.This is a critical period for
fish and even ~inor dewatering ~ay have significant deleterious effects.
(ii)Reservoir Filling Schedule and I~!act on Flows:Once an acceptable
fnstrealil flo\'J study has allo\~ed an eva uation of various flo\~regimes,an
acceptable filling regime for the project which would IJini~;ze ;~pacts to
aquatic resources can be developed.The proposed filling regiQe has been
established upon an inadequate biological information base.
(iii)River f.1orphology:Paragraph 3:The potential negative impacts on slough
areas downstream of Talkeetna due to decreasing the recurrence intervals of
what are now mean annual bank-full floods are not addressed.
elV)Effects on Ilater Quality
-Water Temperature:The timing and consequences of the filling regi~e on
downstream temperatures should be better defined.Just as modeling needs to
define operational the~al changes,the thermal processes should be modeled
for the filling period.From this we ~ay be able to consider mitigative
measures.
-Suspended Sediments/Turbidity/Vertical Illu~ination
•Watana Reservoir:Paragraph 3:Discussion should be provided on the impact
of water quality changes on the photosynthetic process downstrealil of the
reservoir.
Paragraph 4:It is stated that,".••the river will be clearer than under
natural conditions."This ~ay be true during the su~mer,however,it is our
understanding that this will not be the case during the winter •
•Watana to Talkeetna:We believe the increase in winter turbidity ~ight be
more important in terms of potential fishery i~pacts.Quantification of
potentia 1 changes shou 1d be provided.The methodo 1o~y by vJh ich the sumer
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turbidity levels Here established and Hhy it is not applicable to predicting
Hinter conditions needs to be explained.
·Talkeetna to Cook Inlet:Antic"ipated changes during the \dnter should be
discussed.
iY.LEffects on Ground\Jater Cond it ions
-I~pacts on Sloughs:Paragra~:The potential impacts on slough habitats
are not clearly described.tne-aiscussion provides the i~pression that there
is a greater understanding of the groundwater relationship between the sloughs
and mainste~than is ~iarranted by studies to date.Please refer to our
cOlaMents under Sect i on 2.3 (a)(i)-Slough s.
Paragraph 4:It is indicated that reduced staging would result from the
decreased winter flows.The potential impact should be addressed in regard to
the potential to dewater spawninyand rearing habitats.
Paragraph 5:Although the temperature relationship of the mainstem and
sloughs does not appear to be well understood,discussion should be included
on this potential impact,particularly during the second year of filling when
the differences from pre-project conditions are greatest.
(vii)Effects on Instream Flo\'J Uses:Please refer to our comments on Section
2.3(a}(i)-Sloughs,and 3.2(b)(v)-Impact on Sloughs.The statements of no
temperature effects are not supported by data or citation.The reduction of
flows through these sloughs is not quantitatively defined.The loss of
scouring flows to clean fines,remove beaver dams,and clear ice could result
in siynificant loss or degradation of slough habitat for fish.
(c)Watana Operation
-t··linimuTiI Downstream Tartet Flows:The criteria are not provided ~Jhich Ted to
the development of the"arget"flows.Apparently,no consideration is
provided concerning maximum flows,which may be a more important consideration
during winter than establishing a minimum flow level.
•t,10nthly Ener'Sililulations:Paragraph 1:The potential impacts of the
water year 69 extreme rought should be fully addressed.The effect of this
naturally occuring event should be described in regard to ~Jatana operations,
how downstream flo\Js would be maintained and how it would effect the
biological resources.For example,we suspect that higher downstrealils flows
would be necessary to allow entrance to sloughs during this period.
•Daily Operation:In that the Devil Canyon development @ay not come on-line
for many years,if ever,consideration should be given to operations without
the Devil Canyon dam.A greater level of conc~rn and discussion should be
forthcoming on avoidance of potential impacts to the sloughs above Gold Creek.
-Floods
•Spring Floods:Para~raph 2:In that spring floods are part of the
pre-project regime,dlScussion should be prOVided as to the importance of this
pheno~enon and whether or not post-project simulated spring floods should be
included in the post-project flow regi~e.
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(in River llorphology:Parayraph 2:The discussion on ice process should be
expanded.
Paragraph 3:The discussion leads to a view that eventual loss of the slough
habitats is inevitable.The flow regi@e proposed does not counteract this
potential proble~.Avoidance of this impact through flow ~odifications is
consistent with the APA tlitigation Policy document and NEPA.It illustrates a
low level of biological consideration in the formulation of the proposed
instream flow regime.
(iii)Water Quality
-Water Temperature
.Reservoir and Outlet Water Tern erature:1982 data from Eklutna
Lake,\Jhic \Jatana eserVOlr lS expecte tOmlnllc,was presented at the
Susitna Hydro Exhibit E ~orkshop.During the winter,Eklutna Lake showed
temperatures ranging from 00 to 3.6 0 C in the upper 2 meters,dropping to
isother~al conditions below this depth.If Watana Reservoir exhibits a
similar shallow winter stratification it would appear that Watana could not be
operated to,II •••take advantage of the temperature stratification \,rith in the
reservior.1f
Paragraphs 5 through I:Given that the temperature l'iIodel has only been run
for five months and has only one year of data for that period (1981)this
discussion must be considered speculative.It is our understanding that input
for this model is lacking because previous data was tailored to an earlier
temperature ~odel which is no longer considered applicable to this project.
It would seem premature to place Iiluch faith in the ne\~model based on the
minimal level of testing to date.We recommend that data from two full years
be inputted to the model and the results be provided in the Exhibit E.
Paragraph 8:This sugyests that ~~inter outflow temperatures between 10 and
40C can be selectively \dthdrawn through a multi-level intake structure.
This would be dependent upon the thermal profile of the reservoir during the
winter,a period which has so far not been modeled.The statement suggesting
that one degree water temperatures can be selectively obtained is
speculative.It is also in conflict with the information provided at the
Susitna Hydro Exhibit E \Jorkshop where Eklutna Lake was presented as a Iilodel
for Watana Reservoir.Eklutna Lake showed winter temperatures between 00
and 3.6 0 C within the upper two l'iIeters of the surface.If Watana Reservoir
shows a similar winter stratification one should not expect to be able to tap
temperatures other than 40 C with the proposed multi-level intake structure.
It would have been appropriate to reference the Eklutna study findings here as
is done on page £-2-61 .
.Sloug~~'ater Temperatures:paragraph 1:Please refer to our cO~Jents on
Section 2.3{a)(i)-Sloughs.
::-Ice:Paragraph 1:It should be clarified as to \Jhat would be the ililpact of
the reduced contribution frolil the upper Susitna River.Estimations of
post-project ice staging should be compared to pre-project conditions and the
methodology by which the predictions were made should be explained,and/or
referenced.
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para gra 7h 2:HO~i ice is lost to the system,post-project,would dralilatically
changero~pre-project conditions.The i~pact of this ~ajor change in this
riverine system should be thoroughly explored,not merely noted.
-Turbidity:Paragraph 1:Please provide an explanation as to ~ihy,"Turbidity
in the top 100 feet of the reservoir is of primary interest."
-Nitrogen surersaturation:Discussion should be provided specific to the
fixed-cone va ves.It is stated that the valves would discharge spills up to
a one in 50 year event,but we have no indication of the anticipated extent of
their use.Withdrawing water from the hypolimnion they would often be
counterproductive to what is intended to be achieved through use of the
lilulti-level intake.The potential for thermal shock in fishes,or shock due
to rapid shifts in other water quality parameters,should be evaluated.Rapid
water level changes would also be an obvious result of their use,particularly
between the dam face and the powerhouse.
3.3 Devil Canyon Development
(a)Watana Operation/Devil Canyon Construction:paraaraph 1:
Exhibit A has not been provided,although we requeste it.
The referenced
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lii)Water Quality
-Concrete Contar.1fnation:Please refer to our COlillilents on Section 3.2(a)(ii)
-Concrete Contar.Jination.
(vi)Facilities:Decisions regarding the Devil Canyon support facilities were
r.Jade without input from resource agencies.
-Construction,a eration and t·1aintenance:The,".appropriate
preventatlVe tec nlques ••.11 S ou e described,and incorporated into the
mitigation plan.
(b)Watana Operation/Devil Canyon Impoundment
(iii)Effects on Water Quality
-~Jater Temperature:The ability to continue to selectively remove very
narrow temperatures bands would depend upon numerous unknowns;assuming the
ability exists with operation of IJatana alone.Removal of such a sizeable
quantity of \Jater in so short a period of tir.le certainly would have
ir.lplications for one1s ability to select temperature bands during certain
times of the year.It should be stated that the tel7lperature r.Jodel upon which
this all rests only has input fro~five Iilonths of one year.
-Support Facilities:Please refer to our comments on Section 3.3 (a)(vi)-
Construction,Operation and Maintenance.
,'!"""(vi)Instream Flow Uses:It is our understanding that significant losses to
the existing fisheries i~ould result.The basis for the statement that,II.
additional fishery habitat will becorae available •.•11 with Devil Canyon
Reservoir should be explained in detail.
(cl Uatana/Devil Canyon Operation
(i)F1 ows
~-project Operation:It is indicated in the Feasibility Report Vol.1,page
13-32,that cO/j']pensation flow pur.tps would be installed.An explanation as to
the function af these devices,their purpose,the flo\is \/hich they Hould
provide,whether or not they are to be installed in one da/j']or both,how water
froQ this source would effect the Hater quality paraQeters of the water
released from the powerhouse,and the basis for the flows which would be
provided fror.t this source should be provided.We would also like to see an
explanation of the fixed-cone values regarding their expected periodicity of
use (at least by Qonth)and impacts on water quality parar.teters and flow
levels.
(ii)Effects on Vater Quality
-\Jater Temperatures:Since Devil Canyon Reservoir has not yet been r.todeled,
the rationale for this discussion should be presented.The therr.tal Qodels for
IJatana and Devi1 Canyon should provide information on the follOWing:
(1)The te/j']perature profile,depth to isother~al conditions,and ti/j']ing
of Iilixing;
(2)The timing of winter stratification;
(3)The extent of turbulence that would be generated at the reservoir
intake;and
(4)The capability of the intake structure to select fro/j']one temperature
layer in a stratified reservoir.
This should be included in the Exhibit E.
-Ice:Please refer to our co~ents on Section 3.2{c)(iii)-Ice.
Inforr.lation should be provided on the extent of scour in the sloughs under
winter and spring break-up conditions.Discussion should address where the
ice front would develop under "worst case"conditions for post-project Watana
and ~Jatana/Devi1 Canyon operations.Fluctuating high po~,er demand in a record
cold year and a record warm year should be discussed.Scenarios which would
produce over-topping of river ice and ~ultiple break-ups which may scour the
river channel should be described.
-tlitroyen Supersaturation:Please refer to our co~aents under Section
3.3{c)(i)-Project Operation.
-Facilities:Erosion control weasures should be described and incorporated
into the Qitiyation plan.
3.4 Access P1an Impacts:paragraph 2:Reference is ~ade to Exhibit A.By
letter dated 19 Nove~ber 1982 ~Je requeste~a co~plete copy of the license
application.We have not yet received this Exhibit.
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,.,..
.-
"".
-
(a)Flovs:Accurate discharge information on the creeks is needed to insure
proper culvert sizing for fish passage.Utilization of culverts rather than
bridges could result in ~ore blockages to grayling migration due to beaver
activity.
3.5 Transmission Corridor Impacts:Please refer to our letter dated 5 January
1982 regarding the Transmission Corridor Report.
5 -t4ITIGATION,ENHANCE~1ENT,AND PROTECTIVE ~1EASURES
5.1 Introduction:paragraah 2:It is stated that,II •••mitigative
measures,1I were incorporate,II •••in the preconstruction planning,design,
and scheduliny,1I yet we see construction camps/villages which were planned
with no outside coordination with resource agencies,or even consideration of
alternatives.The transmission corridor from the \Jatana dam was also planned
with essentially no resource agencies input.We see scheduling,(based on an
out-of-date economic analysis),determining access routing,timing of
construction activities,and reservoir filling with no input from resource
agencies.This has precluded an objective examination of alternative
mitigation measures.
r.1inimum flo\'ls are proposed with the il;Jpression that they were arrived at
through an as yet undisclosed fisheries vs.economic tradeoff.In the draft
Exhibit E we have an evaluation of economically determined flow releases,the
basis for which are no longer accepted by the economists that developed them
(Battelle Newsletter #4 (Final),Railbelt Electric Power Alternatives Study,
December 1982),competing against flow releases.The 12,000 cfs flow release
is apparently the maximum discharge for August without significant economic
effects.
We suspect that the flexibility for providing instream flows,once this issue
has been resolved,is highly dependent upon the hydraulic turbines which are
selected for the project.We recommend that a tradeoff analysis be presented
to display the relationship of different hydraulic turbine configurations with
both a one dam and two dam configuration related to maximizing flow release
options vs more flexible turbine systeQ alternatives.If the proposed
turbines-,in either dam,~lould adversely effect future instrear.l flow options
then the decision as to the preferred turbine configuration should be deferred
until a specific,detailed flow release schedule,developed through a
quantified instrearn flow analysis,is ayreed upon which \iould mitigate impacts
or enhance conditions for spawning,feeding,passage,out-migration,and
overwintering in the Susitna River.
The proposed multi-level intake structure would provide the flexibility to
select a desirable temperature regime only if the temperature bands exists in
the reservoir of sufficient size and of sufficient depth.It has not been
established that the multi-level intake would provide sufficient temperature
control.At present,Watana Reservoir has been thermally modeled for five
months of one year.It is our understanding that this is insufficient to even
test the model for the five months for which it was run.Devil Canyon
Reservoir has not been modeled,yet the recent incorporation of a multi-level
intake here leads one to believe the applicant expects this reservoir might
stratify.~Je recor;lmend that model ing be carried out for both reservoirs,
throughout the year,and the resultant data be incorporated into a river
-13-
ter;Iperature lilode1.This should be based upon two years of data (e.g.1981 and
1982)and presented in the license application.
Reference is ~ade to the incorporation of fixed-cone values to prevent
nitrogen supersaturation.The frequency,periodicity,and anticipated voluQe
of use is not addressed.Since they \JOuld be drawing upon 'iJater very 10\_in
the da~and then dumping an unknown volume of this water into an essentially
dry riverbed we would expect potential adverse i@pacts to the ~itigation flow
and tegperature regi~es.The potential effects upon icing conditions and,
depending upon the time of year,sal~on movements needs to be assessed.We
reco~end that these potential impacts be discussed in the Exhibit E.
Paragraph 3:The importance of monitoring construction practices,operation
and maintenance and monitoring of mitigation is recognized in the APA
Mitigation Policy document.How this will occur needs to be examined in the
Exhibit Eo \.e recommend that a panel of appropriate State,Federal,and local
agency personnel be established,at project expense to monitor project
construction,operation and maintenance.The monitoring panel,~andate,and
operational mechanisms should be discussed in the license application.
5.2 -Construction:Please refer to our co~ents above,Section 5.1:
Paragraphs 2 and 3.
Paragraph 2:Please refer to our discussion of instream flO\JS under Sections
5.1:Paragraph 2,3.2(b)(i)-Minimum Downstream Target Flows,and 3.2(c)
-r1inimu~Downstream Tar~et Flows.Additional pertinent com~ents can be found
throughout.The statements contained in Section 5.3 can only be considered
speculative,to date there are no studies to support them.Only one slough,
identified as #9,has received detailed study.In the November 1982 draft
report provided at the Susitna Hydro Exhibit E Workshop,Prelir.linary
Assessment of Access by Spawning Sal~on to Side Slouyh Habitat above
Talkeetna,the author noted that until the 1982 field data are analyzed,any
statements regarding streamflows necessary for chum salmon access to the side
sloughs are provisional.It should also be recognized that the examination of
slough access flows is not only without support,but one dimensional.No
analysis is put forth to examine other life phases of fish,or project related
changes in \Jater qual ity pararjleters.
Paragraph 5:'Changes in downstream river morphology have not been fully
assessed.It is premature to conclude that no mitigation would be necessary.
The lack of ice scour and flood flows may cause sloughs to silt in and may
reduce natural cleaning processes necessary to maintain productive spawning
substrate and rearing areas.
Paragraph 6:It would seem appropriate to exa~ine,in the Exhibit E,methods
of mitigating the potential thermal effects anticipated during the filling
period,to include extending the filling period.
5.4 -r1itigation of ~Jatana Operation If.1pacts
(a)Flows:para~raph 2:Please refer to our comments under Section 5.1:
Paragraph 2 andectl0n 5.3:Paragraph 2.
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.....
Paragraph 3:It is stated that,"Watana,when it is operating alone,will be
operated pri~arily as a base load plant."Please discuss the extent to which
it is intended to be operated as a peaking facility.Of particular concern
would be how it ~ight operate under worst case conditions,such as fluctuating
high power deQand during a record cold year.The i~plications of scenarios
like this should be explored in the Exhibit E if \Jatana is being proposed for
periodic peaking use.
(b)TeQperature and D.O.:Please refer to our co~ents addressing the
~ulti-level intake structure and reservoir temperature modeling in Sections
5.1:pararraph 2,and 3.3(b)(iii)-Water Temperature.lie have provided
add it iona corillilents on these subjects throughout.
our discussion of the
flitrogen Supersaturation and
,.,..
5.6 Mitigation of Devil Canyon/Watana Operation
(b)Te~perature:Discussion should be provided as to why @ulti-level intake
ports are proposed at Devil Canyon.It would appear that it has been
concluded,without benefit of a thermal reservoir lilodel,that Devil Canyon
\'/OU 1d strat ify.
-15-
Chapter 3.FISH,iJILDLIFE.Arm BOTANICAL RESOURCES
General Comments
Fishery Resources of the Susitna River Drainage
Periodically in the Fishery Section are disclaimers such as,"Much of the
discussion is based on professional judgement,"(Section 1.2,page E-3-3),or
"r1any of the stater.lents are speculative •••and •••unsupported,"(Section 2.3,
page E-3-56).Other statements let us know that ongoing.or planned studies,
will fill these numerous data gaps to allow a quantification of the resources
and ir.lpacts (Sections 2.2(b)(i;),2.4(b){i;).2.5,2.5(c)(i;),etc.)and let
us go beyond,"the conceptual mitigation plan,"(Section 2.5,page £-3-116)
which is provided in this chapter.Recognizing a proble~does not,in and of
itself,correct it.\Je are concerned that the Fishery Section generally fails
to quantify the existing resources,fails to quantify the potential ir.lpacts,
and fails to provide specific mitigation measures to deal with identified,
quantified,adverse impacts.Once we have potential mitigation measures,
these proposals would need to be evaluated,for exar.lple,in regard to
potential impacts on:project costs,design,and feasibility;socioeconomic
considerations;and fish and wildlife resources other than those for which the
mitigation is targeted.This type of evaluation would form the basis of an
acceptable environmental impact statement and should be provided as part of
the license application.
The ongoing and planned studies ~Jhich are frequently cited (Sections
2.2(b)(ii),2.4,2.4(b)(ii),2.5,2.5(c)(ii),etc.)should be fully identified
so we can examine them in regard to their scope.We cannot,otherwise,
determine what needs to be done and what is being done (with assurances that
it will be done).
Potential impacts are frequently identified in the Fishery Section,such as
loss of the apparently important high spring flows for out-migrations (Section
2.3(a)(ii)),and 4QC flows during the second surn~er of Watana Reservoir
filling (Section 2.3(a)(ii)).Potential mitigation to contend with these
antic'ipated adverse impacts are suggested,such as spiking spring flows
(Section 2.4(b)(ii})and installing a fifth portal on the multi-level intake
structure (Section 2.4(b)(ii)[SIC,iiiJ}.If these r,litigation proposals have
validity,then they should be incorporated into the design and operations
proposa 1.
~litigation measures which are proposed should have proven success in Alaska,
or in a similar environ~ent.If the proposals are not proven,then they would
need to be demonstrated effective in the project area.For example,hatchery
propagation of grayling may need to be demonstrated as an effective
alternative since grayling hatcheries have not been particularly successful in
Alaska.Likewise,the proposed slough ~odifications are unproven and thus
should also be de~onstrated in the Susitna systeQ before project operation.
tJe support the establishment of a monitoring progra~funded by the project,
containins a board of representatives from appropriate State,Federal,and
local agencies.The board should have the authority to recor.lmend project
Qodification measures to assure that ~itigation is effective.The procedure
-16-
,..,.
by which this would occur should be incorporated into the license as an
article.This type of monitoriny progra~should be discussed in the
witigation plan.
Botanical Resources
At the recent Susitna Hydro Exhibit E Workshop,29 November to 2 December,we
were pleased to learn of the recent efforts to coordinate botanical and
\iild 1ife data needs.Vegetat ion types \dth in the project area are apparent ly
now being subcategorized and remapped on the basis of more recent,
larger-scale photography and additional field \iork.Analyzing the value of
vegetation as part of wildlife habitat,an information need we have
consistently cited (e.g.FWS letter to Eric Yould,APA,5 October 1982),will
better allow quantification of project impacts and the development of
mitigative measures.However,these efforts render the current Botanical
Resources Section at least partially obsolete.
Because there is no explanation of ongoing studies,the reader is left with
the perception that vegetation studies have been completed.~'e recommend that
descriptions of the following be provided in the Exhibit E:(1)current
remapping efforts for both overall vegetation and wetlands;(2)plans for
SUr.1T,ler 1983 ground truthing of this data;(3)1984 field \Iork \ihich may be
necessary for verifying wetlands;(4)proposed productivity studies relative
to project moose studies (see Section 4.2(a)(i),page E-3-204,paragraph 2 and
Section 4.3(a)(i),page E-3-281,paragraph 3);and (5)schedules for
cOr.1pleting these investigations and analyses in conjunction with overall
mitigation and project planning.Such information is provided,to some
extent,relative to the Aquatic Studies Program,Section 2.5.
In general,the description of vegetation types and potential project impacts
is thorough.Still,a major problem with this section involves incomplete
coverage of wetlands.Minor problems involve the need for some additional
maps and tables,and conflicting citations of figures and tables (e.g.
referring to Figure Wl and Table W3 as Figure E.3.Wl and Table E.3.~J3 in the
text)•
Wildl ife
We found the Wildlife Section both too general and incomplete.Judgr.1ental
stateraents are rarely referenced (e.g.page E-3-376,last paragraph)
qualitative tertas are seldom defined (e.g.page £-3-315,last paragraph;page
E-3-310).Perhaps most critical is the minimal detail and coverage of the
mitigation plan.
Lack of quantification is a serious problem throughout this section.~Jhile
baseline populations are occasionally estimated,impacts are typically
~-qualified only as major or r.1inor,and no values are provided for those
mitigation ~asures which are recommended.
Ue are highly concerned \/ith the lack of attention to habitat values,although
\/e have repeatedly Cited the need for project evaluations to consider habitat
values as \/ell as populations (please refer to F\JS letters to Eric Yould,5
October 1982,5 January 1982,23 June 1980,and 15 November 1979;and
testir,lony of LeRoy Sowl,FWS,before the APA Board,16 April 1982).We
-17-
a~preciate the initial efforts to evaluate habitats for furbearers and birds,
and the reported plans to wadel carrying capacity for moose.Yet we see no
evidence of how such evaluations \iill be continued,expanded to other species,
and most i~portantly,used in developing timely,comprehensive mitigation
liIeasures,\Jhich are an integral part of project plans.
Where population inforlilation is provided,it is for the current situation.No
accounting is given for long-term habitat potentials,fQr example,(1)
habitats may be able to support greater populations over the long-term (e.g.
pine r.Jarten near ~Jatana Creek);(2)habitat values TililY decline as,through
succession,vegetation proceeds to more mature stages which are less
productive for moose;or (3)harvest management.goals may be modified and
caribou populations allowed to increase to where available habitats are more
completely stocked.
We recommend providing information on continuing studies (including habitat
modeling)and how data gaps identified here,in previous agency comments,and
the August 1982 Adaptive Environmental Assessment (AEA)Workshop will be
ans\iered.Our Specific COr.JTilents below,further address this need.Another
major problem is that the Wildlife Section is not integrated,nor is it
consistent relative to impact potentials and mitigation options with other
sections in Chapter 3 or with other chapters in the Exhibit E.For example,
in Chapter 3 the impacts discussions are based on no access along the
transmission corridor;in Chapter 5,such access is assumed (Section
3.7(c)(i),page E-5-84).
flot only do \ie recor.1r.1end that this probler.l be corrected,but that evidence be
provided as to this section has been inteyrated into project designs and
scheduling.That integration is I;lOSt critical \'Jith regard to the Iilitigation
plan.Information should be prOVided on the mechanism for notifying project
enyineers of key wildlife areas and at the same time for the engineers to
notify the environr.1ental consultants and resource agencies of design changes
or mitigation r.Jeasures they believe are unfeasible.Additional information
should be provided on the process to be followed for finalizing and then
implementing mitigation requirements.
Integration of the various report sections would be aided through an overview
discussion of overall project objectives for wildlife,fisheries,vegetation,
recreation,land use,and socioeconomics.
Presently we find apparent objectives of the Wildlife Section often contrary
to recreation or socioeconomics;within the \Jildlife Section,objectives for
one species may conflict with those for another species.
Because of the voluminous nature and co~plexity of ~aterial involved,it is
difficult to assess population status,habitat values,impacts,and ~itigation
for each species relative to all other species.This is particularly
important where mitigation for one species may be at the expense of another,
as above.Thus we suggest some type of SUr.1mary chart which would show,by
species:(l)populations;(2)habitat types and values;(3)status (i.e.
increasing/decreasing,upper/lower basin,etc.);(4)values (com~ercial,
recreational,and/or subsistence with monetary figures where possible);(5)
past and present harvest effort,success,and management restrictions;(6)
ilJpacts;and (7)~iti9ation alternatives.Please refer to our suggestions
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r
j
under Section 3.4 for evaluating mitigation alternatives as prioritized under
NEPA guidelines.The schedule for filling resultant data gaps could then be
outlined;additional ~itigation needs or tradeoffs in benefits/impacts Hould
also be obvious.
We recolilr.lend quantifying the level of mitigation to be achieved by different
measures.This is particularly important where management policies are
unclear (e.g.housing and transportation of workers,harvest regulations,and
prohibitions on use of the access road pre-and post-construction will
determine the ~agnitude of project impacts).
Fina lly,VJe are concerned that although the fragmentation of project impacts
by project feature allo\~s for a iilore comprehensible analysis,the report lacks
a broad overview.Cumulative it:1pacts are generally ignored.We recomr.lend
that such iupacts be compiled in conjunction with a list of unavoidable
adverse i~pacts.
Lack of key data has made it essentially impossible to ~ore than outline the
types of measures which should be included in the mitigation plan.In many
cases,no evidence is provided for the proven success of reco~"ended iileasures
in Alaska or similar enviromaents.For such unproven measures,demonstration
projects should now be established or back-up mitigation measures outlined for
ir.lpler.lentation if unproven measures fail (e.g.blasting to enlarge the Jay
Creek mineral lick,provision of artificial raptor nests).
The TllOnitoring prograr.l \ie recom~ended under the Fishery Section should also be
extended to wildlife resources in the project area.
Specific Comments
1 -INTRODUCTION
1.2_-Impact Assessments:paragra*h 1:Please refer to our Fishery Section -
General Co~ents regarding quanti ication and the status of the project
studies.
Paragraph 4:Several of these references do not appear in the bibliography.
1.3 -~1itigation Plans:paragra~h 8:Avoidance of adverse impacts rarely
appears to occur,particularly 1n regard to project features.For example,
missed opportunities to avoid adverse fish and wildlife resources iiilpacts
exist in:project scheduling;iilode and routing of construction access;
recreation planning;siting,administration,and type of construction
cali1p/village;and instream flow regime.
The rllonitoring program,which has been supported in several chapters,should
be fleshed out.The program should provide for participation by appropriate
representatives of State,Federal,and local agencies,be supported by the
project,and be able to reco~mend changes in the iilitigation prograr.lto be
adopted through a mechan i sm estab 1i shed in the license,r,lutua lly acceptab 1e to
all concerned bodies.
-19-
2 -FI SHERY RESOURCES OF THE SUSITNA RIVER ORAl NAGE
2.1 -Overview of the Resources
Jd)?election of Project Evaluation Species:paragra~h 4:IQproving habitat
conditions for an evaluation species would be helpfu to other species with
sir.lilar habitat requisites.HmJever,He ~Jould expect other species,with
habitat requireQents that conflict Hith evaluation species,to be adversely
affected.In addition,we recomt~end Dolly Varden and burbot be included as
evalution species for the Susitna River downstreaQ of Devil Canyon.
Paragraph 5:It is stated that,i1IQproved conditions in the li1ainstem are
expected to provide replacement habitat •••Juvenile overwintering habitats are
not expected to be adversely affected.II We are unaware of specific data to
support these statements.
Paragraph 8:Evaluation species and life stages should be listed for the Cook
Inlet to Talkeetna reach.
(e)Contr-ibution to COl11li1ercial,Sport,and Subsistence Fishery
(i)Co~ercial:Species specific co~parisons are made of cO~~Jercia1 harvest
to escapeli1ent.Perhaps a better gauge would be to provide estimated
contribution to the comli1ercial harvest,as is assessed in Chapter 5 (page
E-5-70),or esti~ated contribution to the run.This,however,also would
simp1 ify the systems contribution,but would at least provide revie\.ers \dth a
better understanding of production.
(iil Sport Fishing:Paragraph 2:If li10re recent surveys are available,this
section should incorporate them.
JjiJl Subsistence Harvest:The follo\.ing three ADF&G reports would allow for
a more expansive discussion of this important topic:
1.Foster,Dan.November 1982.The Utilization of King Salmon and the
Annual Round of Resource Uses in Tyonek,Alaska.ADF&G.55 pp.+
appendices.
2.Stanek,Ronald,Jariles Fall and Dan Faster.f·1arch 1982.Subsistence
Shellfish Use in Three Cook Inlet Villages,1981:A Preliminary
Report.ADF&G.17 pp.+appendices.
3.~Jebster,Keith.Apr i1 1982.A SUr.Jlilary Report on the Tyonek
Subsistence Salmon Fishery,1981.Upper Cook Inlet Data Report
Number 81-3.ADF&G.16 pp.+appendices.
2.2 -Species Biology and Habitat Utilizaton in the Susitna River Drainage
(al Species Biology
(iiil Resident Species
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_'"'"l
2.3
our
,~(a)
"'""
-Arctic Grayling:Parayraph 8:The state~ent that,"Assu~ing other
conditions for Spa\mlng are favorable,•••"should be expanded to al1o\'i an
understanding of what these other conditions are and why we should assu~e they
would be favorable.
(b)Habitat Utilization
(ii)Talkeetna to Devil Canyon
-Hainste~and Side Channels:References are ~ade to 10\1 flow and ~aximum
f1ow.---rhe flo\is should be quantified so that an understanding of potential
project i~pacts and ~itigative flows can be related to how it would influence
habitat .
.Species Occurrence and Relative Abundance:The baseline infor~ation and
analysis should incorporate the 1982 fleld season data.
:-S]~ugh Habitat:ParagraQhs 2 and 3:The effects of various flo\i levels
should be referenced by the number of sloughs which would be impacted by the
particular problem and the relative importance of the effected sloughs in
terms of salmon habitat.
p!ragraph 4:The basis for the intragravel te~perature statements should be
provided,whether conjecture or based upon a study of X number of sloughs.
~Sjgnificance of Habitat
••Sal~on:Paragraph 2:The relative value of tributary sites (mouths?)vs
iloughs ~ay be a reflection of ease of study,or effort.--
Please refer to
Anticipated Impacts to Aguatic Habitat Associated with IJatana Dam
11)Construction of Watana Dam and Related Facilities
-~Ja tana Dam
~Ch~nyes in Water Quality:Although turbidity levels may be decreased,on the
average,throughout the year,a more appropriate impact evaluation would be to
examine turbidity levels by season or month ~aquatic life stage.
Paragraph 11:Exa~ples of 11 •••good engineering practices,and a thorough SPCC
plan,"should be provided in the mitigation plan.The abbreviation of the
plan should be spelled out •
.Direct Construction Activities:Paragraph 1:Material sources should
general1y be confined,unless unavoidable,to that area which \'iould be
inundated by the i~poundment,or upland sites.In that the Devil Canyon da~
is not~certainty,rehabilitation of Cheechako Creek should be planned.
-21-
Joyce,Rundquist,and lloulton (1980)is referenced several tir.les.\Je request
that this reference be provided,and the pertinent discussions fro~this paper
be incorporated into this section •
.::'-'y~tana Carolps,Vinage and Airstrips
••Indirect Construction Activities:We expect secondary impacts,avoidable
and unavoidable,to be fi1uch greater than that indi~ated by this discussion.He
provided co~ents on this topic in response to appropriate Chapter 5 sections,
where this topic is also inadequately discussed.
ili)Filling Watana Reservoir
-Watana Reservoir Inundation
~t1ainsteQ Habitats:Paragraph 4:Although overwintering habitat would be
increased,the overall ;r,lpact \/Ou1d probably be a net loss of habitat value.
The discussion does not identify \/hat species might benefit fro~this increase
in overwintering habitat.
f.ar~9raph 5:The basis for the statelilent,"Reservoir tefilperatures in the top
100 ft are expected to be in the range of 10 to 20 C,"should be provided.
First,the reservoir te~perature ~odel has not been run for the period
Novefi1ber through May.Second,the state~ent is in apparent conflict with the
inforfilation provided at the Susitna Hydro Exhibit E Workshop in \,hich Ek1utna
Lake was presented as a model for Watana Reservoir.Ek1utna Lake shows winter
ter.lperatures bet'vJeen 00 and 3.6 0 C within the upper tHO li1eters.
-Talkeetna to Watana Dam
.Mainstelil Habitats:Paragraph 1:In that the river would no longer be clear,
the effect of this Change in turbidity upon ~ovement of juvenile salmon and
resident fish should be addressed.
par~graph 4:The apparent i~portance of the receding limb of high spring
flows to sti~ulate out-migration is noted yet \/e see no effort to simulate
this in the recommended instream flow regime.
Paragraph 9:It is recognized that the outflow tefilperatures during the second
open-\/ater season could have substantial adverse ifilpacts.This prob1e~in
relationship to how it was handled at other hydropower projects should be
discussed •
.Side-Channel Habitats:paragra~h 3:Until an adequate instrear;l flow study is
conducted,these stateli1ents wll refilain speculative.
Par.!graph 4:It should be stated Hhether or not rearing habitat is considered
1irili ted.
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.~
j~,
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paraGraph 5:The decreased ter.lperatures expected would probably counteract
any enefits derived through decreased suspended sediments •
.Slough Habitats:The potential impacts during filling should be discussed.
Flows and temperatures would be changed from ambient.Until the ground water
relationship,in regard to flo\-is and temperatures,is adequately established
the potential for impacts should not be dismissed.\Jhether or not the colder
second year releases \Iould have a delayed temperature effect upon the sloughs
should be examined.
Par~yr~~:It should be explained that the basis for these stat~ents is
preliminary results from an examination of one slough (#9).
faragraphs 4 and 5:The slough which had a back\Jater form above 14,000cfs
should be identified.It is not explained whether this is typical of all
sloughs,some sloughs,or even just that one unidentified slough.It is
apparent from this section that 12,000cfs would hamper or restrict passage of
adults into an undisclosed proportions of the sloughs and would not create a
backwater effect for an unkno\1n proportion of the sloughs.The biological
basis by which 12,000cfs Has chosen as the preferred flow for August should be
explained in light of the discussion of this section •
•Tributary Habitats:Paragraph 4:It is noted that some creeks may become
perched under the proposed filling schedule.The desirability and feasibility
of altering the filling schedule to avoid this impact should be discussed.
-Cook Inlet to Talkeetna Reach:It has not been clearly established that the
project would not adversely impact fisheries below Talkeetna during reservoir
filling and project operation •
•Mainstern Habitats:It is our understanding that millions of eulachon spawn
in the 10\-ier river.If this spa~ming run is stimulated by certain
temperatures or peaking spring flows the project could significantly impact
this species.Secondary impacts would occur to those species,such as bald
eagle and belukha whale,which feed on them.This potential problem should be
discussed.
~~l~ugh Habitats:Paragra~:This discussion is in apparent conflict with
Section 2.2(b)(iii)Sloug~itat -Significance of Habitat .•Salmon (page
E-3-51)where it is stated that these habitats may be used for spawning •
••Tributary Habitats:Paragraphs 2 and 3:A 10 percent reduction in flo'tls
could mean a zero reduction in habitats of concern or 100 percent reduction or
something in between.~Je recornr.Jend that these flow reduction percentages be
related to their effect on habitats of importance to life stages of those
species of concern.
(iii)Operation of Watana Dam
-Talkeetna to Watana Dam
.f·lainstem Habitats:Discussion should be provided specific to the fixed-cone
values.There is no indication of the anticipated extent of their use.In
that they would be withdrawing \'later from the hypol imnion they ~Iould often be
-23-
counterproductive to what is intended to be achieved through use of the
multi-level intake.The potential for thermal shock,or shock due to rapid
changes in other water quality paraQeters,should be evaluated.Rapid water
level changes would also be a potential proble~that should be explained.
Para~raph 8:Discussion appears to be in conflict with Paragraph 16 of this
sectl0n concerning suspended sediment transport.
para¥raEh 9:Sediment load and turbidity are not synon~~ous.Turbidity
shou d lncrease sUbstantially over ambient winter levels.
Paragra~h 16:The observation that fish apparently overwinter in the turbid
Kenai Rlver allows one to conclude that,over a long period of time,these
(unidentified)species can adapt to turbid conditions.The conclusion that
the Susitna stocks can,in one year,adapt to Kenai River like conditions is a
big step.Please more fully discuss this potential problem.
-Cook Inlet to Talkeetna Reach:Please refer to our COlilI'i1ents under Section
2:'3-(a)(ii)-Cook Inlet to Talkeetna Reach.
(b)Anticipated Impacts to Aquatic Habitat Associated with Devil Canyon
li)Construction of Devil CanyonDam and Related Facilities
-Devil Canyon Darn
-Alteration of Waterbodies:Paragraph 3:Please refer to our comments on
Section 2.3(a)(i)-Watana Dam.Dlrect Construction Activities •
.Disturbance of Fish PopUlations:Please refer to our comments on Section
~3Ta)(i)-Watana Da~•Direct Construction Activities.
-_D~~il Canyon Ca~p and Village
_.C~_nstruction and Operation of Camp and Village:ParagraB!l.l:Reference is
made to Exhibit A,which we requested.It has not been provided.We have not
had input into the decisions regarding the type,administration,or siting of
the construction camp/villaue.Avoidance of impacts to fish and wildlife
resources should have been a major consideration in these decisions.In that
we did not participate in these decisions and no alternatives to those which
are considered "preferred"are examined in Chapter 10 we can only conclude
that little,or no,consideration \/as given to this ~itigation procedure .
.Direct Construction Activity:Please refer to our cow~ents under Section
2.3(a)(;)-Watana Camps,Village and Airstrip.Construction and Operation of
Camps,Vill age and Airstrips •.Indirect Construction Activities.
(iii)Operation of Devil Canyon Dam
-Talkeetna to Devil Canyon Dam
~Mainstern Habitats:Paragraph 1:We assume that the SOOcfs flows in this reach
\Jould be provided by compensation flow pumps,discussion of which does not
appear to be provided in this Exhibit.An explanation should be provided as
-24-
--------~~~~~~~~~~~~~~~~~~~-
to the function of these devices,their purpose,and how water from this
source ~,ould effect water quality paralileters of the water released frolil the
powerhouse and the fixed-cone values,and the basis for the flows ~,hich would
be provided from this source.Please provide the rationale for the stater.Jent
that a reduction in flows of the magnitude which would occur would not be
expected to adversely affect fish populations in this portion of the river •
•Slough Habitats:An explanation should be provided for the statement that
changes in strear.rflow during the open-water season are not expected to affect
slough habitats.~Je consider the potential for significant adverse effects to
this habitat type to be high.
-Cook Inlet to Talkeetna:Small changes in flows can have dramatic impacts
on habitat.The relationship between flows and impacts on habitat must be
established before one can dismiss small changes in flows.We expect the
AEIDC instream flow study will sufficiently define this relationship..
(c)Ir.Jpacts Associated with Access Roads and Auxi liary Roads
1:0_Construction
-Construction of Watana Access Road and Auxiliary Roads:Once an acceptable
access routing is agreed upon,studies would need to evaluate the existing
resources.Only at that point can specific mitigative lileasures be
satisfactorily addressed,based upon quantified ir.Jpacts.We recor.lmend that
you procede in this manner •
•Alteration of ~Jater Bodies:The potential problelil of beavers damming
culverts and thus interfering with fish passage needs to be addressed.
-Construction of Devil Canyon Access Road and Auxiliary Roads:Paragraph 1:
We assume that APA has decided on a preferred access p1an-to Devil Canyon-
consistin~of road or rail access,or both.Whatever it is should be stated.
Paragraph 3:Although ~,e have previously expressed our preference for rail
access in lieu of road access,proper siting of rail is highly important to
minimizing impacts,primarily through avoidance.Coordination specific to
this issue should occur when siting decisions are being made.
(ii)Operation and l-1aintenance of Roads
-Operation of Watana Access Road and Auxiliary Roads
.Disturbance to Fish Populations:Paragraph 3:In that II the increased
accessibility of fish streams and lakes to fisherr.1en •••11 would possibly be
1I •••the greatest source of adverse impacts •••11 it would appear to be
consistent with the APA Hitigation Policy document and NEPA to give emphasis
to mitigation through avoidance of these impacts.
(d)Transmission Line Impacts
ii)Construction of Trans@ission Line
-25-
-\Jatana Dam:Paragraph 1:Base line information on the transmission corridor
from the dam sites to the Intertie has been ackno\iledged as lacking ~iithin the
Exhibit.As \·dth other project features,the Exhibit E should provide base
1ine data,ililpact assessr.lent,and r.titigation planning.Avoidance of adverse
ililpacts would occur by a combined construction access/transmission line access
corridor north of the Susitna River bebJeen the t".,o dam sites.This is our
preference.For further comments please refer to our letter dated 5 January
1982 on the Transmission Corridor Report.This letter was provided as formal
pre-license consultation and \le continue to view it as such.
(ii)Operation of the Transmission Line
-Watana Dam
.Alteration Qf Waterbodies:Please refer to our cor.~ents under Section
~.31d)(;t -Watana Dam •
.DistUFoance to Fish Populations:Please refer to our comments under Chapter
5,Section 3 .7(c)(i):.ACluatic Species.Ir.Jpac!s-9f.the Project
~-Nitigation Issues and Proposed f.1itigatiny Heasures
Fish and A uatic Habitats:Please----Genera Comments.
1i)_Stream Crossings and Encroachments
:.Mitigation:Please refer to our cOlilments under Section 2.3(c)(i)-
Construction of Watana Access Road and Auxiliary Roads.Alteration of Water
Bodies •
.l1ethods of Installation:Paragraph 3:Certain construction practices should
be scheduled to occur during the winter to minimize and/or avoid adverse
impacts.
1-ii)Increased Fishing Pressure
-Impact Issue:If the construction access and transmission line bet\Jeen the
two darn sites were in the same corridor the impact could be partially reduced
or avoided.Please refer to our letter dated 5 January 1982 on the
Transmisson Corridor Report for additional comr~ents.
liv)Material Removal
-t1itlgation:Please refer to our comments under Section 2.3(a)(i).Direct
Construction Activities:Paragraph 1.
Paragraph 3:Mining should be scheduled to avoid conflicts with fish
migrations,spawning,or other important occurrences.
Para~raph 6:Please refer to our comwents under Fishery Section -General
C9mments reyarding monitoring.
-26-
'''''''
(vi i5 )Sus itna River Diversions
-~titj~ation:Grating of the diversion tunnel would prevent losses to fish
and should be considered as a mitigative measure.
J~)Clearing the Impoundment Area
~_Mitigation:If it would ~inimize these impacts,then clearing should occur
during the winter.
(~)J·titigation of Filling and Operation Impacts
Jj)_A.QE.roach to r·1itigation:Although,IIAvoiding ir.1pacts through design
features or scheduling activities to avoid loss of resources,'1 is listed as
top priority,in reality it has not received this type of emphasis.
(ii)Hitigation of Downstream Impacts Associated_with Flow Regi~le:Under
General Co~ments for Chapter 2 we have ~rovided a synopsis of the AEIDC
instrearn flow proposal 'flhich has been contracted by MJA.~Je believe that this
proposal ~/ouldprovide the basis for a reasonable,quantified instrearn flow
impacts analysis which would allow an assessment of mitigative alternatives.
Since APA has contracted this study,'tIe assume that APA agrees with our view.
The AEIDC proposal should be fully described in either Chapter 2 or 3.It
seems pre@ature to discuss mitigative flows prior to quantification of
potential i~pacts.
-Ililpact Issue:Paragraph 1:Reference is made to Exh ibit A.Although we
have requested this,as well as other Exhibits,it has not been forthcoming.
=-Measures to Minimize Ililpacts:Please refer to our comments under Sections
2.3(a)(ii)-Talkeeta to Watana Dar.1 .Slough Habitats:Paragraphs 4 and 5 and
2.3 (a)(ii)-Talkeetna to ~Jatana Dam.Hainstern Habitat:Pa!,a~U.It is
apparent that the flow release schedule neither minililizes loss of downstrea~
habitat nor maintains norlilal timing of flow-related biological stimuli •
•Winter Flow Re ime (November - A rill:P~ra.9.!:!PLJ:Please refer to our
cOlillilents un er ectlon 2.3 a 11 -Cook-l.!!.1et_t.Q.Talkeetna Reach·.Tributary
Habit~ts:Paragraphs 2 and 3.
Paragra~:We also feel strongly both ways.
_.~u~mer Flow Regime (July -October):Paragraph 3:Discussion should be
provided regarding the instream flow studies which lead to the conclusion that
l2,OOOcfs is of sufficient magnitude to allow rectification of project impacts.
-Rectification of Impact
.Winter Flows:~Je strongly disagree ..lith the conclusion reached in this
section.How this conclusion can be derived from the inforr.1ation provided in
this chapter and Chapter 2 needs to be fully explained •
.Su~er FlOriS:We fully agree that the proposal must be der.l0nstrated
effective before it can be incorporated into a mitigation plan.
-27-
-Reduction of I~Dacts Over Ti~e:Please refer to our comr.lents under Section
2.4(a)(lv)-Miti~atlon:Paragraph 6.
-Co~pensation for I~pacts:para~ra~h 2:Please provide docuQentation on the
success of this alternative in A as a,or si~ilar environs.Several ideas are
discussed in this section ~Jhich should be considered for der.lonstration
projects during the 1983 field season.
Para~raph 9:Discussion of the development of a hatchery should be expanded.
If other mitiyation alternatives prove not to be feasible then we will need to
fully understand what could be achieved through hatcheries.
(ii)Mitigation of Downstream Impacts Associated with Altered Water
Temperature Regime
-tleasures to t·)in imize Impacts
.Water Temperatures during Filling Watana Reservoir:If the addition of a
fifth portal would,based upon therQal modeling of the reservoir,provide
additional temperature control during filling,then \Je recommend that this be
added •
•Water Tern eratures Durin a eration of h 3:Please"";'r';';'e....e.;...r~t....;.o..;.;.;;.ouj;,.r.;;..;.-c.;...o;.;;mt1;.;..."';;'e";'nt.,....;s;;..;.;;u....;n~e-r..;.S!:O-e.;...c......t.;..;1,..;0...;;,n.;.;,2,....;;.,.3.-..,..;.~..;,-,;.~..;..;.,.;:,..;...;,.-:-;.-.;...,,......;.-.;.~T-I;..,I,-n..;;..u nda t ion •
tla instem Habitats:Paragraph 5.
-Measures to Rectify Impacts:Documentation should be provided on the
success on this type of proposal in Alaska,or other sub-arctic systems.
De~onstration of the techniques would need to occur prior to incorporation
into the mitigation plan.In that the sloughs are also utilized for rearing
by chinook and coho juveniles,discussion should be provided on hO\>I churn
salmon (we have assu~ed that churn is the species which is being managed for
although it is not stated)would interact with the other species.Also,the
~echanisms which ~ight allo\>I entrance to chinook and coho salmon into the
sloughs while holding the churns from egressing needs to be explained.
-Compensation for I~pacts:Documentation should be provided on the success
of hatchery propagation of grayling.
(ii)Operation Mitigation
In that other
toward resolving potential
agreed upon,"best"uses for
-Hitigation for Downstream Impacts:paragrarh 2:~Je fully support the
statelilent that,"Cont inuing reservoir therma model ing wi 11 a 11 ow an
evaluation of available water temperatures throughout the year so that a
detailed release plan can be developed.The release plan will need to
consider both water temperature and volume in order to ~inili1ize impacts."We
reco~mend that this be carried out and the proposed release plan be included
in the license application.
-28-
.,...
2.5 -Aquatic Studies Program:Please refer to our comments under Fishery
Section -General Co~~"ents.
2.6 -Honitorin';#Studies:Please refer to our COri1Talents under Section 1.3:
Paragraph 8•
-29-
3 -BOTANICAL RESOURCES
3.1 -Introduction
(a)Regional Botanical Setting:A ~ore cOQplete description should be
provided for vegetatlon north of the Susitna River to the Denali Highway,
through which the proposed access road is to pass.The primary importance of
botanical resources as a key component of wildlife habitat should be restated
here as the object of this report (see Section 1.2,page E-3-3,paragraph 1).
(b)Floristics
(i)General:Paragraph 1:We suggest that the difference in numbers of plant
species bet\leen the upper and lower basins are a result of the following:
larger study area;greater time spent in sampling the upper basin,and the
numerous vegetation communities associated with elevation changes and
topographical diversity.
Paragraph 3:Please explain the quantification of plant species for the
Wil10w-to-Cook Inlet and Healy-to-Fairbanks transmission corridors,when no
floristics work was done in that area.(Section 3.2(e)(i)and (ii)and Tables
W24 and ~J25).
(c)Threatened or Endangered Species:Since no plant species are official1y
listed,we suygest addltion of the word "candidate"prior to any discussion of
"threatened or endangered"plant species.In many pla~es the discussion would
be more accurate by referring to "plant taxa"rather than species since these
plants are generally varieties or subspecies rather than distinct species.
Please clarify that the calciphilic plants referred to in paragraph 4 of
subsection (i)refer to 11urray's,not HiS,categories for threatened or
endangered.
(d)Contribution to ~Jildlife,Recreation,Subsistence,and Commerce:Because
of their key functions both as habitat for fish and wildlife resources and in
maintaining water quality relative to drainage,high water energy dissipation,
flood storage,ground water recharge,filtering surface runoff,etc.,\Jetlands
and floodplains have been protected by Executive Orders (11990,11998)and
national legislation (e.g.Clean Water Act as amended in 1977).Since
vegetation is a characteristic component of any wetlands,we suggest addition
of a general section here on the prevalence of wetlands in the project area
and their widely recognized biological and water quality values (please also
see our following co~ents on Section 3.2(a)(vi),Wetlands.
(iii)Subsistence:Use of area timber resources for building or heating homes
is an additional subsistence use ~ihich should be r.1entioned.
3.2 -Baseline Description:Paragraph 1:A brief description is needed here
of the Viereck and Dyrness hlerarchical vegetation classification system for
Alaska,levels used for this study,and number of categories mapped (note,
this description should cover the vegetation type maps nO\J under
preparation).An explanation for the r.1apping of up to 16 kilor.1eters (km)from
the Susitna River and .8 kr.1 from the impoundments should be provided.
-30-
.....,
-
para~raph 2:A brief description should be given as to sampling intensity.
Whet er vegetation dominance within the project area and/or susceptibility to
project impacts were considered in study design should be explained.General
information on elevation,slope,aspect,and land form should be briefly
related here and in subsequent sections of the report to better define areas
and their vegetation cover.The prevalence of permafrost,a determining
factor in some project impacts (e.g.pages E-3-166,paragraph 2 and E-3-170,
paragraph 3),should also be considered.
Paragraph 3:Successive descriptions of vegetation types by project area
would be clarified here by defining closed,open,and ~Joodlandforests,tall
versus low shrublands,and wetlands (also see comment under Section
3.2(a)(vi)),rather than defining them in the following sections (a)and (i).
The discussion \Jould also be aided by including an overlay of project features
011 the vegetation map,Figure \/1,as well as restating information on the
elevation range for each proposed impoundment area.Ue recommend the license
application include a larger,more readable vegetation map and that
quantitative data on how common or uncoomon specific vegetation types are,as
well as the occurrence of various types relative to elevation or aspect,be
presented in the text as well as tables.In so describing the revised
vegetation classification,it will be possible to better evaluate potential
project impacts on vegetation,and thus wildlife habitats,by project
feature.This recommended level of effort also applies to the proposed access
and transmission corridors.
(a)Watana Reservoir Area
(i)Forests:Please see comment under Section 3.2 re including quantified
information in the text as well as tables.Providing the range of elevation
in which these types \iere sampled rather than one average \Jould show the
extent and overlap in distribution of each forest type.
-sruce Forest:Paragraph 5:Black spruce forests on poorly drained soils
wou d most llkely also be classified as wetlands.Please refer to our
comments under Sections 3.l(d)and 3.2(a)(vi).
(ii)Tundra:Please refer to comments under Section 3.2:Paragraph 3 re
providing quantitative data on the prevalence of different tundra types and of
ranges rather than average elevations.The ~Jet sedge-grass tundra should also
be described as a wetland type,see Sections 3.Hd)and 3.2(a)(vi),as above.
(iii)Shrubland:Refer to cOli1li1ents under Sections 3.2(a)(i)and (it)above.
(iv)Herbaceous:For consistency with the rest of the report,we recommend
describing common species within the referenced herbaceous pioneer
com~lunities.Corresponding tables on the herbaceous vegetation types are
missing.
(v)Unvegetated Areas:Ayain,quantification of the extent,and thus
importance,of these areas should be provided.
(vi)Wetlands:This section is significantly lacking in three areas.First,
the leglslatively recognized importance and protection of wetlands should be
described,including the U.S.Army Corps of Engineers·(CE)definition of
-31-
wetlands and regulation of activities on these areas.(Please also refer to
our co~~ents under Section 3.l(d)regarding this concern.)Second1y,there
should be a discussion of how ~,etlands may be a second level of classification
applied to the vegetation types previously discussed.Finally,as ~,ith other
ongoing studies,this section should cover the lIetlands delineation scheme
agreed to at the 2 Decer.lber 1982 wetlands session of the Susitna Hydro Exhibit
E Workshop.This agreement included the following:project consultants will
Qeet with the FWS and CE to identify the appropriate detail for wetlands
~apping;existing wetlands r.laps will be improved on the basis of additional
aerial photography and overall vegetation remapping;soils information will be
obtained frofil theCE;ground truthiny,in consu1tation with F\1S and CE,will
be undertaken in summer,1983;final maps should be available by fall,1983;
and additional field checks may be necessary in su~mer 1984 (see page 5 of
Wetlands !·leeting notes,received from John Hayden,Acres Ar,lerican,Inc.).
Given the doubtful accuracy of existing wetlands maps,it would be
inappropriate to include those r.laps in the license submittal.
Redefinition of wetlands to properly include such types as black spruce bogs,
willow and poplar along watercourses,and herbaceous sedge-grass marshes,in
addition to the more completely aquatic types now described under the wetlands
section.A definition of "wet tundra"(paragraph 6)should be included.The
final paragraph of this section would be a better opening statement to the
expanded discussion needed on wetland values and types.
(b)Devil Canyon Reservoir Area:Please refer to COmr.lents under Section
3.2(a)re need for a brief elevational and landform description.Again,there
will be need for an overlay of the impoundr.lent area on the (revised)
vegetation type map.We appreciate inclusion of the percent of the
iQpoundment area covered by major vegetation types.Please refer to our
previous comments re need for a co~prehensive discussion and definition of
wetlands.
(c)Talkeetna to Devil Canyon:Clarification of this specific area is needed.
Agaln,refer to comments under Section 3.2{a)(i)and (ii),above.While
early,mid,and late successional stages appear a suitable categorizaion for
floodplain vegetation,these stages should be correlated with the forest,
shrub,tundra,wetlands,etc.classification previous1y used.
(d)Talkeetna to Cook Inlet:Please refer to comments under Section 3.2(a)(i)
and (ii),above.We believe that existing data do not substantiate the
conclusion that the project will have mini~al impacts on vegetation in this
area.Thus we recomr~end mapping the area within the 10 year floodplain
downstream of Talkeetna at least to the Delta Islands.Further discussions on
expected impacts should be initiated to better pinpoint the precise area which
should be covered.
(e)Transmission Stubs and Intertie:Again,we suggest adding a map,and
elevation inforr.lation,as well as quantifying the vegetation type,for each of
the follo~ing four subsections.
(i)Healy to Fairbanks:Paragraph 5:Reference to "wet lowland sites"should
be expanded to discuss wetlands per our comments on Section 3.2(a)(vi).
-32-
Section 3.2(a)(vi).
Paragraph 2:The first sentence is contrary to data provided in Table U25,
please clarify.
Paragraph 5:Pl aceli1ent of th is paragraph between the first and second
paragraphs would be 1i10re logical.
(iii)Willo\~to Healy:The compatability of vegetation types as mapped by
Commonwealth Associates,Incorporated (1982)with those mapped by McKendrick
et ale (1982)should be described.
(iv)Dalils to Intertie:We question the comparability of vegetation types
mapped here at a scale of 1:250,000 with those in all other transmission
corridors which were mapped at 1:63,360,e.g.Tables W2?and ~~8 doculi1ent
difficulties of mapping closed birch and balsali1 poplar types at the 1:250,000
scale.This transmission corridor should be separately Iilapped during ongoing
mapping.
3.3 -Ili1pacts:Fragmenting this analysis into a .project feature by ili1pact
issue forli1at is useful for a first overview.However the section lacks a
-comprehensive picture of cumulative impacts to vegetation.That cumulative
picture is essential for understanding overall ili1pacts of the project on fish
and wildlife spec ies occupying areas \~ith in and beyond each project feature.
Although this section identifies the full range of vegetation ili1pact issues,
there is no attempt to quantify areas \1'hich may be potentially affected by
chan~es in vegetation cover.A given change may be both beneficial to one
specles of wildlife yet adverse to another.By not cOli1pletely prioritizing
r-mitigation in the previous Fishery Section and later\Jildl ife Section,the
report fails to identify the tradeoffs or objectives of a project-wide
mitigation plan or mitigation plan alternatives.For exalilple,inforli1ation
should be provided here on the tradeoffs analysis relative to fish,wildlife
and botanical ili1pacts,as well as cost and design considerations in the siting
of project support facilities,roads and transmission lines.We remain
concerned that we were not consu1ted in the siting of project support
fac il it ies.
....
F
!
I
.-
(a)~atana Developement
(i)Construction
-Vegetation Removal:Para~raph 1:Again,we suggest restating the elevation
range within WhlCh vegetabon will be removed.Spoil areas shou1d also be
described.
Paragraph 2:Please provide the percent loss expected for birch forests as
shown in Tab1e U2?Loss of a vegetation type 'relative to its abundance
within the basin is half the issue relative to the loss of vegetation;however
the value of each type relative to other types for selected wildlife species
should also be provided.In sOli1e cases habitat factors would also be
considered;see our COG1l'.lents throughout the Uildlife Section.
-33-
-Ve etation Dama e by Wind and Dust:Para-ra h 1:Given the difficulty of
rea 1n9 t e vege at10n r,lap supp 1e ere an t e later need to understand the
potential for lost nest sites or wildlife cover,please describe the primary
tree species and veyetation type(s)in which blowdown may occur on ~le
southside of the Uatana damsite.
paragraeh 3:Some relationship should be made between referenced possible
delays 1n snowmelt and vegetation types which may be affected.Similarly,
increases in cottongrass and decreases in mosses anq lichens should be related
to their occurrence in vegetation types adjacent to impoundment and borro\i
areas.Such relationships should be the basis for fully considering the
impacts of project-induced changes on vegetation r~lative to wildlife (see our
comlLlents under Sections 4.3(a)(i),(ii),(iv),and (vU.
(ii)Filling and Operation
-Ve~etation Succession Following Removal:In order to understand the
magnltude of vegetation a1terations,some quantification should be presented
for the areas of forest,shrub,tundra,etc.which will be rehabilitated
during project filling and operation.A scenario should be developed
outlininy potential acreages of each affected vegetation type and the various
successional stages they will pass through during the life of the project •
.Forest Areas and Shrubland:Anticipated heights of each vegetation stage,
over time,should be inc1uded here •
•Tundra:The extent of perr.lafrost should be described,please see our
COr;1Jilent under Section 3.2.
Information is needed on successional patterns in herbaceous vegetation types
and on wetlands within each type,for consistency with Section 3.2(a).An
additional concern is the nutritional quality and quantity of plant regrowth
relative to wildlife.
-Effects of Erosion and Deposition:Paragraph 2:See preceeding comment and
that under Section 3.2 re need to map and quantify the aerial extent of
permafrost.
-Effects of Altered Downstream Flows:Overall,this discussion is too
general.Consideration of daily flow fluctuations in response to peak power
needs is neglected.
Several other potential project impacts are left unclear;especially those
related to wetlands and floodplains.For example,please provide the extent
of floodplain areas,(1)now subject to annual,5 year,10 year,etc.
flooding,and (2)which will become exempt from flooding.Given the
successional information depicted in Figure W3 and revised vegetation ~aps,it
should be possible to quantify expected changes in vegetation,over time,for
a variety of flow regimes.Such information is necessary to fully deter~ine
project impacts to wildlife and make mitigation reco~endations.If existing
hydrologic or vegetation information is considered insufficient for developing
such models,additional stUdies should be initiated.
-34-
•\latana to Devil Canyon:A raore detailed treatment of the potential for
r;r,le;ce or ;cefog formation is needed here.For example,ice buildU8 on
vegetation has been found to keep the soil surface open in forests.l.!
Sap 1ing tree stands heavi ly damaged by ice produced lIlore brush \/hereas ice
damage in mixed-oak tree stands resulted in loss of understory saplings and
10\1 tree branches with herbaceous plant growth enhanced in summer.l!!Such
changes in understory or reduction in winter browse availability could be
particularly critical to wildlife subject to extensive adjacent habitat losses.
The types of vegetation \ihich may form,over the project life,on
"newly-exposed areas with adequate soils ll should be described relative to
adverse or potential benefits for various wildlife species.
•Devil Canyon to Ta"/keetna:paragrat 3:This quantified description of
expected vegetation type changes ;s t e type of detailed impact analysis
necessary for other project areas (e.g.preceeding section on Uatana to Devil
Canyon and following section on Talkeetna to Yentna River).Once the revised
vegetation mapping and analysis is completed,this type of analysis should be
the basis for exa~ining the positive and/or negative impacts to wildlife of
-these vegetation changes,over the life of the project.
Paragraph 4:The statelilent that,"Post-project ice forlilation in th is reach
will be s;r.tilar to present conditions,"appears to conflict with previous
descriptions whereby ice forraation will not occur until approxililately river
mile 130,slightly raore than half way to Devil Canyon fror.t Talkeetna (Section
2.3(a)(iii),page E-3-90).In order to understand how area vegetation raay be
less-influenced under post-project break-up,it would be useful to explain
present impacts of break-up on the vegetation.Please address the change from
a bank-full flood interval of 1 to 2 years for this section of the river.
Quantification is needed of the area over which vegetation could be
established with this schedule for less frequent disturbances.
•Talkeetna to Yentna River:Paragraph 2:Again,the vegetated areas and
types which could become established on the active gravel floodplain under
less frequent bank-full floods should be described.
Paragraph 4:~Je question the suggested vegetation changes between Talkeetna
and the Yentna River.Vegetation allowed to establish over a longer period of
tilile (e.g.5 to 10 rather than 1 to 2 years)would seem less l"ikely to be
disturbed when the bank-full flood does occur.Given the annual flow
.l.Q.I Butler,R.t·l.,N.H.Wooding,and LA.Myers.Spray-Irrigation Disposal
of Wastewater.Special Circular 185.The Pennsylvania State
University,College of Ayriculture Extension Service,University
Park,Pennsylvania.17 pp.
l!!Uood,G.W.,P.J.Glantz,H.Rothenbacher,and D.C.Krodel.1975.
Faunal response to spray irrigation of chlorinated sewage effluent.
Research Publication No.87.Pennsylvania State University,
University Park,Pennsylvania.89 pp.
-35-
,II
variations over this stretch of the river,it would see~possible and
necessary to predict areas of vegetation change for maxi~u~and mini~um flow
scenarios.
Effects on Ve etation:As for other ongoing studies,a_;;";""r-..~-T-;;""';~~--,,,,--..;o..~--~...,.;..,..;.....;~;....;...;....;...o.""lncorporatlny ogy study results into project
Paragraph 3:~Je recommend calculating the potential vegetated area and types
therein within the referenced 2.5 k~area downwind of the reservoir within
which air temperatures may be affected.Resultant ifilpacts on timing of
veyetation ~reen-up or leaf-drop could be important for area wildlife.
paragraah 4:A more extensive treatment of foy bank development should be
include here,please refer to our cOI.lr,lents under Section 3.3(a)(ii)-Effects
of Altered Downstreara Flows .~Jatana to Devil Canyon.
Also see co~mlent above re calculating the area within 3 km offshore which may
be affected by ice development.
-Effects of Increased Human Use:We have repeatedly cited the important
opportunlty for r'linimizing project impacts on fish and wildl ife by carefully
siting and regulating access (see FWS letter to Eric Yould,APA,of 17 August
1982).The potentials for off-road vehicle (ORV)use and accidental fires
with project access described here confirm that such use may need to be
effectively controlled as fish and wildlife mitigation.Please refer to
cOQments under Section 3.4(c)(ii)re our recommendations to eliminate the
Denali Highway access route and to restrict worker and public use of project
access routes.
We are concerned about inconsistencies with the first sentence here,re
greater access opportunities,and with points made in the Wildlife Section.
That section appropriately contains repeated descriptions of (1)the
siynificant negative ir.lpacts froGl increased use and access;and (2)the need
to carefully control project area use and access (e.g.Sections 4.4(a)(i),
(ii),(iv),and (r)and 4.4(c)(ii)).Please clarify •
•Off-Road Vehicles:Para ra h 3:In view of previous incomplete coverage of
wet ands see our COfiTJents un er Section 3.2(a)(vi)),we question the
definition behind use of the ter@ wetlands here.This discussion illustrates
the need for the improved wetlands map which is to be developed.
(b)Devil Canyon Development
(i)Construction:Other than quantifying direct vegetation losses froQ
reservoir lnundation,the section fails to provide any indication of the
relative magnitude of other potential losses or alterations in vegetation.
-Vegetation Removal:Please refer to our concerns under Section 3.3 re lack
of consultation in siting camp,village,and borrow areas.
-36-
-Vegetation Loss by Erosion:Again,a map of permafrost areas \iould be
usefu1.Given the likely ineffectiveness of replacing topsoil and
recontouriny (Section 3.3(b)(i).Indirect Conse9uences of Vegetation
Re~oval),we suggest that clearing may be a signlficant source of erosion.
-Effects of Altered Drainalje:~Je recommend that this section include the
area of lakes,ponds,and other wetlands which may be affected by proposed
borrow areas.
(ii)Fillin¥and Operation:Paragraph 3:The potential for movement of the
1arge lands ide at river ~11e 175,causing upstream flooding and loss of mid-
and late-successional vegetation in valuable riparian areas,should be
described in ~ore detail.For example,the potential size of the area to be
impacted should be described.
Please refer to ~ur previous
..-
-Downstream Effects:The unknown consequences of frost buildup on vegetation
adjacent to the reservoir represent a significant potential change in
vegetation and thus impact to \/ildlife (see our comments under Section
3.3(a}(ii)}.These consequences should be the subject of continuing studies
and quantification •
(c)Access
(1)Construction:Please refer to our CQr.1r,lent under Section 3.2
regar lng 0li11SS10n 0 ase lne data on proposed access corridors.Because of
this omission,the exact areas which would be cleared within the 34 meter (m)
x 67 kr,l access corridor described here are unclear.Please explain vJhy this
description appears to conflict with earlier descriptions of road width and
length (Section 2.3(c)(i}).Inconsistent use of both metric and English units
within the same report adds further confusion.
(ii)D1eration:Parayraph 1:Our comments under Section 3.3(a)(ii)apply
here a so.
Paragraph 2:The potential for ice buildUp on the railroad tracks and
resultant impacts on vegetation should be examined.
(d)Transmission Corridors
(i)Construction:Paragraph 1:Please clarify the differences among hectares
to be impacted by the transmission corridors as cited here and in Tables W24,
W25,and U26.~itoreover,referenced Table U29,has nothing to do with
transmission corridors.
paragraah 2:Uetlands,as used here,should be defined.Precalculation of
affecte vegetation types will need to be undertaken after the ongoing
vegetation relilapping.Notation should be made that,(l)lo\/-lying vegetation
types \/;11 r·emain largely undisturbed,and (2)beneficial impacts of increased
browse production will be realized,only if access and DRV use along
transQission corridors are effectively controlled.Quantification of
potential increases in browse should be possible on the basis of succession
-37-
~odels and continuing classification studies.Such quantification is needed
to cOQpare overall losses and thus mitigation requirements for the project.
~lii)Operation:Our comments above under Section 3.3(d)(i)apply.
(e)lfil act Sur,lmar:An explanation is needed for the process or criteria for
etermlnlng lmpact "priorities of importance."
(i)though (v):This qualitative sumrJary describes several data gaps which He
believe should be answered,e.g.the vegetated area which may be lost with
land slumpage from permafrost,changes in downstream floodplain vegetation.
etc.Overall,we are concerned with lack of attention to cumulative impacts,
an inattention made ~ore acute by nonquantification of most impacts.The
numerous "minimal"and "minor"impacts for each project feature may
cumulatively represent significant alterations or loss of vegetation.From
the standpoint of fish and wildlife habitats,project-related activities
throughout this primarily undisturbed area represent the first intrusions
similar to those which have led to significant and losses of fish and wildlife
throughout the conterfilinous United States.A serious omission in this section
is consideration of ililpacts to ~/etlands and floodplains.
(vi)Prioritization of Impact Issues:We concur with the evaluation of
acreage Josses for a vegetation type relative to the proportion of that type
in the region.Since vegetation is a key co~ponent of wildlife habitats,the
basis for evaluating whether community changes are "good"or "bad"should
follow in the Wildlife Section of this chapter.However as discussed there,
an inte~rated evaluation of all species is lacking.There is little basis for
makiny decisions on prioritizing species concerns or resultant tradeoffs in
project impacts or mitigation alternatives.Our previous co~ents on each
i~pact issue identified here apply.Additionally,vie have a few specific
cowments.
-Direct Losses of Vegetatio~
Access Roads:While the actual area covered may be s~all relative to other
project impacts,access routes indirectly impact a ~luch larger area because of
their linear nature •
.Trans~ission Corridors:We would like to be assured that the reference to a
lir.1edian strip for transport of personnel and materials!!,is consistent vdth
the environmental guidelines for transmission corridors (Appendix AE -
Transmission Corridors,item 1)with which we concur.As with access roads,
above,transmission corridors indirectly impact a very large area.
-Indirect Losses of Vegetation:The cumulative impact of project features
mentioned previOUSly,is of particular concern here.Many of the identified
losses will be in riparian corridors which are of particular significance to
wildlife species.
-Alteration of Vegetation Types:We a~ain recom~end that successional type
changes over the project life be quantified in the license application.
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.....
-
~,
3.4 -r'litigation Plan:~Je find the proposed plan 'incomplete and too general.
There are two main problems with this plan.First,because impacts are
incompletely quantified,it is not possible to determine the value of
recommended/accepted mitigation measures or the magnitude of unavoidable,
adverse impacts which will not be mitigated.Not integrating this plan with
the fish and \Jildlife mitigation plans is the second main problem.Thus there
is no comprehensive picture of overall project impacts,priorities for
mitigation,potential for achieving those priorities,or tradeoffs among
mitigation options for various area resources.
An approach similar to that for the Fishery Section mitigation plan (pages
E-3-120 through E-3-144)Hould be r,lore appropriate.~Je recommend restating
the full range of mitigation alternatives here,prioritized in accord with
NEPA guidelines:avoid,minimize,rectify,reduce or eliminate over tili1e,and
finally,compensate.This approach should be expanded to include reasons for
rejecting high priority mitigation in lieu of lower ~riority measures (e.g.
proposing regulations on access rather than alternate siting or scheduling of
access).A mitigation plan,incorporating specific,effective measures which
have been selected through this process,should then be presented.
r·lany of the identified ir.lpacts are not addressed in the mitigation plan
itself.In those cases,impacts should be clearly identified as unavoidable,
short or 1on g-terr.1 ,adverse impacts.Horeover,vie find the report lacks
information specifically required by FERC regulations (F.R.Vol.46,No.219,
13 Noveli1ber 1981),Section 4.41{f)(3)(iv),i.e.there are no implementation,
construction,or operation schedules for recomli1ended mitigation measures;
which measures have actually been incorporated into project plans is unclear;
and neither replacement lands nor habitat manipulations have been identified
as to either suitable sizes or locations.
Generalities of the plan are exemplified by references to using,"depleted or
non-operational upland borrow pits •••as overburden storage areas where
feasible"(page E-3-187)or reference to "a feasible haul distance,"(page
E-3-187)•
.Gi)Watana Developement
(i)Construction:Paragraph 1:t1itigative features which have been
incorporatea into engineering design and construction planning should be
clearly stated.Reasons for rejecting our recommendations have never been
formally provided (e.g.access road siting).Location of the construction
camp and vill age on shrub 1ands (per Tab 1e U27)rather than forest 1ands may not
minimize i~pacts,depending on the wildlife species of concern,erosion
potentials,proximity to construction and access facilities,etc.Again,
since we were not consulted in siting of those facilities and have not seen
Exhibit A,we cannot fully understand the situation.A mechanism for
enforcing the referenced prohibition of off-road or all-terrain vehicle use
should be included (see FERC regulations Sections 4.41{f)(3){iv)in F.R.Vol.
46,Uo.219,13 November 1981).
paragraph 3:We suggest that facility siting to avoid wetlands be rereviewed
in consultation with the FWS and CE and proposed revisions to the wetland
r,laps.As with similar points about "minir.lizing"or "reducing",there is no
quantification,particularly relative to the amount of \'ietlands,or other
-39-
impacts in other report sections,which will be impacted and which can be
avoided.
Paragraph 5:We concur that spoils should be placed in the inundation area as
10ng as such place~ent will not create a sedimentation problem.
Para~raRh 6:We recommend explaining whether project engineers have confirTned
that floodplains or first-level terrace locations will not be needed for
borrow for ancillary project facilities.
Para;iraph 7:tJe recof.ltlend that sir.1i1ar detailed information be provided
tnrouyhout the report.
(1i)Filling:Please refer to our General Comments,Botanical Resources,re
identifying feasible habitat enhancement measures or replacement lands.The
contention that moose winter browse I!may be cor,lpensated l'is useless,given
that (1)there is no guarantee in this plan that enhancement or land.
acquisition will ever occur;and (Z)quantification for how much/where/what
type of land must be enhanced or acquired is lackiny.~oreover,tradeoffs re
co~pensation for moose to the neglect or adverse impact of other species have
not been settled or even discussed.
Paragraph 3:Because of internal inconsistencies,the overall effect of
siltation is unclear.
Paragraph 5:Whether rectification will be one percent or 99 percent is
unc1 ear.
Paragraph 7:We concur with revegetation plans to e~phasize fertilization and
minimize seeding where erosion will not be a problem.
Paragraph B:We strongly support plans to rehabilitate all sites by the first
growing season after they are no longer needed.Assurances should be provided
that sufficient quantities of seeds would be stockpiled and regrowth
potentials of available native strains ~/ill be tested prior to project
abandonment of disturbed sites.Choice of plants for site rehabilitation
should be in consultation with Federal and State natural resource ayencies.
(iii)Operation:Paragraph 1:We concur with the proposed ~onitoring of
dO~Jnstream veyetatl0n changes but note that monitoring in itself is not
mitiyation.Periodic controlled flooding to Qaintain primary and secondary
successional stayes must be coordinated with the Fishery Section and tJildlife
Section mitigation plans.
paragra~h 2:We have assumed that nonessential portions of the disturbed
areas wll1 be promptly rehabilitated.Please specify.
(b)Devil Canyon Development
(1)Construct ion:Paragrarh l:Our comlilents re 1at ive to the ~Jatana
development (Section 3.4(a (ii))mitigation apply here also.An additional
mitigation need is monitoring and enforcement relative to DRV and unauthorized
access uses.Spoil disposal described here was not discussed or previously
covered in the impacts Section 3.3(b)(i).
-40-
(ii)Fillint and Operation:A~ain,our COfilr.rents under \·Jatana Development,
Section 3.4 a)(li)and (lii)apply.
(c)Access
(i)Construction:Paragraph 1:Please clarify why avoidance of closed forests
was terQed as a mitiyative measure in siting of the Denali Highway to Watana
access road.Section 4.4(b),paragraph 2 supports this siting re minimization
of project i~pacts to pine marten.If this is the reason,that reference
should be made here and further information is necessary on other species
adversely affected by this siting and adverse/beneficial impacts of
alternative sitings which were eliminated.Wetlands will need verifying per
~our previous comments (Section 3.4(a)(i)).At least one line of this
paragraph was omitted.
Paragraph 3:We refer you to our previous comments on wetlands,Sections
3.2(a)(vi)and 3.4(a)(i).
"""
-
,~
-
r
I
Paragraph 4:Information is too general.We concur with the intent but do
not have necessary specifics as to the extent of mitigation which will be
ach ieved.
(ii)O~eration:The referenced management prov1s10ns should be described here
;nclud1ngbusing of ~vorkers and restrictions on non-project-related uses.
Paragraph 2:The extent of mitigation which can be achieved for many project
impacts wi 11 depend upon the folanagelilent options under revie\v by the APA.In
the flPA I,litigation Policy document and under NEPA guidelines,avoidance is to
be the first priority in implementing mitigation.Therefore ~Je refer you to
our previous correspondence on this issue (letter to Eric Yould from FWS,17
Auyust 1982)as part of our pre-license consultation.In brief,the necessary
avoidance should include elimination of the Denali Highway to Watana access
road and prohibiting use of other project access routes for
non-project-related access.Instead,construction access should be by rail
from Gold Creek,along the south side of the Susitna River to Devil Canyon,
and access on the north between the two dams.Non-project-related use of
these access routes should be prohibited during project construction.A
thorough analysis should be provided here of public access from the standpoint
of adverse impacts to fish and wildlife and their habitats in comparison to
any positive impacts for recreational and subsistence fish and wildlife uses.
IJe note sOlile confl ict between the statement that the flPA is reViewing a
variety of access management options with the suggestion that the project
access route from the Denali Highway may be eligible as a National Scenic
Highway.That designation would stimulate public access to the increased
detriment of fish and wildlife,effectiv~ly foreclosing some mitigative
management options.
Paragraph 3:Please refer to our more extensive comments on the Recreation
Plan re consistency with fish and wildlife protection priorities.Ue strongly
concur Hith the proposal to r.Jonitor fish,.,.iildlife,and vegetation impact but
again note the report's deficiency in not describing how and by whom
-41-
~onitoring will be completed (see our General Co~ments,Fishery Section).
f1oreover,the process for modifying project operations or the Recreation Plan
to better effect mitigation is not described.
(dl Transli1ission
(i)Construction:Please clarify what criteria were used for siting of
transmission corridors.Assurance is required that project plans include
construction by helicopter or winter access.
Paragraph 2:Again,refer to our previous co~ents on wetlands.~e recommend
minimum 150 m buffers between swan nests and any portions of the transli1ission
corridor.
(ii)Operation:We concur with this plan but are concerned that it may not be
implemented.IJe hope to avoid a repeat of the Intertie situation where
on-ground access was later guaranteed to the operating utilities contrary to
residents'and agencies'recoD~Jendations.That guarantee already contradicts
this plan,given the dependence and interrelationship of the Susitna project
~Iith the Intertie.
Since habitat ~anipulations,including fire,crushing,etc.(Section 4.4(a)(i)
and (iv))are being suggested as a prime mitigation measure for wildlife,\/e
recorn~end that potential effects of those activities on veyetation types
within different project areas be discussed here.The potential value for
uitigation of various habitat manipulations should be explained similar to the
discussion on fire,Section 3.2(a)(ii).
Two additional items which should be covered in this ~itigation plan are the
monitoring and surveillance plans referred to earlier and an erosion control
plan specific to project features and schedules.
Specific co~~ents on tables and figures relative to the Botanical Resources
Section follow:
Table \~:Please change in accord with our recomli1endations under Section
3.1(c),to "Candidate endangered and threatened plant species",etc.
Tables WS through W19:We suggest including a footnote or appendix briefly
describing how these data were collected with some explanation of whether
sampling intensity was commensurate with the availability of the vegetation
type within the project area and potential for that type to be impacted by the
project.
Tables IJ2l through IJ23:The number of sites saIJpled in each type should be
included.As in our COli1r.lents on the text,information should be provided on
how these categories compare with the vegetation categories sampled within the
upper Susitna basin.
Tables ~24 throu 1h W26:Please clarify whether the 400 to 500 foot
right-of-~Iay or 10 foot cleared centerline area was used in these
calculations.Per our previous cO"IDent on the transQission corridor,a similar
table for the Intertie portion of the transmission corridor should be
-4:;'-
.-
inc 1uded.~Je a1so suggest a suri1i1ary tab 1e sho~Jing the vegetati on impacts fror.J
all seg~ents of the transmission corridor.
Please refer to our cOr.Jments in the text on need for an additional table
showing vegetation types to be i~pacted by all access corridors,preliminarily
identified borrow areas (e.g.borrow area G is not included in Table ~i23)and
spoil areas.Where questions rer.Jain on the size of borrow/spoil areas to be
used or the necessity of all potential1y identified areas,notation should be
made of potential maxi~um and mini~um sizes and any ordering re use of these
areas.
Figure ~Jl:Granted,it is difficult to reproduce such a ~ap at this scale.
However,\Je recor.lmend a larger reproduction be included in the final
application.That map should include an overlay showing reservoir inundation
areas,access roads,transmission corridors,and other project features.A
correspondiny map of downstream vegetation and overlay of transmission
corridors is also needed.
Figure W3:Once the remapped vegetation classification is completed it should
be correlated to this table to quantify potential vegetation changes and types
over the life of the project.
I""'"Figure ~J4:As above,this figure should be a basis for analyzing dO\Jnstrear.l
successional trends given the projected longer tir.Jes between floods.
Maintenance of habitat manipulations should be specified on the basis of this
figure and ~itigation objectives •
....
r
i
-43-
4 -WILDLIFE
4.1 Introduction:~e reco~end expanding this section to at least ackno\J1edye
the ecological values of all wildlife species,as well as to ~ore clearly
outline objectives of the report and resultant ~itigation plan.We again
point out the need for an overall discussion of fish,wildlife,and botanical
resources,overall ~itigation plans,and tradeoffs in benefits to so~e
resources at the expense of others.
ecl Species Contributing to Recreation,Subsistence and CO~uerce:Not only
birds,but all w11dlife species in the project area contribute to
non-consumptive forms of recreation.Incidental viewing of wildlife in
conjunction with other activities is an unquantifiable but well documented
value.For example,the importance of downstream fish and wildlife habitats
to fish,wildlife,and the significant numbers of people using them has been
recognized by the State and agreed to by the Hatanuska-Susitna Borough
Assembly.Fish and wildlife have been designated a primary use on every State
land ~anagement unit on the east side of the Susitna River from Cook Inlet to
just below its confluence with the Kashwitna River.These management units
and state guidelines for protecting fish and wildlife are described in the
recent State report,Land Use Plan for Public Lands in the ~Ji11ow Sub-basin,
October 1981,by the Alaska Depart~ent of Natural Resources (ADNR),
Matanuska-Susitna Borough,and ADF&G.
A discussion as to why the evaluation species were selected and prioritized as
described here is as applicable to terrestrial wildlife species as it is to
fish (Section 2.l(d)).We suggest referencing that discussion here.Such
infor~ation is particularly important with regard to mitigation plans for one
species which conflict with another species.\Je also suggest noting values of
key bird species,i.e.bald and golden eagles have received national
protection (Bald Eagle Protection Act,16 U.S.C.668-668c);trumpeter swans
are highly valued because of their former endangered status;and other
Qigratory birds are protected under international treaties and the t1igratory
Bird Conservation Act (16 U.S.C.701-718h).
Please note,all references to tables in the \Jildlife section of the text are
to table numbers one greater than on the actual table.~e have referred to
tables as they are actually numbered.
4.2 Baseline Description
(a)Big Game
(i)Moose:~issing figures and values are a problem throughout this section.
-Distribution:Please docu~ent hO\'1 ~oose are "o ne of the most econolilically
important wildlife species in the region;1I also see our cor.~ents on Chapter 5,
Section 3.7(b).
•Special Use Areas:In view of your repeated citations that winter range is
a key area for Iiloose (e.g.Section 4.2(a)(;)•Seasonal t1ovelilents:Para ra h
6;Section 4.2(a)(i)•r:tortality Factors:Paragrap ;an Sectl0n . a 1)
Uinter Use),we suggest inclUding a section here on the use and availability
of ~nnter range in both severe and mild \dnters,as \Jel1 as the data gaps and
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-
-
.-
-
.....
plans to overco~e them relative to this study.Maps showiny use areas
described here relative to project features would clarify this section.
Calving Areas:paragraphs 3 and 4:NUli1bers of male and female moose radio -
collared in each of the downstrea~study areas should be described here.
•River Crossings:To better understand how not only the reservoirs,but
ancillary project features such as the Devil Canyon camp and village,may also
influence moose crossings of the Susitna River,crossings both immediately up
and downstream of the impoundment areas should also be described (also see our
co~ments under Sect i on 4.3 (b)(i)-Interference with ~10vernents}.
-Habitat Use:.The main proble~with this and the follovling section on
populations is that there has,apparently,been no integration of moose and
vegetation data.
·Cover Requirements:parafraph 7:Please describe the scope and schedule
for the necessary studies 0 habitat use,or reference the discussion under
Section 4.3(a)(i}-uantification of Project Effects.Correlating aerial
observations to the remappe vegeta 10n types s ou ~rovide additional
inforr.lation on habitat use.Elevation,slope,or other habitat parameters may
also need to be incorporated in this analysis.
Habitat Use in the utper Susitna Basin:Paragraph 3:Further inforrllation is
needed on the unders aries assoclated with these habitat types.Please
indicate t/hen such information ~~ill become available •
Habitat Use in the Lower Susitna Basin:Para ra h 2:For consistency,the
num er 0 ema e moose ra lO-CO are nort 0 a eetna should be provided,
also see our cornraents under this section,Calvin~Areas.The discussion is
confusing due to frequent co~bining of quantitatlve data with qualitative
'staternents such as 1I1:1ost female use,"Ilat most relocation sites,"etc.Where
it is available,we recommend supplying quantitative information,with
qualifying discussions on limited sample sizes,periods of observations,etc.
•Food Habits:Paragraph 2:Again,please describe the scope and schedule of
onyoing analyses and how that information will be integrated into mitigation
planning in a timely manner.Reference to your Section 4.3(a)(i)-
Quantification of Project Effects will prOVide some of this information.
Paragraehs4 and 5:We suggest examining how browse availability and
vegetatlon types utilized by ~oose correlate with moose relocations in
reference to the remapped vegetation types.
•HOr.le Ranges
The UpperSusitna Basin:The rational should Qe given for selecting an 8 k~
wide analysis zone adjacent to the impoundment.
Lower Susitna Basin:Paragraph 2:Please describe or reference the scope and
schedule for continuing studies.We recommend giving so~e consideration to
the relative habitat values of all river study areas •
-45-
-Population Characteristics
·Historical Po ulation Trends:Para ra h 1:An overlay of project features
on the ~ap 0 count areas F1gure 1S needed.
Parasraph 2:Substantiating population and productivity data in Tables W32
through W34 should be referenced here.
•Population Estimates -Upper Susitna Basin:Pleas~describe Hhat types of
habitat correlations can be made from remapped vegetation types and other
habitat parameters for low,high,and moderate moose density areas.
•Population Estimates -Lower Susitna Basin:Paragraph 2:Please describe
differences between habitats up and downstream of Montana Creek.
•t:1orta1ity Factors:Paragraph 1:~'e recomr,lend describing hO\i range quality
has been decreasing.
Paragraphs 2 throu~h 4:Please describe the comparability of brown bear
populations and ha itat types bet\'een the Nelchina and Susitna River basins.
We recogrnend expanding the discussion to include hunting as a mortality
factor.Both recreational and subsistence hunting can affect population size
and structure.Hunting figures prominently in later iIJpact discussions.
Historical hunting effort and success data relative to changing management
regulation~should be described,and coordinated with Chapter 5.Please also
refer to our co~ments under Chapter 5,Section 3.7(b).
(i i)Caribou
-Distribution and Movement Patterns:Paragraph 6:Please describe how many
animals were radio-collared and the numbers of radio locations made for each
one.
Figures ~B and W10 of caribou radio locations should include the locations of
project features.
-Habitat Use:Please clarify whether aerial observations or an overlay of
radio locations on eXisting vegetation type maps were used to determine
caribou use of different ve~etation types.A correlation should be provided
for the proportion of the basin which is in each type relative to the
proportion of radio-collared caribou sightings within each type (Table W36).
Please discuss whether vegetation remapping efforts will affect the
interpretation of caribou data.
-Population Characteristics:paragra~h 1:This section should reflect
present and future management plans an be consistent with Chapter 5,Section
3.7(b)(ii).
Paragraph 10:Changes in the number of permits frofi1 1972 to 1981 should be
described and percents of the herd harvested,by year,included in Table W38.
-46-
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paraGraph 11:Please tabulate data on wolf population,wolf predation,and
carl ou nUQbers fro~1957 to 1981.
(iii)Dal1Sheep
•Distribution:Paragaph 2:We reco~vJend including ~aps which ~ore
specifically delineate seasonal sheep use of the Susitna basin relative to
project features.
para¥raeh 5~We reco~end further justification be provided to support the
conc USlon that impacts from the impoundments will be minor.Clarification of
~Jhere the sheep winter and of sheep movements between seasonal ranges should
be pro vi ded •
paragra~h 6:Reference should be provided for the judgement that the sheep
populatlon has remained stable or slightly increased.
Paragraph 8:Please provide a map of the Jay Creek mineral lick,and probable
traveJ corridors to the area,relative to the Watana impoundment.We
reco~end providing historical harvest data and explaining how project surveys
relate to area populations.
(iv)BrO\Jn Bears
·Distribution:We recommend prOViding data on the numbers of bears radio-
collared and radio locations made,as well as maps of those radio locations
relative to project use.
·Habitat Use:Para~raph 2:Please describe whether aerial observations or
vegetation type maps were used to deter~ine vegetation types relative to brown
bear radio locations.An explanation should also be provided of hO\J more
detailed veyetation data and the vegetation remapping efforts will be
integrated with the analysis of bro\m bear habitat use.
•Ho~e Range:Para~raph 1:Please correct the referenced Table W42 which
lists data from proJect studies in the Susitna,not the Nelchina basin.
Paragraph 2:An explanation should be provided as to why 1.6 km and 8 k~were
chosen as the breakdown for study zones around the impoundments.
paragra~h 4:Please describe data on bear radio locations relative to access
roads,ransmission corridors and ancillary project features •
(v)Black Bears
·Distribution:We recommend including maps of bear radio locations relative
to project features.
·Habitat Use:Please describe how further vegetation studies and remapping
will be integrated ~Jith the analysis of black bear habitat use.
•Food Habits:The scope,schedule,and integration of ongoing predation
studies relative to further project planning should be addressed here.
(viii)Belukha Whales:Please nate that several of the references cited here
do not appear in the bibliography.
-Distribution and Habitat Use:Paragaph 5:We suggest integrating data on
chinook salmon from the fisheries studies in order to obtain SOQe estiQate of
the hllportance of that fi shery and of project ir.1pacts to the fi shery an
belukha whales.Please also describe what data will be gathered on smelt for
better evaluating project ir.1pacts on belukhas.
(b)Furbearers
(1)Beavers:We recor.Jrnend including a map of the study area which details
specific study sections,available density data,and representative main
channel,side channel,slough,and clear water areas.The discussion should
be expanded to cover the extent to which suitable beaver habitats are fully
utilized or explanations where they are not.
Para~raph 4:Ue recor.11i1end investi~ating the extent to 'Ilhich bank lodges are
used by beaver and to 'IJhich the activity levels reported in Table ~J53 may be
underestimated.An on-ground survey when beavers come out of their dens to
forage just before spring break-up could verify such use.
Paragraph 8:Further quantification should be provided on trapping effort and
success,see our comments under Chapter 5,Section 3.7(c).
(ii)Muskrat:para~raph 2:Please clarify whether the 106 lakes surveyed
contitute all theakes betHeen the Oshetna River to Gold Creek i~pact area.
Please relate this discussion to the number of muskrats potentially inhabiting
this area.
para~raeh 3:Please provide an indication of downstream muskrat populations
and abltat quality.
Paragraph 4:Please quantify present and historical trapping effort/success.
(v)r·1arten
-Population Characteristics:para~raph 2:No data is prOVided to
substantiate tfiaf pine marten are he "etonornically most important furbearer,"
or to relate densities to populations and habitat quality.Please also refer
to our co~ents under Chapter 5,Section 3.7(c).
-Habitat Use:Please refer to the comment i~diately above.
(vi)Red Faxes
-Habitat Use
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•Denning Habitats:Please provide infor~ation on the density of fox dens
relative to habitat quality,and to other Alaskan and/or florth American fox
populations.
Paragraph 5:Some explanation shou~d be provided for the disparity of more
fox tracks on the south side of the river but ~ore dens on the north side.
-Food Habits:Paragraph 3:The postulated link between fox and hare
populations may be overstated.Apparently hare numbers have never been high
or an important food source for fox in this area (Furbearer Study Coordinator
Phil Gipson,personal conwnunication;also see Section 4.2(b)(vii):Paragraph
1 and Section 4.3(a)(xiii):Paragraph 5).
-Poeulation Characteristics:Please refer to our previous cOr.1r.lents under
Dennlng Habitats relative to habitat quality (Section 4.2(b)(vi)-Habitat
Use).Again,trapper effort and success should be doculilented,also see our
cOIilJ"ents on Chapter 5,Section 3.7(c).
(vii)Lynx throu~h (x)Least Weasel:We understand that none of these species
were chosen as hlgh priority for evaluating project impacts.However,we
recommend providing some quantification for the descriptions of Ilfairly
numerous"but not 1l1i~ited,1l 1l1ocally abundant,"and Ils parse,"in addition to
trapper effort/harvest;also see our co~ents on Chapter 5,Section 3.7(c).
(c)Birds:Paragraph 2:Please note that waterfowl breeding pair surveys
have been conducted by FWS in the lower Susitna River basin for over 20
years •.lY The FWS has also conducted state~dde surveys for trur.Jpeter S\/ans
in 1968, 1975,and 1980.J1!
Paragraph 3:We recommend further information be provided on how relative
abundances of bird species were determined.Please clarify the difference
between 60 percent of the area being in shrublands,as cited here,with the
just over 40 percent in shrublands,as cited in Table W4.At the August 1982
AEA Workshop on the project,much discussion centered on problems with·
correlating the bird habitat classification sche~e used by Kessel et al.for
project bird studies with the Dyrness and Viereck Alaskan vegetation
classification system used for project baseline vegetation maps.~Je recommend
describing those problems here and how they will or will not be overcome by
ongoing vegetation rer.1apping.Throughout the bird sections of the draft
application we are concerned that source(s)for referenced data,or data
12/The most current data is available in:King,J.G.and B.Conant.
1982.Alaska-Yukon waterfowl breeding pair survey,18 Hay to 13 June
1982.USFWS,Juneau,Alaska.
12!The computerized compilation of this data is available at the FWS'
Alaska Regional Office,1011 E.Tudor,Anchorage 99503;please
contact Greg Konkel,(907)263-3395;original data is available from
Jim King,USP~S,Juneau,(907)586-7244.
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manipulations,may not be fully documented.Thus we reco~end describing
where and how data from more than one source has been manipulated for this
report.In particular,the tables and figures should be more completely
referenced,including explanatory footnotes.
(i)Raptors and Raven:Para~raph 1:We are concerned that 1980 and 1982
raptor surveys were not conducted at the optimum time:i.e.sum~er foliage
vJould make it difficult to initially locate nests (~Je note that 50 percent
more nests were found in 1981 than in 1980);accordi~g to Table W60,nesting
raptors will have fledged their young by 30 September making it difficult to
deterwine nest activity in October.Please indicate the experience of
observer(s)conducting the raptor surveys and meth~ds used,(e.g.whether
surveys were by helicopter or fixed-wing aircraft).We also reco~"end that
maps of actual nest locations be included.We note that goshawk nests are
often difficult to find by air and thus question ~Jhether the number of nests
cited here is a thorough assessment.Please clarify in the text whether all
raptor nests active in 1980 were also active in 1981.
Parayraph 3:Please expand the discussion to more completely describe the
habitat sUTtability of the project area for golden eagles,given their
apparent hiyh density.
Paragraph 4:Refer to our comment under Section 4.2(c)(i):Paragraph 1,
aGave,re the late timing of 1980 and 1981 surveys for nesting bald eagles.
Please provide a description of the survey methods used.
Paragraph 5:IJe recor.1li1end that discussion be provided relative to habitat
values re how Susitna habitats compare with those along the Tanana River where
slightly lower nesting densities are reported.
Para~raph 7:Due to the status of the arctic peregrine falcon (Falco
peregrinus tundrius)as an endangered species under the Endangered Species Act
of 1973,as amended (16 U.S.C.1531-1543,as amended),we are particularly
concerned with the adequacy of surveys for them,e.g.peregrines would have
already left the area by October when the 1982 survey was done.Thus,we
again recommend describing how the surveys were conducted,for how long,and
by whom.We recommend that peregrine falcon surveys be conducted annually,in
early July,throughout project studies and construction,or until there is
sufficient evidence that peregrine falcons do not inhabit the project area.
Sufficient evidence would be no siyhtings over several years of helicopter
surveys,by a reputable observer during the proper ti~e of year.Observers
should be individuals who have worked with peregrine falcons.FUS review of
specific times and survey techniques would be appropriate.
Ue recomr.Jend the discussion be expanded to describe the areals importance in
raptor migrations as well as for breeding.
(ii)Waterfo~~l and Other Large Waterbirds:Please provide some quantification
for terms used ~ere,e.g."large"concentrations of waterfowl (paragraph 1);
"little used"(paragraph 4}s etc.
para~raph 3:We recommend you incorporate additional trumpeter swan data
whic is available from the FWS.Please refer to footnotes 12 and 13.
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Paragraph 4:We agree with the conclusion,however \/e suggest that data fro~
FWS annual surveys be included to quantify this state~ent (e.g.see footnotes
12 and 13,as well as Conant and King 1981 and King and Conant 1980 as
referenced in this section.).
-tliyration:para~raph 1:We recoli1f.lend referencing the specific study(ies)
frof,l which conclUSlons in the CE reference are taken.Please note that
tru~peter swans are moving through the area in increasing nuri1bers.
Paragraph 3:Please expain the discrepancy bebJeen the statement here that
tHe "upper Susitna Basin \/as less ir,lportant to fi1igratory \laterfowl in spring
than fall,t1 with data in Table W62 which shm/s spring waterfowl densities over
twice that of fall densities.
-Relative Importance of\Jater Bodies:Para~raph 1:Given the previously
described problems with tHe wetlands classiflcation used for the project,and
remapping efforts currently underway,please define t1\'letlands"as used here.
\Je suggest clarifying whetne.r the reference is to 22.5 adult waterfowl/k~2
and 22.5 adult gulls/km2 or to 22.5 adult (waterfowl and gulls)/km 2 •
lie question the validity of only co~paring productivity of these \w'etlands to
the most productive wetlands in Alaska.Upper Susitna area waterfowl
productivity fJay be f.lore typical of Alaska wetlands in general and represent
average populations and productivity (FWS Marine Bird Management Project
Leader John Trapp,personal co~unication).
Paragraph 3:Please clarify how "Importance Values"were calculated;also
refer to our comments under Figures 1-119 and \~20 and Tab 1e \/63.\Ie sug!dest
describing any consumptive use of waterfowl within the project area.
(iii)Other Birds
-Grouse and Ptar~igan:We recommend mentioniny any consuMptive use of these
spec i es \dth in the project area.
-Woodpeckers and Passerines:We recommend providing some discussion of the
importance of the area to migration,as \/ell as,breeding activities of these
birds.
-utper Basin Bird Communities:Please refer to our co~ents under Section
4.2 c)re the need to identify here how 1981 and 1982 data were combined,
!-given that Kessel et al.(1982)only includes data from 1981.
Last Paragraph:Please describe how these habitat types do or do not
correlate to vegetation types as now being remapped.
(d)Non-game (small)Ma~lrnals:We appreciate the thorough description of the
ecologlcal role Of smal I mali1ll1als in project area ecosystems.
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Iii
(ii)Habitat Use:We su~gest updating the discussion to correlate with
ongolny vegetation and wetlands mappin~efforts.
4.3 Impacts
(a)Hatana Development
(i)Hoose:Paragraph 1:Criteria for concluding that moose is one of the
IImost ili1portant ll species should be provided here.
Pa~~graph 2:We suggest that the proposed evaluation of carrying capacity
incorporate consideration of habitat values over the life of the project.
Please provide the referenced figure.Considering the severity of project
impacts by spatial areas to be affected and numbers as in Ballard et al.1982
(page 106)would improve the discussion.
We are further concerned with the inadequacy of the impacts definitions in not
accounting for impacts to special concentration areas (e.g.breeding),in key
seasons of use (e.g.calving),and under infrequent but critical conditions
(e.g.severe winters),and the overall interspersion and availability of such
important habitat features.
Paragraph 3:Lack of quantification prevents analysis of whether an impact is
half,tvJice,three times,etc.as severe as one of lO\Jer priority.Ue again
recorarnend integrating the analysis with that in Chapter 5 re also providing
and discussing data on hunting pressure and success here (see our comments
under Section 4.2(a)(i)•Mortality Factors).Please note provision of access
is a major indirect impact;additional developments or settlement sti~lulated
by this access would be a secondary impact.
Paragraph 5:We find the discussion entirely too general and inconclusive:
(1)there is no indication of the relative difference between IIsome ll moose
which will disperse,adapt,die,etc;(2)both overall cumulative impacts,and
secondary impacts from moose dispersing to adjacent areas are ignored;(3)
impacts on habitat values from increased use are not considered;and (4)no
explanation is given for how and when ongoing studies will IIrefine this
assessment.1I
-Construction:We are concerned that we have been given no opportunity to
comment on siting and scheduling for camps,townsites,etc.The location and
use of these ancillary project features will influence the magnitude of
resultant impacts.Alternative spoils sites have not been proposed,yet they
should be part of the discussion •
•Habitat Loss:Paragraph 1:We recommend including a more thorough,
quantitative discussion of habitat loss in the text.The necessary
integration of vegetation and ~Jildlife studies should include a discussion of
(remapped)vegetation losses relative to their value as moose habitat i.e.
~Jinter ranye,calving and breeding areas,etc.~e also see no quantification
of these losses over the life of the project,i.e.the area of each type which
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will be lost forever,vs the area which Hill be lost for some length of ti~e
during construction,vS-the areas in different successional stages throughout
reclamation.--
Paragraph 2:The paragraph is some\Jhat inconsistent with the Fishery
Section.Given the mitigation proposed in that section of clearing areas just
before flooding,successional growth develop~ent appears negligible (Section
2.4(a)(x)-Clearing the Impound~ent Area}.
paragraeh 3:Ongoing studies should be fully described.Please describe when
tfie habltat use analyses will be reevaluated on the basis of remapped
vegetation and forage quality studies.
Winter Use:.Para~raph 2:Please clarify the first sentence and
inconsistencies between that sentence and the previous paragraph.
Paragraph 3:It would be helpful to also express the number of moose in the
impoundment area as a density and compare that density to areas outside both
the impoundr.lent and project area.
Paragraph 4.We recommend that ongoing studies provide data for quantifying
the relative values (quantity and quality)of winter range within and outside
the ir.Ipoundl,lent area.Such information is necessary for determinin~
mitigation requirer.Ients.
Sprin~Use:Paragraph 2:Quantification is needed for the habitat areas
descrl bed here.
paragraeh 3:We recommend tying this discussion to project impacts on brown
bear WhlCh could cor"pound the predation problem.
Su~.ler and Fall Use:Para a h 2:We are assu~ing that ahead ing for
II-Disturance ll was 01i11tte JUS efore this paragraph.
paragraph 4:Since the magnitUde of project impacts would appear to
significantlY vary,depending on whether hunting and harassment of moose are
effectively prohibited,we suggest providing nbest n and nworse n case
scenarios.Those scenarios should be used to quantify potential losses of
habitat for comparing impacts and determining mitigation needs.
Paragraph 5:Please refer to our previous cor.~ents under Sections 4.3(a)(i)
f·100se and 4.3(a)(i)-Construction •Habitat Loss re the generality of this
discussion •
•Mortality:Please refer to our comments under Section 4.3(c}(i)•
•Alteration of Habitat:We suggest this discussion be dropped as
inapproprlateand unfounded.If this discussion only covers the construction
phase of the development,then we would assume there would be no chance for
successional growth.Moreover,the suggestion that moose could utilize these
disturbed'areas during construction conflicts with the previous discussions on
how disturbance and increased susceptability to predators would cause raoose to
avoid major activity centers and lar~e cleared areas.Ue also find the
suggestion that borrow pits may provide forage inconsistent with the Fishery
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Section 'rJhich proposes to make fish ponds out of the pits (Section 2.4 (c)(i):
Paragraph 2,Construction t·litigation).Please refer to our previous comli1ents
under section 4.3(a)(i)-Construction,.Habitat Loss re the unlikelihood for
forage development within the impound~ent area.Moreover,under •Permanent
Loss of Habitat,page E-3-287,moose use of the i~poundli1ent area prior to
filling is discounted.The need to resolve conflicts between sections of the
draft application is amply illustrated by the latter two points above.As \Ie
have recomr.1ended elsewhere,SOr.1e rolechanislil should be instituted for resolving
these types of conflicts and analyzing the tradeoffs of mitigatiny for one
species to the detriment another.
-Filling and Operation
•Perhlanent Loss of Habitat:Paragraph 1:As we cOlilltlented under Section
4.3(a)(i)-Construction,we are concerned with the lack of quantification.
Of all possible ir.1pacts,loss of habitat can be most easily quantified.The
analysis should include the area of each (rer.1apped)vegetation type which will
be inundated each year.
Paragraph 2:We again refer you to our cOr.1ments under Section 4.3(a)(i)
Construction re necessary quantification,study description,and incorporation
of study findings into the quantification of losses required under FERC
regulations (Section 4.4l(f)(3)(ii)in F.R.Vol.46,No.219,13 November
1981)•
•Alteration of Habitat
Upper Susitna Basin:We concur with the points raised here.Please refer to
our cOli1li1ents under Botanical Resources re the impacts of ice fog and rime ice
formation,as to well as need for quantification.The discussion should also
consider the effective loss of an even larger area than described here due to
dust from project activities which would further retard snowmelt (see Section
3.3(a)(i)-Vegetation Dar.Iage by \Jind and Dust).
Lower Susitna Basin:Paragraeh 2:Given a mid-successional stage of
approximatelY 25 years (see FIgure W4)and project life of 50 years plus
plannin~and development,we question the conclusion that vegetation favored
by moose will still be available at the end of the license period.Please
refer to our cOIi1T~ents under Section 3.3(a)(i)-Effects of Altered Downstream
Flows re quantifying these and other impacts described in the reli1ainder of
this section as well as discussing the potential for further alterations of
habitat because of ice fog and rime ice formation.
•Blockage of Movements:Given the potential for moose to avoid clear cut
areas (see dlscusslon under Section 4.3(a)(i)-Construction.Interference
with Seasonal Movements,page E-3-286),we suggest mapping the effective area
which could be eliminated from use.Some discussion should be prOVided on the
likelihood of moose crossing the flowing narrow river as compared to the wide
impoundJilent,plus drawdmm zone;maximum and minililum widths of the impoundlilent
should be prOVided.Also refer to our comments under Section 4.3(a)(i)•
River Crossings.Information presented here will be important to later -
considerations re choosing sites for habitat enhancements which may be
undertaken as part of mitigation.
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i~
Paragraph 5:Again,please detail ongoing studies •
.Disturbance:Once ~ore,we note the need to (1)consistently assess the
potential for increased access and hunting;and (2)integrate consideration of
this issue throughout the report.We again suggest listiny and analyzing the
iQpacts fro~alternative access and use options •
•Mortality:See comments under •Disturbance,above,the previous discussion
for Section 4.3(a)(i)-Construction,and Section 4.2(a)(i)•140rtality
Factors.Please define Hhen postulated increases in hunting win occur
relative to project development.
-uantification of Project Effects:\Ie appreciate this discussion of ongoing
stu les u note t at re erences to this section should be made throughout the
report.Once ~ore,we recommend including a schedule and describing how the
studies will be incorporated into the license application,project design,and
mitigation planning.Please note,references in this section are not included
in the bibliography.
-Watana:Sum~ary of Impacts:The summary is a useful,qualitative
description of project impacts,yet provides no quantification for minimal,
moderate,or severe impacts.The definitions given under Section 4.3 (a)(i)
r·100se:Paragraeh 2,should be restated if they are to apply here.To better
evaluate the"lfs"common to the discussion,we again suggest analyzing an
array of ililpact scenarios.Attention should also be given to the cUIi1ulative
illlpacts of habitat loss,alteration,disturbances,etc.\Je disagree \lith the
conclusion that IIbecause hunting mortality can be easily regulated,this will
not necessarily be a major impact.1I Because of the politics involved and
independence frot1 project developrilent of hunting regulations,there is no
guarantee that regulations consistent with project mitigation goals will be
iQplemented.Moreover,increasin~hunter demands for a dililinished resource
will further affect harvests and hunter satisfaction.
(ii)Caribou
-Construction:paragra~h 2:We recommend prOViding figures on the
proportion of the hera=w ich could be affected by borrow areas A,0,and F.
Although these areas will be only temporarily used ~/ithin the 50 year project
life,that temporary use involves several years.
-Fillin9 and Operation:para~raeh 3:Consideration should be given to the
future management options whic wlll be foreclosed with project develop~ent.
That is,now that the herd has recovered from previously low numbers,the
ADF&G could change their management goals,even before project construction
begins.We recommend considering loss of this management option in Qitigation
planning.
Parayraph 7:\Je recot~end also considering the compounding effect of
predation on caribou which become injured in crossing the reservoir or which
alter their ~ovements due to the presence of the reservoir.Predation was
earlier cited as responsible for up to 30 percent of annual adult mortality
(Section 4.2(a)(ii)).
(iii)Dall Sheep:Paragraph 2:Please clarify the last sentence.
Paragraph 4:Please provide information on when and how seasonal Dall sheep
ranges will be defined and used to influence siting and scheduling of possible
borrow site C.
Paragraph 5:Please document other cases where remote mineral licks have been
altered to remain available to wildlife;~ie are concerned with the unproven
effectiveness of enlarging the area if partial loss of the Jay Creek mineral
lick affects sheep.Thus there is a need to demonstrate the techiques to
ensure that sheep vlould use the mineral source if one ilere provided.
-Filling and Operation:The potential for disturbance from increased
recreational or hunting use in the area should also be covered here.
(iv)BrOim Bear
-Construction:pararaph 5:Please describe the scope and schedule of
ongoing studies and pans for inte~ratiny those results into project designs
and mitiyation planning.
Parayraph 6:We are concerned that the discussion downplays the importance of
~roject lmpacts from both disturbance and loss of additional food sources.
Original project studies 14 /and other reports15/emphasize that
disturbance fro~project features and associated human activities will cause
bears to avoid those areas.
Para~raphs 7 through 9:Two other impacts to vegetative food sources should
be alscussed here.Green-up of critical spring food plants may be delayed
because construction-caused dust may retard sno\fIi1elt on vegetation;at the
same time,herbaceous growth in summer may be increased (see the Botanical
Resources Section and our comments,Section 3.3(a)(i)-Vegetation Damage by
Wind and Dust and -Effects of Altered Downstream Flows.
Paragraph 12:We question the statement that,"No measurable changes in the
number of moose or other important prey species are expected."Previous lack
14/11iller,S.D.and D.C.McAllister.1982.Susitna Hydroelectric Project
Phase I Final Report:Big Game,Vol.VI -Black Bear and Brown
Bear.Prepared by the ADF&G for the APA.
1§!Spencer,D.L.and R.J.Hensel.1980.Environmental studies of the
proposed Terror Lake Hydroelectric Project,Kodiak Island,Alaska.
Brown bear studies;mountain goat studies.AEIDC.Anchorage,
Alaska 100 pp.
"""
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of quantification and the ongoing nature of salmon,moose,and caribou studies
make it difficult to fully assess project impacts to brown bear.However,
preliminary indications that up to 2,400 moose will be affected by the project
in the upper Susitna basin alone (Section 4.3{a}(i):paragraeh 4,page
£-3-280),and other report findings that "moose populations wlll probably be
reduced",(Section 4.3(a){vi):paragraph 5,page £-3-312)suggest that there
will be both losses and distributional shifts in brown bear prey,with
resultant ir.lpacts to brown bear.Brown bear concentrations on already fully
utilized adjacent ranges may result in intraspecific conflicts and further
decreases in brown bear populations (Spencer and Hensel 1980,footnote 15).
-Operation:Paragraph I:Our coments under -Construction apply here too
(Section 4.3(a){i).Please discuss potential impacts to bears resulting from
impacts to the salmon resource in greater detail.
Paragraph 2:Also refer to our comments under Section 4.3{c){i)re the need
to define access.
Paragraph 5:Please see our comments two paragraphs above (Section 4.3{a)(iv)
-Operation)on the need to better evaluate the importance of salmon to area
bears.Overall,we note the need to quantify impacts and discuss the
cumulative effects of project ir.Jpacts on brmm bears.
(v)Black bears
-Construction:Paragraph 1:As in our comments under brown bears,above
(Section 4.3(a}(iv}),we suggest that greater attention be given to impacts of
reduced prey,compounded here by the significant loss of black bear habitat
with the Watana development.
-Fillinand a eration:Para ra h 1:Please refer to our comments under
ectlon 4.3 a lV -onstructlon re project impacts to vegetation.Since
black bears will be subject to much greater impacts than brown bears,the
cumulative impacts of each additional project-caused stress could be severe.
Paragraph 2:We question the ability of habitats to the east and west of the
impoundr.Jent area to support bears now inhabiting the ;opoundr.Jent areas.If
those areas are already fully stocked with black bears,resultant
intraspecific strife and stress \iould ultimately lead to 10\ier populations.
Paragraeh 3:.We again refer you to our comments under brown bear (Section
4.3(a}(lv)}.Please describe ongoing studies and their integration with
project design and mitigation.
(vi)Wolf:para~rath 3:Please refer to our cor,lr.lents under Section
4.3{a)(xii)re t e w1kelihood for \iolf populati'Ons to decrease and coyote
populations to increase in the project area.
Last Paragraph:Given the increased access expected with project development,
an increased wolf harvest appears likely.We recommend that a quantification
of project impacts should consider the effects of an increased harvest on wolf
population levels.The cu~ulative impacts of (1)wolves concentrated in a
smaller area due to disturbance,(2)effects on territoriality and stress,(3)
relative values of impacted as compared to reQaining habitats,and (4)
reduction in prey,should also be considered here.
(ixl Beaver:lie question the certainty of the statements here,given the
undeclded nature of the project water management regime.If reservoir
releases are regulated to stabilize downstream flows,downstrea~beaver
hab itats may be enhanced.However,the extent to \ih ioh that enhancer.lent wi 11
offset beaver losses in the upper Susitna River basin is not provided.Such
data is necessary to evaluate the relative tradeoff in alternative flow
regimes (i.e.,for beaver,fish,lilOose,etc.)and th.us the overall r.lagnitude
of project impacts.
-Construction:We recommend that the location of beaver colonies be
considered,in conjunction '(lith other wildlife values,in siting borrow area
access roads.
-Filliny and Operation:paragra~1:Please quantify "few beavers"
currently supported by the impoun lent area.
Paragraph 4:Refer to our co~ents under Section 4.3(a)(ix),above;we
recon~end using hydrologic data in conjunction with the revised vegetation
maps and vegetation succession dynamics to quantify the areas which rilay be
affected under different flow regimes.We find SOrile inconsistency between the
staterilent here that,"Beaver habitat south of Talkeetna may also be enhanced
as a result of the increased occurrence of favored food plants (page
E-3-316),"and the statement in Section 4.3(a)(i)that,"few changes are
expected in channel morphology,frequency of flooding,or vegetational
succession"(page E-3-289,paragraph 1).
Paragraph 5:During the August 1982 AEA ~orkshop on the Susitna project,
access was considered as much of a limiting factor to trapping pressure as Has
pelt price.This section justifies our mitigation recor.~endations under
Section 4.4(b)for alternate access routing,restrictions on use of access
routes,and prohibition of trappin~by construction workers.
(x)~'Iuskrat:Paragraph 1:~Je find no section correlating to the referenced
Section 3.3(a){ix).Please define "minor"i~pacts.
Parayraph 2:Please refer to our previous comments on quantifying
ir.lprovements in downstream habitats under Section 4.3(ix).Accordingly,He
question the content ion that,"Iraproved downstrear,l habitat wi 11 probably
compensate for this loss."
ParagraEh 4:Again,refer to our comments under Section 4.3(ix),re
mitigatlon of trapping impacts.
(xi)Mink and Otter
-Upstream Effects:1·le recommend defining IImoderately abundant"and
IIsubstantial impacts.II Other than lacking quantification,the discussion
thoroughly describes potential project impacts to mink and otter.Please
clarify the reference to "65m"in Paragraph 3.
co
-
....
-Downstream Effects:We suggest the discussion be expanded to better explain
the re1ative~agnitude of project impacts to mink and otter.Since there was
no previous quantification of those populations,we find it difficult to
evaluate the significance of these impacts.
(xii)Red Fox and Coyote:Where human activities have'developed in a
previously undisturbed area,coyotes have become abundant while fox numbers
have decreased (Furbearer Study Coordinator Phil Gipson,personal
cor.1Ii1unication).For example,in the Cantwell to Healy corridor there has been
a markea increase in coyotes with increasing numbers of people and area
developments.Researchers believe there has been a corresponding decrease in
both fox and wolf nur.mers,although both those species pass through the area
from undisturbed habitats in the adjacent Denali National Park.
Per our comments on other furbearers,quantification of relative area
populations,habitat quality,and trapper demand and harvest is necessary to
fully evaluate project impacts.
(xiii)Other Furbearers:Again,quantification is needed re base line
populations,habitat quality,and use,in order to fully evaluate project
ir.1pacts.
parafiraph 3:Note should be made of the previous years'trapping activity
~/hic Iilay be responsible for 10\/trapping success of pine Iilarten near \Jatana
Creek (Furbearer Study Coordinator Phil Gipson,personal comlilunication).
partyra~hb1:\Je suggest considering additional parameters for evaluating pine
mar en a ltat quality (e.g.the availability of berries is important as late
su~er/fall food)in conjunction with remapped vegetation types to reevaluate
ililpact estimates.
paragraah 6:\Je question the extent to/which sno\/shoe hare habitat may be
improve~by revegetation of disturbed areas,given the rnuch larger arnount of
habitat which will be destroyed by the project and historically low hare
populations in the basin.
Paragraph 8:No correlation is made between "r,loderate ll levels of disturbance
from logging and different levels of disturbance from the project re the
applicability of these references to project impacts.
(xiV)Raptors and Raven
Paragraph 4:In order to understand the relative magnitude of project
;r.1pacts,~/e recolilllend di sCtJssing the est imated loss of go 1den eag 1es in terms
of project area populations and habitat values.
Paragraph 5:Please clarify the stater.1ent that potential downstream nesting
habitats may becorne more important as upstream habitats are lost with project
development.\Jhether dotlnstrearn habitats are fully utilized,their value
compared to upper basin habitats,and potential disturbances from other
project activities should be described.
Paragraph 9:Please clarify \Yhether downstrear.l raven habitats could absorb
use by ravens displaced fro~upstrea~habitats.
Paragraph 10:The blowdown of trees near cleared areas represents an
additional source of habitat loss (e.g.see Section 3.3(a)(i)-Vegetation
Damage by Wind and Dust)•
.Bald Eagles:Paragraph 3:We recommend describing the overall impacts of
the project on salmon and other fish which serve as bald eagle food.Such
consideration should include potential impacts to smelt runs near the mouth of
the Susitna River.Any impacts to these resources could affect eagles now
depending on them as food.
Paragr~:We question the significance of any compensation for lost eagle
feedinglnaoitat through attraction of waterfowl to the impoundment.Please
quantify the potential for such compensation and/or provide an explanation of
why waterfowl may be attracted to the reservoir without a concomitant increase
in their food sources (also see our comment under Section 4.3(a)(xv)
Waterbirds,below).
-Disturbance:Paragraph 1:We appreciate the description of protection
afforded eagles under the Bald Eagle Protection Act (16 U.S.C.668-668c).
However we are concerned that the intent of this act relative to project
design has not been adequately acknowledged or incorporated,as explained
be 1O\J.
Parayraph 6:Under a recent amendment to the Bald Eagle Act,the Secretary of
the Interior may permit the taking of golden eagle nests which interfere with
resource development or recovery operations (16 U.S.C.668a).Regulations for
implementing this amendment should be available within the next couple of
months.
Paragraph 7:The Bald Eagle Protection Act does not authorize the taking of
bald eagle nests which interfere ~Jith resource development or recovery
operations.The Act does provide for the taking of nests for scientific and
certain specific exhibition purposes when compatible with the preservation of
this species.Service eagle permit regulations,50 C.F.R.22.21,implement
this section of the Act.Secretarial approval is not required for the taking
of bald eagle nests in Alaska provided no eagles are killed and the nest is
not exported from the United States.Authority to take such nests has been
delegated to the FWS Regional Director.\Ie suggest that the applicant
promptlY consult with the FWS to reach a mutually satisfactory solution to
this potential conflict.
(xv)Waterbirds
-Habitat Alteration:Paragraeh 2:Please substantiate that "fish
populations wll1 probably remaln sufficient ll to support birds such as
mergansers.Accord ing to lleeting Summary notes frorll the 2 December 1982,
Susitna Hydro Exhibit E Workshop on Water Use and Quality and Fishery
Resources,most of the grayling population (estimated to be at least 10,000 in
Section 2.3(a)(ii)-Watana Reservoir Inundation)will be lost and any
production of lake trout is expected to be limited.
"""I
Paragraph 3:\Je suggest quantifying the number of lakes,miles of strear.ls,
and acres of wetlands (per revised wetlands typing)\'ih.ich may be affected by
project borrm'i areas,spoils sites,etc.,as \/ell as those \/hich \'Ii11 be
co@pletely lost.\Je recom~end including those habitat types in Table W78a.
This information will allow better quantification of project i~pacts.
Paragraph 4:Please substantiate further the value of the reservoir as
habitat for migrating birds.Since existing resident fish populations are
expected to be severely impacted by reservoir develop~ent and no biologically
productive nearshore zone will be developed,we question that there "'/ould be
food necessary to support birds attracted to the reservoir.Moreover,winter
open water areas could attract waterbirds to their detriment,particularly
since food supplies are already li~ited.Swans attracteu to open water at Red
Rocks Lake National Wildlife Refuge in Montana must now be fed during winter;
similar problems have occurred in other areas of the conterminus United States
(FWS Higratory Bird t·lanagement Project Leader Rod King,personal
communication).
-Disturbance:Paragraph 2:We suggest that greater emphasis be placed on
the potential for the project to disturb trumpeter swans.Recent increases
and overstocking of swans in the Gulkana Basin may result in more swans moving
into the upper Susitna Basin (FWS ~ligratory Bird Management Leader Rod King,
personal co~unication).Yet those habitats will become less suitable with
the human activities and disturbances cause by the project.As areas in the
Cook Inlet Basin and Kenai Peninsula have been affected by human use and
deve1op~ent)swan use of those areas has shifted to areas largely inaccessible
to peop1e.~
(xvi)Other Birds
-Construction
•Habitat Loss:We appreciate the thorough,quantitative discussion included
here •
•Habitat Alteration:We suggest that species and their relative abundance be
corre1ated to the postulated negative and positive effects of habitat
alteration.This would provide some indication of net project impacts.Loss
to the Uatana irllpound~ent of existing natural edge,e.g.rivers,ridgetops,
etc.,will undoubtedly be far greater than the increases in edge suggested
here.
-Operation:We question whether any feeding habitat for spring migrant
shorebirdS-will be created in the drawdown zone.The reservoir drawdown zone
\;1111 re~ain an unveyetated mudflat.If current low bird populations indicate
lack of hi~h quality habitat,it seems doubtful that food organisms would
suddenly prol iferate with reservoir development'..
l§I King,J.G.and B.Conant.1981.The 1980 census of trumpeter swans on
Alaskan nesting habitats.Ar.1erican Birds 35(5):789-793.
(xvii)Non-game (small)~·1amr:lals:For small r.Jar,lmal species \/l1ich inhabit
identlflable vegetation types,we suggest describiny whether the percent of
the habitat to be lost is proportionately yreater or less than the occurrence
of the type within the entire basin.
lPl Devil Canyon Develop~ent
(i)I'loose:Convert ing the number of filoose in the Dev i1 Canyon impoundment to
a density figure and then comparing that to a similar figure for the Watana
impoundment would allow a better quantitative comparison of impacts.We are
concerned with the judgemental nature of the discussion in stating that
impacts "are of less concern"and suggest that,"will be of smaller magnitude"
might improve the statement (pge E-3-338l.The smaller area of the Devil
Canyon as compared to ~atana area should also be mentioned,although we do
note that moose density here is about half that of the Watana area.An
evaluation of relative habitat values of the adjacent areas which will be less
directly impacted,and any lands proposed for acquisition or enhancement,is
necessary for a complete impact and mitigation anaysis.
-Construction:Again,spoils disposal is an additional impact which should
be described.
•Habitat Loss:Our comments under this heading (Section 4.3(a)(i)),for the
\/atana development also apply here.
•Interference with Movements:The discussion should consider whether a 1.6
km crossing would also be a barrier to Qoose in that area or moose diverted
from upstream crossings because of the Watana impoundment.Quantification
should also be provided of the additional distances which might have to be
traveled and consideration given to additional energy expenditures relative to
foraye quality should moose alter their movement patterns.Also refer to our
cor.lr.1ents under this heading,Section 4.3(a)(i),for the Watana developr.lent.
•Disturbance:Please refer to our comments under this heading,Section
4.3(a){;),for the Watana development.
-110rtality:As above,our IJrevious cOf.lr.1ents under Section 4.2(a)(i)
•Morality Factors;4.3(a)(i)-Filling and Operation,•Disturbance;and
4.3(c}(i}-Mortality apply.
-Filliny and Operation
·Alteration of Habitat:Please refer to our comments under this heading,
Section 4.3(a)(i),for the ~atana development.We are concerned that
increased water temperature could result in a larger area being affected by
ice fog and rime ice formation,also see our co~ments under Section
3.3(a)(i).~e again reco~end quantifying several impact scenarios re
successional vegetation changes from any of the impacts discussed here.
•Interference with r,1ovements:By reducing browse availability due to rime
ice formation,the presence of ice fog could be a compounding impact to moose.
~1oose ~ovements may already be inhibited because of greater visual exposure to
predators in the vicinity of the reservoir.\Je refer you to our cor.Jments
under the Watana develop~ent (Section 4.3(a)(i)-Filling and Operation.
Blockage of MoveQents).-
.-
·Disturbance:Again,our cOlilli1ents for Watana (Section 4.3(a}(i)}apply.
·Mortality:Please refer to our previous comments on hunting (Section
4.2(a)(i)•nortality Factors,and Disturbance and t'lortality discussions under
Section 4.3(a)(i)).
•Devil Canyon:Sur.lmary of 1m acts:As we commented on the Uatana impacts
sur.lmary,quantl lcatlon an etter definition of impacts is needed here.\Je
are also concerned about inattention to cumulative impacts.While habitat
alterations,disturbance,or blockage of mover.lents may each be a "lilinirnaP
impact,together they may be sufficient to severely stress moose or reduce
moose use of the project and adjacent areas.
(ii)Caribou:Definitions for the qualitative terms used here should be
provided (e.g."1ittle use ll ) •
(iv)Brown Bears:Lack of quantification here,as in Section 4.3(a)(iv}
precludes evaluating evenr.elative impacts fror.,each r.Tajor project feature.
(v)Black Bears:As in Section 4.3(b}(iv)above,lack of quantification
prevents a thorough analysis.Consideration should be given to the cumulative
effects of disturbances,loss of habitat,decrease in habitat value,and
increased r.lortality from human/bear conflicts from the Devtl Canyon
development in conjunction with the \Jatana development.
(vi)\~o1f:Please refer to our comments under Section 4.3(a)(vi)re the
importance of disturbance and cumulative ili1pacts.
(ix)Beaver:Refer to our cOli1ments under Section 4.3{a)(ix}re the need to
quantify the amount and quality of downstream habitat ir.1provements which could
offset upstream habitat losses and the dependence of any habitat improvement
on the operating flow regime.We suygest describing impacts under a variety
of potential flow regimes.
(x)Muskrat:Please refer to our previous comments under Sections 4.2(b}(ii}
and 4.3(a)(ix}-Filling and Operation re quantifying and controlling
potential increases in trapping.
-(xi)I·link and Otter:Again,we recommend providing some quantification,
definition,or relative correlation among species and project areas for the
qualitative impact descriptions.
(vii)Co ote and Red Fox:We would expect an increase in coyotes per our
prev i ous cOlilJi1ents Sect i on 4.3 (a){x i i})•
(xiii)Other Terrestrial Furbearers:Our comt'i1ents under Section 4.3(a)(xiii}
apply here too.
(xiv)Raptors and Ravens
-Construction and Filling
.Habitat Loss:Paragraph 1:Refer to our com~ents under Section 4.3(a)(xiv)
-D1sturbance.
Paragraph 2:Should any eagle build a nest,between now and fining of Devil
Canyon Reservoir,which would subsequently be lost in construction and/or
filling of Devil Canyon,please refer to our comments under Section
4.3(a)(xiv)-Disturbance.
Paragraph 3:Please clarify what is meant by the first sentence.
para~ra1h 4:Please refer to our comments under Section 4.2(c)(i)re the
clifflCU ties in locating goshawk nests.
Paragraph 5:Please clarify the discussion and consider whether the cliffs
and trees \-Ihich filay increase in nesting importance are as suitable as existing
nest habitats •
.Disturbance:paragraeh 1:Again,please refer to our cor.~ents under
Section 4.3{a)(xiv)-Dlsturbance.
Paragraph 2:See our comments under Section 4.3(b)(xiv)this section,.t!.abitat
Loss:Paragraph 2,above.
(xv)Waterbirds:Please refer to our comments under Section 4.3(a)(xv)as to
the questl0nable value of the reservoir area,i.e.generally birds will not
appear in the area any earlier;birds which remain in the area longer may have
problems finding food when encountering frozen \/aterbodies once they do leave;
no data has been provided re any supplemental food value in the reservoir area.
(xvi)Other Birds:Paragraph 2:Please clarify the last sentence.
Paragraph 3:Please quantify the extent to which open water in the reservoir
win compensate for loss of dipper breeding habitat and describe what feeding
habitat would be available in the reservoir.
(xvii)IJon-galile (small)t·1ali1mals:Please refer to our cOli1ments under Section
4.3(a)(xvi).
(c)Access
(i)l;loose:The qual itative,general discussion precludes any definitive
analysis of potential impacts.We suggest quantifying current and potential
hunter demand and harvests,area moose populations and habitat quality for
access route areas.Varying degrees of winter severity and the length of each
access link should then be considered in conjunction with the information
described above and data on vehicle/moose collisions in other areas of the
state to assess the potential for railroad or automobile collisions with moose.
Since access is a key feature to any mitigation plan for the project,we again
recom~end evaluating the range of i~pacts which would result from a variety of
access/use options and coordinating this with the Socioeconomics and
Recreation Chapters.Please refer to our 17 August 1982 letter to Eric Yould
re access alternatives;our COIJQents there remain applicable.
-
Please correct internal inconsistencies in this paragraph:loss and
alteration of habitat,disturbance,and ~ortality are certain,not ffpossible",
impacts as verified in subsequent portions of this section (page E-3-350).
Maps of proposed access routes should also be included.
-t10rtality:Paragraph 2:Before discussing impacts from access,please
specify any pUblic access and hunter take restrictions assu~ed to be in effect
for planning,construction,and operation phases of the project.Impacts will
vary from severe with no restrictions to ~inimal with strong restrictions on
access.In this respect,\le find Chapter 3 confusing.The potential impacts
fro~public access and hunting along project access rO'utes are discussed here
and then the suggestion is made that these impacts will be minimized by
prohibiting worker access and hunting,yet the chapter never consistently
describes what restrictions actually will apply.Project impacts,such as
habitat degradation and population disturbance associated with increased
access,could be further minimized by controlliny public access (through
restrictions on DRVs,seasons or times of day of use,etc.).
Please substantiate the conclusion here that "carefully managed hunting ~ay
effectively mitigate for some indirect project effects.II The impact of
diminished hunter opportunities is not fully described here or in Chapter 5
(see our comments there,Section 3.7(b)(ii)-I~pacts on the Hunter).
Paragraph 4:Please define use of the terms "small"and "negligible."During
severe winters,moose may seek cleared roadways as travel corridors and be
subject to collisions.Since the Denali Highway is not kept open during the
winter,it is not possible to fully compare the collisions on that road with
the potential for collisions on project access roads.However,we suggest
that a better understanding of the subject could be gained with information as
described under Section 4.3(c)(i),above.Ue also note that if Horkers are
allowed to commute to the project site or have free access in and out of the
project area,the volumes of road traffic would be significantly higher.The
analysis should be coordinated with that in Chapter 5.Consideration should
be given to the times of year and day for recorded collisions and utilized in
scheduling access if patterns exist in that infor~ati6n..
Parayraph 5:Please describe current railroad use as compared with the
projected additional eight round train trips each week.~e believe that
project railroad use ~ay be a significant impacts to wildlife in view of
present winter use of four round trips each week.
The length of additional track,as well as existing track,should also be
given for comparison \dth the mortality figures given here.Information on
r.loose densities and habitat values in the area of the new as cor,lpared to
existing railroad \/ould also be helpful in quantifying potential impacts,as
described above.~Je are concerned that in severe winters the loss of winter
range may be compounded by the potential for nu~erous vehicle/moose collisions.
•Loss of Habitat:We concur with the analysis but suggest some
quantificatlon be made of areas and vegetation types \'1hich could become
-f-i5-
unuseable in a worst case scenario \/here disturbance causes ~oose to avoid
usin~the road corridor area •
•Interference \/ith Seasona 1 r'love~ents:With respect to the seasonal
~igrations described here,please refer to our CO~lQents under Section
4.3(c)(i)-Mortality,re the cOQPounded potential for even greater numbers of
vehicle/~oose collisions.
(ii)Caribou:para~raph 1:We reiterate our recomfuendation to eliminate the
Denali Highway to Jatana access route (also see Section 3.4(c)(ii))which,as
documented here,is "1ikely to have a substantial effect on caribou movements."
Paragraph 6:Please provide substantiating data for the judgment that
although cows calving in the area may avoid the road,there will not be an
effect on herd productivity.~Je recoramend quantifying the portion of the herd
utilizing this area.
Paragraph 7:Please provide further information on times of day or seasonal
variations expected for truck traffic.An additional concern in considering
the potential severity of access-related impacts is the question of worker
access.If project \/orkers are all housed on site,the intensity of road use
will still be greater than described here;workers traveling to and from the
site at the beginning and end of their times off represent a substantial road,
or even airstrip,use.Moreover,if workers are allowed to individually
cOQrnute,or even if buses are used on a daily or \/eekly basis,road use will
be even ~ore significant.
Paragraeh 9:Our previous comments on herd management apply (Section
4.2(al (11)).\Je recommend quantifying ir.lpacts described throughout this
section.
(iii)Dall Sheep:Paragraph 1:The issue of disturbance fro~air access to
the project should be covered here;as described in Section 4.3(a)(iii).
Please provide information on the expected intensity of aircraft use for the
period of construction.
paragraeh 2:Consideration should be given to increased recreation and other
activitles which may compound habitat loss impacts near the critical Jay Creek
~ineral lick.Please restate those i~pacts as described in Section
4.3(a)(iii).
(iv)Brown Bears:We concur with the assessment but recomruend that
quantification of impacts be provided.
(vi)Wolf:Our previous comments under Section 4.3(a)(vi)apply.
(vii)Wolverine:paragra1h 2:Quantification of trapping effort and potential
increases relative to wo verine populations should be given.Please justify
the inference that emigration from other areas will mitigate for loss of
wolverine to trappers yet not affect overall populations.
-~
-
(viii)Furbearers:In general,we find the discussion somewhat inconsistent
with other sections,with no clear objectives outlined for ~itigation (see
paragraphs 2,8,and 9 of this section).Please also re~er to our corn~ents on
the socioeconomics (Chapter 5,Section 3.7 (c)(i)-Impacts of the Project)
and our recomr.1endations under the \iildlife mitigation plan (section 4.4(6)).
\Je recommend you then ensure these sections are consistent with each other and
with overall project objectives and mitigation goals.Specific comments
foll O\i.
Paragraph 1:Please provide further data to substantiate the conclusion that
pine marten ho~e ranges may become realigned along the access road.Although
we appreciate the thorough discussion of potential project impacts,we are
concerned that repeated lack of quantification makes if difficult to assess
the relative importance of such "minor 'l impacts as compared to the more severe
impacts of direct habitat losses and increased trapping mortality.
Paragraph 5:The \iell-documented likelihood of beavers using bridges and
culverts for damsites more probably represents further negative impacts to
beaver than a source of habitat improvement.Beaver use of those structures
\Jould conflict with project access,undoubtedly resulting in road maintenance
to remove beaver dams.If that removal occurs at the \Jrong title of year,i.e.
autumn,beaver in the area may be effectively eliminated (Furbearer Study
Coordinator Phil Gipson,personal communication).
Paragraph 9:\Je are concerned 'ilith use of the word Ildesirable."Thus we
suggest modifyiny the last sentence to say that to date,trapping pressure on
mink and otter has been low in this part of Alaska (Furbearer Study
Coordinator Phil Gipson,personal communication).
(ix)Raptors and Ravens
-Denali Highuay toWatana Darnsite:Paragraph 1:We recomrolend describing hO\i
this area was surveyed.
paravraph 2:Our comments under Section 4.3(a)(xiv)-Disturbance would apply
shou d golden eagles subsequently nest along the access road.
Para<Jraeh 3:Refer to our comments under Section 4.3(a)(xiv)-Disturbances
re the l11egality of destroying a bald eagle nest.
-~latana Dam Site to Devi 1 Canyon Dam Site
•Disturbance:We again refer to you to our comments under Section
4.3(a){xiv)-Disturbance.
-Devil Canyon Dam Site to Gold Creek
•Disturbance:We recommend that the conclusions of minitlal disturbance here,
6e conslstent with those in Table \J76 which says that "construction and
operation activities may result in considerable disturbances.1I If the nest is
active,we will recommend timing constraints on the construction activities
near it (see Section 4.4(c)(i)).
i I
(d)Transmission Lines As with the previous Section 4.3,(c)Access,the
severlty of impacts from the transmission lines will depend on restrictions on
access (e.g.by siting,access to the lines,and/or access along the lines)as
well as the methods of construction and maintenance (e.g.helicopter,winter,
and/or onground).Please c1arify \"hat methods and schedule for construction
and maintenance will be utilized and what restrictions,if any will be placed
on access;we find the Exhibit E inconsistent on these points.The reference
here is to helicopter and winter construction and only selective clearing of
vegetation;in Chapter 5,reference is made to increased hunter access along
the lines which infer greater clearing and road access (Section 3.7(c)(i)•
Impacts of the Project).Increased snowmobile and ORV access and their -
disturbance along the transmission corridors should also be addressed here.
Our cor.~Jents under (Section 4.3(c))Access on the need to quantify expected
additional harvests also apply here.
Please refer to our transmission corridor comments under Botanical Resources,
Sections 3.3(d)and 3.4(d).We refer you to our 5 January 1982 review letter
on the 9 November 1981 Transmission Corridor Report.Our com~ents there
remain applicable.In particular,we recommend incorporating into project
plans:(1)on-ground evaluations with representatives of the FWS,ADF&G,and
the Alaska Plant Materials Center regarding the appropriate management along
various lengths of the transmission lines (e.g.the extent of clearing,
maintenance,poss'ible seeding,etc.should depend on the wildlife species of
concern and vegetation types present;(2)coordinated access to the
transmission lines with access to other project facilities;(3)controls on
public access to the transmission lines during and post-construction to reduce
habitat degradation and population disturbances;and (4)controls on access
along the length of the lines.We would appreciate your response where
project plans may be in conflict with either these paints or the five specific
recon~endations in our January letter.
We are concerned with the generality and lack of quantification of this
section.Using the vegetation remapping,a successional model should be
applied;the selective clearing and maintenance to be used along the
transmission lines should be factored into that model.Areas within each type
to be impacted and vegetation type changes over the project life can then be
calculated.r·1aps of the proposed transmission line corridors should also be
provided.
(i)Bi~Game
-Cook Inlet to ~JillmJ:Paragraph 1:Again,the degree of ili1pact will depend
on the type of clearing and maintenance and thus,habitat alterations which
result.\Je have recommended selective clearing,winter and helicopter
construction and Iilaintenance and controlled access alonq the line.
l·taintenance should involve selective clearing and topping of trees and tall
shrubs to help maintain increased forage production.We agree that
transmission line clearing ~ay increase moose and black bear carrying
capacities if vegetation types which can be enhanced are present along the
line.Thus-We reco~end quantifying the types present and their value to big
game.
paraGraph 2:Please describe the presence or absence of ~oose calving grounds
and ear denning sites.The cu~ulative i~pacts of the trans~ission lines in
conjunction with existing disturbances should be discussed.
-Healy to Fairbanks:Again,quantification of types to be i~pacted and
successional changes over the project life should be provided.
-WillO\I to Healy:Please refer to our 5 January 1982 letter regarding the
dependence of the Susitna project on the Intertie.Thus,we reco~~end full
consideration of impacts from the Intertie ~Jithin this analysis.
Quantification of impacts is needed,as above.
-Uatana Dam to the Intertie:Please provide a quantification of impacts,as
above.
(ii)Furbearers:Para a h 3:Please refer to our coments under Section
4.3 c V1l1 re lnCOnslstencles between Chapters 3 and 5 in presenting
impacts.Ue are also concerned with inconsistencies between the increased
access acknowledged here and mitigation guidelines to prohibit such access
(Appendix EE,item l);please clarify.Our previous recommendations to
quantify impacts apply here too.
(iii)Birds:Paragraph 1:We recommend providing references for the broad
conclusion that species diversity may increase near the transmission lines.
Removal of nest and forage trees will decrease available habitat for species
such as pine grosbeak and boreal chickadee.
paragraeh 2:We concur.Please also refer to our co~ments under Section
4.2(c)(1)re continuing peregrine falcon surveys.
Parayrapn 4:PO\Jerlines are particularly deadly to s\lans •..!§!HO\vever,
r.lorta1ity fror.l collisions,not electrocution,is the ~ajor adverse ili1pact to
swans.Locating and ~arking lines is the key to minimizing that i~pact (see
our cor.~ents under Section 4.4(c).
~Je reco~mend expanding this discussion to describe:(1)the potential for
swan collisions;(2)miyrations of swans throuyh the project area;and (3)
swan use of relilote lakes,including those in the r··latanuska-Susitna Va11ey,for
nesting and rearing.Refer also to our comments on increasing developli1ents
and disturbances which have caused swans to abandon areas,Section 4.3(a)(xv)
-Disturbance,and our 5 January 1982 letter to Eric Yauld,as above.
(e)Impact Summar¥
We are concerned with the emphasis of this sUrnli1ary on impacts which can be
most easily mitigated.Consideration should also be given to documenting
unavoidable,adverse i~pacts,cumulative project impacts,and differences
between long v~rsus short-term impacts.The uncertainty if predicting project
impacts on the basis of existing inforr.Jation are clearly apparent here.
16/Avery,M.~.,P.F.Springer,and r~.s.Dailey.1980.Avian mortality at
man-made structures:an annotated bibliography (revised).U.S.
Oepart~ent of the Interior,~IS/OBS-80/54.
Parayraeh 2:We concur that increased human use is positive,but the habitat
alteratlon and disturbance which may also result from increased access are
often a significant negative i~pact to \Jildlife populations.There is a need
to integrate this discussion with those in the Socioeconomic and Recreation
Chapters of the Exhibit.
para~ralh 3:~Je recor.u.lend also considering habitat values and hO\'J they relate
to wlld ife populations over the life of the project.
(i)Big Game:Paragraph 1:As above,the increased access afforded to
fiunters is more of a concern from the standpoint of resultant population
disturbances and habitat alterations;assuming that harvest is regulated to
protect population levels.
Paragraph 3:We are concerned with the subjectivity of the first sentence
here.Please provide quantitative data for co~parison with the previous
paragraph to justify the relative magnitude of project i~pacts.
~lention should also be made that project impacts will be particularly critical
during years of severe winter.During such years,an additional i~pact to be
considered would be moose/vehicle collisions.Cumulative i~pacts are also of
concern \l1th moose.
Para9raph 4:Inability to predict major impact on caribou,as cited here,is
a serious data gap.Ue recommend describing additional infor~ation to be
gathered to help make such predictions.Best and \Jorst case i~pact scenarios
should be described to provide at least an indication of how caribou could
suffer from increased disturbance,impacts near calvin~areas,and alterations
in seasonal movements.
paragraph 6:Again,cumUlative i~pacts are a concern in evaluating overall
project impacts to both bro\m and b1ack bear.
Para9\a~h 7:0i sturbance frol'i1 increased access and the presence of hUl;1an
activltles should be the more direct concern here (please see our co~ments
under Section 4.3(a)(vi)).
(ii)Furbearers:Para9:~1:We again note the potential for red fox
populations to decrease as coyote populations increase (please see our
cOl'i1rnents under Section 4.3(a)(xiii).
para~raph 2:~le suggest clarifying these conclusions to be consistent with
prevlous lmpact descriptions,e.g.Section 4.3{a){ix),paragraph 1,page
E-3-315,says beaver populations are likely to increase,this paragraph says
they IImay increase,II downstreal'i1 (page E-3-371).~Je again recOT,lmend describ ing
the water management regimes under which furbearer populations will l'i1ost
likely benefit.Overall,\Je are concerned with the uncertainties expressed in
this discussion and reco~Jend that additiona1 furbearer work to satisfy these
uncertainties be considered (e.g.\Je suggest focusing on beaver and pine
marten per our co~ents under Section 4.4(b)).Since i~pacts to valuable
habitat in the vicinity of Deadman Creek can be mitigated,by alternative road
siting,they should be described here.
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(iii)Birds:Ue recommend also describing the negative impacts from swan
collisions and raptor electrocution with transmission line development.
Similarly,disturbance to nesting swans and raptors is another negative impact
which should influence mitigation planning.
4.4 Mitigation Plan:As was the mitigation plan for Botanical Resources,~/e
find the mitigation plan for wildlife incomplete and too general.Our
detailed co~ents on lack of quantification,lack of integration with other
resources evaluated,and need to consider the full range of mitigation options
possible should be considered here as well (see Section 3.4).
Because the \111dlife analysis is much more qualitative than quantitative,we
common ly found the emphas is on minor impacts rather than on r.lajor ones.A
sir.iilar misemphasis is in the mitigation plan,where attention is often
focused on small,more easily mitigated impacts.Alternatively,severe
impacts are left to undefined and uncertain mitigation measures such as later
habitat enhancement and/or lands acquisition.Please refer to our earlier
comments on the need to clarify overall project mitigation objectives (Section
4.1)•
This section should clearly explain why mitigation measures already
recommended by FWS and other resource agencies have not been adopted.For
example,negative impacts to wildlife from the Denali Highway to Uatana
development access route are consistently documented throughout the report:
the road will result in substantial disturbances;the Deadman Creek area
paralleling the road is particularly important habitat to numerous \/ildlife
species (e.g.calving moose,Section 4.2(a)(i)-Distribution •s~ecial Use
Areas:Calving Areas:paragraph 2;brown bear denning,Section 4.(a)(iv)-
Construction:Paragraph 10;caribou movements,Section 4.3(c)(ii);\Iolf
denning,Section 4.3(c)(vi);valuable beaver habitat,Section 4.3(c)(viii);
bald eagle nesting,Section 4.3(c)(ix),etc.).Mitigation of these impacts
can be effectively accomplished by completely avoiding the impact,that is,
alternative siting as recoll1t1ended in our 17 August 1982 letter to Eric Yould
and further detailed in our comments on the Botanical Resources r.1itigation
plan,Section 3.4(c)(ii).
We also request that you (1)confirm the inclusion of reco~ended measures in
project design,and (2)clarify the extent of public access and uses in the
project area throughout planning,construction,and operation of the project.
For example,please specify the extent to which the environmental guidelines
in Appendices EA to EE have and will be guaranteed in project design and
operation.
Establishment of a monitoring and follo\l-up program for all phases of project
construction and operation is an essential feature of the mitigation plan.
Key components of this program are that it:(1)include appropriate Federal,
State,and local ayency participation;(2)be fully supported by project
funding;and (3)be utilized to modify,delete,or add to the mitigation plan
in response to both information from ongoing studies and needs which becor.1e
apparent as project impacts are realized.Uhile monitoring by itself is not
mitigation,actions taken as a result of that monitoring can ensure the
effectiveness of the implemented mitigation plan.
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Our final general recor.~endation on the ~itigat;on plan is that continuing
consultation between the license applicant and resource agencies include
initiation of working sessions with project design engineers to fully
incorporate wildlife ~;tigation plans.
(a)Big Game
(i)Moose:Paragraeh 3:We concur with the processes now being used to
quantify probable l~pacts of habitat loss and to develop selection criteria
for replaceQent lands.Our previously described concerns for the need to
evaluate habitat values are of particular note here;habitat quality ~ust be a
factor in quantifying the areas of specific land parcels which are to be
enhanced or acquired as ~itiyation.A schedule for the availability and
incorporation of this data into project plans is also needed.Some assess~ent
should be made of the locations and potential sizes of such areas.
Paragraph 5:Further details should be provided on the schedule,potential
size,habitat types,and studies,which would be involved in the Alphabet
Hil1s burn.Land ownership,vegetation types,and other constraints to the
potential value of burning or other ~anipulations to enhance habitat should
also be described.
Paragraph 6:Please clarify the criteria to be used in replace~ent land
selection.~Je caution that replaceQent lands only contribute to offsetting
unavoidable habitat quality losses elsewhere when:(a)habitat value of the
replacement land would be degraded by so~e predictable means other than the
project during the life of the project but,through management for fish and
wildlife that degradation could be prevented;or (b)replacement lands are
currently degraded and through management for fish and I;lildlife,productivity
could be increased over the life of the project;or (c)through management of
fish and I;lildlife,the productivity of an existing natural unit of habitat
could be increased by reducing or eliminating one or more factors limiting its
productivity.Identified replacement lands must be a manageable unit.
pararath7:To r.laintain the increased value of r.lanaged habitat,prOVisions
shou cr e included for ongoing manage~ent of thel,1 until such tir.le as the
project area is returned to the pre-project state.
Paragraph 8:The filaximum design speed of 40 miles per hour referred to in
Appendix EC,item 1,should be assured here as one means of minimizing the
potential for moose/vehicle collisions.
Parayraeh 9:We strongly support the proposal Environr,lenta 1 Bri·efings Pro!:irar.1
and recommend that it be a mandatory requirement for all project personnel
before they begin \~ork on the project.
Paragraph 10:Assistance from APA in regulating access should also be for the
purposes of minimizing habitat degradation and unnecessary disturbances.
(ii)Caribou:Provisions to ~onitor and remove logs and other debris from the
impoundments should be included in the overall project monitoring program,
this wi11 ensure that such debris does not inhibit caribou movements (see
Section 4.3(a)(ii)-Filling and Operation,paragraph 9).
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(iii)Dall Sheep:Please describe how the prohibition on visits to the Jay
Creek mineral lick is to be enforced.~Je recornr.lend that the portion of the
reservoir adjacent to the lick be closed to boat and floatplane use.~Je
suygest that the effectiveness of any ~easures to expose new portions of the
mineral lick be demonstrated and then incorporated into the mitigation plan if
effective.
(iv)Brown and Black Bear:Para~raph 2:We strongly concur with
recoTiIilendations to pror.lptly inclnerate garbage and fence camps.Experience
fror.1 other projects (e.g.Terror lake hydroelectric project)sho\ls the need to
clearly siyn and monitor gate closures to maintain the effectiveness of
fencing.The Environmental Briefings Program referred to under Section
4.4(a)(i),paragraph 9,is particularly applicable here.
paragraah 3:The habitat values to be gained from mitigation ~easures
referre*to here must be quantified before any mitigation for bear impacts can
be claimed.
(v)Wolf:Please refer to our comments in the previous paragraph about
quantifying recommended mitigation measures.
Beaver and pine r.1arten are both ecologically and economically important;
mitigation of some project impacts is possible.We recommend revising the
first sentence to describe what process and/or criteria ~'1ere used here in
deciding to emphasize beaver and pine marten in mitigation planning.
Potential benefits to other species from beaver activities is the type of
minor impact we believe to be overemphasized while more significant,and
difficult to ~itigate,impacts are not treated as thoroughly.For example,
beaver activities may conflict with slough management plans for salmon.
Moreover,benefits from beaver activities may ultimately be negated by
increased trapping which ~dll be facilitated by project access and
transmission corridors.The consistent lack of quantification in the draft
Exhibit E precludes evaluting the si.9.!!ificance of any such benefits relative
to overa 11 project impacts and recornr.rended mit igation measures.
Paragraph 2:We recoQr.lend discussion be provided on how proposed mitigative
siting of the transmission corridor for pine marten will conflict with,or
benefit,other wildlife species.
Paragraeh 3:Per our previous comments,we recomr~end coordinating the
cliscusslons of impacts and mitigation measures between Chapters 3 and 5.We
see a need to clearly and consistently state project objectives in both
chapters.We concur that workers and their families be prohibited from
trapping or hunting while working in the project area and request assurance
that such prohibitions will be part of project plans.
Although increased access TIlay be viewed as a net benefit to trappers,habitat
degradation,disturbances to the population,and conflicts with project
management (e.g.re~oval of beavers which conf~ict with road culverts)would
result in less than expected benefits to these groups.Thus ~~e recommend
continued monitoring to assess that potential.We also then recomr.lend that a
process be developed for implementing further mitigation (e.g.reco~endations
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:!
to the Ga~e Board on greater harvest restrictions,habitat ~anipulations,
alternative flow regi,~es,etc.}should these efforts fail or impacts be found
more severe than initially evaluated.
Paragraph 4:We request confir~ation that project design plans will not
include gravel extraction from Deadman Creek.Please provide further
infor~ation on ho~disturbance of riparian vegetation will be minimized.
paragraeh 5:Please refer to our comments under Sections 4.3(a}(ix)and
4.3(b)(lX)re the need for quantified data to support the conclusions here.
Ue strongly support the proposed monitoring and model development programs.
These programs should also be the basis for verifying impact predictions.
Although by itself monitoring does not mitigate project impacts,it should be
the basis for determining additional mitigation needs.
Paragraph 6:We concur.To maximize the effectiveness of the mitigation
plan,we recommend continuing studies to fill data gaps,quantify conclusions
given here,and complete habitat models for beaver and pine marten.
(c)Birds
(i)Raetors and Ravens:Paragraph 1:~Je recor.lT.lend expanding the list of
major lmpacts to include loss of hunting habitat,a corollary impact to the
loss of nesting habitat identified here.A mitiyation need ~ie have repeatedly
recommended is realignment of roads and transmission corridors away fro~
riparian corridors and other wetlands valuable in migration as well as
breeding (e.g.letter from FWS to Eric Yould,5 January 1982).
Further~ore,we recommend that the monitoring proyram include continuing
surveys for peregrine falcons (see Section 4.2(c)(i))as ~iell as other raptors
(see Sections 4.3(b){xiv)•Habitat Loss),to confirm their absence in
construction activities areas.
We are concerned with the emphasis on creating artificial nests.That
emphasis is based on the assumption that nest sites are the lir.liting factor to
raptor use of the project area.This has not,to date,been adequately
supported by ongoing studies.For example,overall loss of feeding habitat
may negate potential benefits from such structures.
-Creating Artificial Cl iff-Nesting Locations:~Je concur vlith the
recommendations to continually monitor for nest destruction and to provide
additional mitigation later,if found necessary.
-creatin~Artificial Tree-Nesting Location~_~_Paragraph 1:Please provide or
correct t e complete reference for creating successful bald eagle nests;it
was apparently omitted from the bibl iography.~Je question the suitabil ity of
presently unused habitats cited here as potential nest sites.Since eagles
are not using these areas,food or some other habitat parameter may be
limiting.
paragrab~l~:We suggest expanding the discussion to describe the
compara 1 lty of habitats,circumstances,and species of birds using
artificial nesting platforms as listed in Table ~rel.The success of those
efforts may not be directly applicable to the project area,given the
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different habitats and species involved.Please include infor~ation on
whether such structures have ever been successful in Alaska.
-Seasonal Restrictions:\Je strongly support the lileasures included here with
the addition of three points.First,we recolimlend coordinating with project
design engineers to ensure that such tililing and siting restrictions are fully
incorporated into project designs,schedules,and cost esti~ates.Secondly,
our previous COlilments on the need for follow-up lilonitoring of raptor nesting
in response to construction activities are critical here.Finally,for bald
eagles,\/e recommend there be no blasting \'/ithin 0.5 miles of nests.
(if)Haterbirds:Paragraph 1:We recomlilend revising this paragraph to
describe factors which may limit benefits outlined here (see ourcoli1li1ents
under Section 4.3(a)(xv)).An additional concern \/e believe should be
described here is the potential for collisions of swans with translilission
lines.
PfiraTaabh 2:We recoli1li1end that the Iilonitoring progra~described previously
s ou e coordinated ~lith ongoing FUS surveys for trumpeter swans and other
waterfowl,with particular attention to the ililpacts of project disturbances on
trumpeter swans.We again note the importance of carefully siting all project
facil ities,roads,and transrllission 1ines away fror.l ~/etlands (as being
remapped),including stream corridors and lakes.Since trulilpeter swans and
other waterbirds frequently liligrate alony strearll corridors,siting and Iilarking
of transmission lines is particularly critical to avoid collisions and
electrocutions in those areas.
(iii)Other Birds:We again note the ecological importance of these species.
We recommend that nest and roost boxes be considered as mitigation for
passerines.Hairy woodpecker,boreal chickadee,and brown creeper would all
adapt readily to such structures.These three species populations would be
reduced by 10.1,7.4,and 19.9 percent,respectively.The hairy woodpecker is
on the National Audubon Society1s "Blue List"and is thought to be declining
in the Pacific Northwest.We also recomlilend that all unavoidable adverse
impacts from the project be fully acknowledged.
(d)Slila 11 (non-game)'ilalilma 1s:We refer you to our corilments,above,re fu 11 y
acknowledging unavoldable adverse project impacts.
Co~ents on Tables and Figures for Section 4 -Wildlife
Overall,many of the tables and figures are inco~p1etely footnoted and
referenced.Few will stand on their o\/n and many are confusing or
inconsistent even when referring to the text.\Je reco~lilend cleaning up the
tables and figures to alleviate these prob1elils in general,as described in our
comraents on the text of the report itself,and as specified below.Rather
than cOlilfaentingon all editiny or corrections needed,we have focused on lilajor
problems or points i~portant in understanding our cOuuaents on other portions
of the doculilent.
Table U2l,~J22 and \J23:Please include the number of sites,safilpled in each
cOli1munity.
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i I
Tab le W64:
ratings.1I
~Je recomrilend footnoting a brief definition of lIimportance value
Please provide dates for the sumfiler 1981 survey.
Tables 1,165,W66,W68 and ~a8a:Please clarify how habitat types as classified
nere do or do not coordinate with the revised vegetation classification
scheme.We are concerned that data manipulations not obvious from the
original references be fully described here (see Section 4.2(c):Paragr'.~.e.b_l.J.
figure 1,111:We suggest adding reservoir elevation levels.
Figures ~n9 and 1,120:~Je recommend including some description of ho\-/'IIrelative
importance II was determined and IIImportance Indices"were calculated.Sources
for this data should be cited here.
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Appendices EA to EE
General Co~ents
Overall,we concur with the environmental guidelines to the extent that they
are presented here.HO\/ever,we are concerned that the yuidel ines are
sOQewhat incomplete and lack specifics needed for effective imple~entation.
Please specify the degree to which these yuidelines are being incorporated
into project planning.We reco~end that you explain any situations where the
guidelines will not be followed.In order to most effectively implement these
guidelines,and thus,to achieve greater mitigation of project i~pacts to fish
and wildlife,we recoh~end a team approach between project environmental
specialists and design engineers throughout design,siting,and construction.
The interagency monitoring group recommended previously should be part of this
effort (see our cOlim1ents on Section 4.4:Paragraph 5).Probler.Is \lith lack of
integration between project studies and different chapters in the Exhibit E
would then be more easily overcome.Follo\iing are our Specific Comr.lents on
individual items in the environmental guidelines.
Specific Comments
A-All Facilities
1.The referenced buffer to waterways or wetlands should be a 500-foot
minimum width,not maximum width as presented here.
8.
7.
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Please define project IIfacility ll as used here.LIe suggest the definition
include project carilps,access roads both to and within the project site,
and any constr~ction areas (including the dams,borrow areas,disposal
sites,etc.).
Trumpeter swan nests and caribou calving areas should be added to the
list of areas to which the guideline is to apply.
Blasting determinations should be made in consultation with the resource
agencies.Such determinations cOl'ld be incorporated into the previously
recomr,lended mon i tori ng program (see our COl'iI,lents on Sect i on 4.4:
Paragraph 5).
9.Please discuss the feasibility of disposing of part,or all,of project
spoils within the impoundment area in accord with project scheduling.An
estimate should be provided of the quantities which may be involved,or
when those quantities will be determined.Stockpiling needs,and
reclamation considerations should also be provided.We suggest this itel,'
be expanded into an additional appendix section similar to Appendix AD -
Material Sites.
11.Please refer to our previous cor.~ents on the need to map permafrost areas
(Section 3.2 and 3.3(a)(ii)~ffects of Ero~jon and Deposition}.
13.We recommend specifying that fertilization and seeding be initiated in
the growing season ifiJ,lediately following site disturbance.The
interagency monitoring prograr:l referred to in iteril 8,above,should
review and concur with species chosen for revegetation.
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14.Please refer to our cOQrnents under iteQ 13,above.
15.~Je concur;again please refer to our cor.ltlents on item 13.Initiating
test plots as part of continuing project studies would provide
inforuation on which successful site restoration can be based.Plantings
to provide ~lildlife food and/or cover should also be considered in
developing restoration plans.
16.We strongly endorse both progra~s outlined here.Reference should be
made to U.S.Coast Guard (C.F.R.33,Part 154(b))and Environmental
Protection Agency (C.F.R.40,Part 112)regulations which require use of
a Petroleulil and Hazardous Substance Plan and Manual with such
developments.It should be mandatory for all project personnel to take
part in the Environmental Safety Progra~prior to starting work on the
project.
17 •~Je suggest that storage containers for fuels and hazardous substances
also be located at least 1,500 feet fro~wetlands.All personnel
involved in transfer and handling operations for such materials should
carry portable spill contain~ent/absorption ~aterials.Impervious
[,later ia1 used to 1i ne conta inment areas shOLl 1d be secure ly tacked in
place and frequently monitored for tears;such tears should be promptly
repaired and water which may collect in the areas should be pro~ptly
removed.
18.Please s~ecify the degree to which this reco~IJendation is bein~followed
as descr ibed under our General Comr.lents for these append ices.
19.We recoro~end addition of an item outlininy the need for the contractor to
train personnel,prepare,and follow an erosion control plan which is
subject to resource agency rev i e~/and comment (see our comr,lents on
Section 3.4(d)(ii)).That plan should then be incorporated into these
guidelines.
B -Construction Camps
1.and 2.We concur and reco~end that there be no trucking of garbage
between camps;each camp should have its own incinerator capable of
burning that day's wastes.
3.~Je concur;please refer to our cOr.1lilents under Section 4.4(a)(iv)on the
need to clearly sign and monitor all gates to ensure they remain closed.
We recommend the interagency monitoring group review and concur vlith the
fencing specifications.
4.We suggest that the recommended effluent sampling and testing prograQ be
outlined in construction camp design plans.
5.Again,resource a~ency review and concurrence should be involved.
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C -Access Roads
3.Ue concur and reco~end that the proposed program for identifying
\/etlands in consultation with the CE and FWS be used in access route
siting (see Section 3.2{a)(vi».
5•
~~6.
~
13.
Instrea~work should be scheduled to avoid critical spawning times and
minimize sedimentation of downstream habitats.
through 10.Criteria should be included for deter~ining \/hen a culvert
rather than a bridge can be used for stream crossings.Resource agencies
should be consulted in the develop~ent of such criteria.
We suggest adding,"as well as after significant storm .events"at the end
of this item This issue needs further definition.
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o-Material Sites
1.We concur and recommend that the interagency monitoring program be
inteyrated with the interdisciplinary team effort so that resource
agencies are consulted in the developnent and iTilplementation of mining
plans.
2.and 3.Please identify the extent of borrml Tilaterials needed for project
construction \/hich may be available ,;lithin the impoundment area,relative
to the extent of borrow which will have to come from other sites.Our
comments under APpendix EA -All Fa~il..ities,item 9,on stockpiling and
reclamation,ana under Appendix EC -Access Roads,items 6 through 10 re
criteria for determining when to use the lower priority mitigation
measure (e.g.culverts instead of bridges;first-level terrace sites over
well-drained uplands)apply here also.
7.We suggest that construction schedules be evaluated in order to determine
optimum coordination and use of material and disturbance sites.
E -Transmission Corridors
1.We recommend addition of the phrase "and maintained ll after the vlord
"constructed ll in line 2 of this item.Our text comments on the need to
fully integrate Intertie development with all other project transl,lission
lines apply here (see Sections 3.4(d)(ii)and 4.4(d}(i)-~Jillow to
Healy}.---
3.Transmission towers should not be placed in wetlands,as defined by
ongoing remapping efforts.
4.We concur,and suggest that selective cutting be used to control
vegetation along transmission corridors.
Appendix EG:Please provide the source for data cited which was not provided
by the University of Alaska f:luseur.l.
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Chapter 4.REPORT ON HISTORIC AND ARCHEOLOGICAL RESOURCES:No COlilT,lents.
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Chapter 5.SOCIOECOUOmC HfPACTS
F'"Genera 1 Comments
~Je see this socioeconomic impact evaluation as an integral component of the
overall evaluation of alternative means of satisfying energy needs in the
least environmentally damaging way.Accordingly,\/e offer the follovJing
comments for consideration in the evaluation of this alternatives.
Evaluation of a proposal must exafi1ine impacts,positive and negative,and
mitigation over the life of the proposal.Data bases provide the point from
which this evaluation must progress.Ho\/this project could effect fish and
\/ildlife resources over its life is strongly dependent upon how the project
influences future user demand of those resources.This evaluation should
incorporate:(l)a widely accepted projection of future population and
economiv growth (increasing user groups)or,if there is substantial
uncertainty as to the validity of key assumptions (as we believe there is),
then a multiple scenario model should be pursued examining at least high,
medium,and low projections;and (2)a tradeoff analysis examining the
competing mitigation proposals for the different interests.Chapter 5 fails
in respect to both points.
The Base Case,as expressed in this document,is a mini~um project impacts
scenario.We are led to this conclusion by the following:
1.The recent do\mturn in State oil revenues directly leads to a
downturn in State spending.Increased State expenditures result in
economic expansion which then attracts and supports the new
population (Department of Policy Development and Planning (DPDP)
Policy Analysis Paper No.82-l0).The expected lower level of State
spending should be reflected in decreased econofi1ic expansion and
population.One could deduce from this that the without project
economic and population Base Case should be substantially lowered
fror.l what is presented in this dOCUMent.Since this turn of events
obviously does not impact the cost of the project,the project
socioeconomic impacts would be accentuated.
2.With less oil revenue the State would need to concentrate a greater
percentage of its income and/or bonding capability on this project.
The State \'1ould then not be able to afford projects in other areas of
the State.We,therefore,believe a closer look at State-wide
impacts is necessary.
3.The power which this project would prOVide could act as an attractant
to various industries,to the detriment of other areas of the State.
4.Potential impacts due to the seasonality of the \/orkforce is not
fully addressed in this document.Other hydropower projects in
Alaska,such as Terror Lake,and those constructed in other refi10tely
situated areas should be examined to e~plore this potential impact.
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5.IQpacts result from the nu~ber of people attracted by potential jobs
not by the number of jobs created,either directly or indirectly.
This is supported by the letter to Eric Yould dated 27 March 1982
fro~the Alaska Department of COQmunity and Regional Affairs (ADCRA).
6.The implications of item 5 above regarding local and regional hiring
assumptions and iQpacts to local cOffiQunities.
We have not previously had input into many of the decisions which were reached
regarding the construction camp/village such as siting,type of camp,and
administration.These decisions have large implications for the fish and
wildlife resources and users.Consideration of a Prudhoe Bay type ca~p should
be given.We are not aware of any construction ca~p alternatives having been
discussed in ter~s of minimizing adverse impacts to fish and \/ildlife
resources,and their use.
As i 11 ustrated by Iilany of our cOli1rtlents,we are concerned that not on ly \iere
the resource agencies not consulted previously on ~any of the actions
described herein but that communication and coordination between the
socioeconomic component and the fish and wildlife resources co~ponents has
been insufficient.
It is stated several times in this chapter that monitoring of i~pacts is
proposed and that this program would add flexability to the mitigation
program.We concur.However,we believe this monitoring team should better
reflect the spirit of the APA ~1itigation Pol icy document.~Je bel ieve a
monitoring program should be established,at project expense,consisting of
representatives of appropriate local,State,and Federal agencies,to carry
out the function of assessing the extent of actual impacts and recom~ending
modifications to the mitigation program.Modification of the mitigation plan,
as represented in the license,would then be through license amendment.
Modification of the Base Case to accomodate the concerns raised in the ADCRA
letter of 27 May 1982 and in our comments would dramatically change the
impacts predicted and ultimately the mitigation requirement.Additionally,an
assessment of socioeconomic impacts must be reactive to other study
components.For example,to evaluate i~pacts to users of fish and wildlife
resources,the impacts to the resources ~ust first be assessed.In that many
of these resource impacts have not been sufficiently quantified,one could not
expect an acceptably quantified socioeconomic analysis.This could only have
lead to a highly general mitigation plan,which is what we find here.In
fact,reference ;s made to certain actions which (Section 4.2(a),page
E-5-91),n •••will be considered in the ~itigation plan".A Qitigation plan
should be a part of this docu@ent,and be specific to the anticipated impacts
based upon a broadly accepted data base.The burden of formulating an
acceptable ~itigation plan is the applicants.
Specific Comments
2 -BASELINE DESCRIPTION
2.1 -Identification of Socioeconomic Impact Areas
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(c)State:Ue concur that identifiable impacts \/ould be concentrated at the
T6cal level,and most difficult to evaluate on a state-viide basis.It should
be recognized that how this project is approached economically has tre~endous
implications for the State.If the State provides a grant of billions of
dollars,that money can't be spent on other programs.Bonding of the project
would have a large impact on the State's ability to bond other projects.
Additionally,the relationship between large projects and population growth
should be given greater emphasis.Increased State expenditure results in
economic expansion that attracts and supports the new population (DPDP Policy
Analysis Paper Ho.82-10).The state would be impacted through services
provided to this project caused higher population level.
2.2 -Description of Employment,Population,Personal Income and Other Trends
in the Impact Areas
(a)Local
(ii)Poeulation:.parafraSh 3:Acceptance of the projected Nat-Su Borough
populabon figures wou de on the basis of a review and acceptance of the
underlying assumptions.\Jithout these we are left with what appears to be
relatively high projections which apparently come from a single source,the
Mat-Su Borough,which could be viewed as having a vested interested in the
project,and a high probability that the projections rest upon by the
original,outdated project economic analysis.The impacts analysis and
mitigation planning is strongly tied to population projections with and
without the project.We recommend that the data base be broadened and
projections updated.
Paragraph 4:\Je recently received a Scoping DocUlilent (dated 29 Nover.tber 1982)
for the Knik Arm Crossing from the Alaska Department of Transportation and
Public Facilities (ADOT/PF).In that ADOT/PF is just beginning to evaluate
the desirability of this project it would be premature for APA to view it as a
foregone conclusion.
paragraeh 5:Please discuss the assumptions upon ~/hich these population
projectlons are based.
(b)Regional
(ii)PopUlation:Paragraph 2:We accept the underlying assumption that,in
Alaska,population growth is strongly associated with natural resource
development projects.Please identify the development projects that have been
assumed to be going forth.The recent downturn in State income,due to
weakening of oil prices,should be factored into this analysis.
3 -EVALUATION OF THE IMPACT OF PROJECT
3.1 -Impact of I n-r,l i grat i on of People on Go.Y~r:!:!ment~1 Faci 1it i es and
SerVices:Paragra~h 2:The underly;n~assumptions which lead to the
conclusion that thlS project would have minimal impacts to the Mat-Su Borough
should be discussed in greater detail.Peak project employment ~Jould be 3,498
(page E-5-37)and 95 percent of these \Jorkers would have dependents,with an
average of 2.11 dependents (page £-5-44).This would lead one to believe
direct project worker impacts \'/ould be r.Jore than 10,000 people.If all these
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people \/ere housed at the construction site we \/ould have a city approximately
three times the size of Palmer,with all the encumbent needs of this size
corl1filunity.This figure \lOuld be substantially inflated by secondary and
induced jobs resulting from the project.Spreading these numbers out over the
small,local communities \/ould be expected to result in significant adverse
impacts.In the 27 May 1982 letter from the ADCRA to Eric Yould it was noted
that,II ...given the current state of the econor.1Y,it seems reasonable to
expect a sizeable influx of people from the Lower 48 seeking highly-paid
employr~ent,therefore competing directly with the local labor force.This was
the State's experience during the Trans-Alaska Pipeline project (TAPS)and,in
fact,just recently for the as-yet to be started Alaska Natural Gas
Transportation System.Yet this proven phenomenon apparently was not
considered in the analysis.This influx of people seeking instant riches in
Alaska during major construction projects has historically contributed to
impacts far in excess of what otherwise mights normally be expected.1I
In reference to,II •••the buffering effect of the expected continued
increase of the population,1I please refer to our Chapter 5 General Comrilents.
(a)Watana -Construction Phase
(i)Local
-Mat-Su Borough:As stated in our Chapter 5 General Comments we find it
difficult to accept that,IIIn most areas of the Mat-Su Borough,the population
influx related to the project will only add slightly to the substantial
increases in need for public facilities and services that \/ill be resulting
from the population growth projected under the Base Case.1I It is stated in
the previously referenced 27 t1ay 1982 letter from ADCRA,liThe State's
experience has been that the impacts from large construction projects (rilost
notab ly TAPS)are far in excess of what ~Jere originallY anticipated.Those
impacts were due to a substantially greater inmiyration [SIC]of people than
those anticipated based solely upon the size of the required construction and
support work force.This was due in part to a large nUillber of people who
migrated to Alaska with no intention whatsoever of seeking employment,at
least on the construction project.Another unforeseen impact was in the
secondary job market.Inmiyrants [SIC]competed for,and filled,secondary
and induced jobs,many of which were vacated by local residents obtaining
employment on the high-paying construction project.This situation only
exacerbated the local unemplo~~ent situation.
"Certain public services were severely taxed as a result of the larger than
expected influx of people.The public safety and public health were
jeopardized by increased ·people problems l ;too few public safety officials
and inadequate or non~existent facilities delayed the State·s ability to
adequately respond.Lack of adequate housing led to overcrowded living
conditions and sanitation problems.Increased vehicular traffic devastated
the roads and at times created safety problems as well.Utilities,such as
power and telephone,were overtaxed.Heightened demand for housing produced
rent gouging,displaced families,hastily and poorly constructed housing,and
use of substandard or even non-residential units as places of residence.
lilt seems,therefore,that the potential exists for the types of impacts
described above to occur as a result of the Susitna project,and to occur in
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larye part in the Matanuska-Susitna Borough.Si~ply putt we believe that past
experience has shown that more people will show up than originally
anticipated t bringing with the~all the proble~s attendant to a I booM-town ,
situation.We do not feel that this was adeg~ately addressed in the draft
feasibility report t nor that the State's prior experience with TAPS was taken
into account.1I
We would expect that a high percentage of those attracted to the area would
becor.te fish and wildlife resource users.This would lead to increased de~and
for these resources at the same tir,le and in the vicinity of r.tore direct
project related i~pacts to these resources.AdditionallYt because the project
work force \rould be highly seasonal t (page E-5-37)the i~pact of these
e~ploYees on the fish and wildlife resources would be greater than other area
residents.
~~~~~~~~~~~~~~~p_ar~a~~aFi-h~l.:Please clarify \1/hether the
e provided by the project through
Ue understood this was not the case
Use projections and anticipated fish and wildlife resource impacts should be
examined.
•Transportation:para~raph 1:We concur that t "The ultimate status of the
road is unsettled at thlS tir.te.1I The road is a proposed project feature and
as such the ulti~ate resolution or ~echanis~s for resolution of this issue
needs to be provided in the FERC license t if in fact we do still have road
access at that time as a project feature.We have not conCurred that road
access is either necessary or desirable.
Paragraph 3:Reference is Tilade tOt "schedul ing of COr.1I,luting workers".Yet t
on page E-5-91 it is stated that t II •••there will be no daily cor.1filuting
•and \Iorkers \/ill not have the opportunity to drive personal vehicles to the
camp/village ••••"These conflicts need to be resolved.
-Cantwell
•Transportation:Paragraph 2:Reference is again made to commuting
workers.Please refer to our co~ents immediately above (Section 3~1(a)(i)-
Mat-Su Borough.Transportation:Paragraph 3).
(ii)Regional:Please refer to our Chapter 5 General Convuents and to our
comments regarding Sections 3.1 and 3.1(a)(i).-Mat-Su Borough.
(b)Watana -Operation Phase and Devil Canyo~~_Construction Phase
(i)Local
-t1at-Su Borough:Please refer to our conll~ents ir.1T.lediately above (Section
3.1(a)(ii)).
3.2 -On-site I\anpower Requirements and Payroll t by Year
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(b)Seasonality of nan ower Re uirer.Jents:Please refer to our cor,lr,lents
regarding Section 3.a i -1·1at-Su BoroJ:!9b..The seasonality of the project
work force could,if they remain in the State,result in significantly higher
use levels of fish and wildlife resources,and recreational resources than
that found for residents er.Jployed year-round.Ue recolill',lend that this should
be exar.Jined.The TAPS project and in-state hydropower projects,such as
Terror Lake,should provide valuable information.
3.3 -Residency and Movement of Project Construction Personnel:Paragraph 3:
The proposed administration of the construction car.Jp/village appears to
simplify probler.Js by minimizing constraints on the work force.Given the APA
Mitigation Policy,which is consistent with NEPA and out Mitigation Policy,to
first avoid adverse ir.Jpacts to fish and wildlife resources we find it
difficult to accept the construction site calilp/village plan or adli1inistration
of it.In many ways it tends to r.Jaximize adverse ir.Jpacts to fish and Hildlife
resources,in direct conflict with APAls stated'rolitigation goals.It appears
that plans other than that proposed have not been evaluated as none appear in
Chapter 10.We recommend that a Prudhoe Bay type car.Jp be examined as an
alternative which could r.Jinimize project-related impacts to fish and wildlife
resources and socioeconor.Jic impacts to the local communities.Our position
concerniny rail vs road access to the construction camp/village has been
previously statea-(FWS letter to Eric Yould dated 17 August 1982).
(a)Region
(i)Regional \Jork Force:paragra~h 4:The assumptions stated for the on-site
constructlon work force were ques ioned in the previously referenced 27 May
1982 letter from ADeRA,IIAlthough there are currently enouyh unefilployed in
Southcentral Alaska to li10re than fulfill the project1s labor demands,in terms
of numbers,that does not necessarily r.Jean that the appropriately skilled
people are local1y available.Also,given the current state of the econor.ty,
it seer.ts reasonable to expect a sizeable influx of people from the LO~ier 48
seeking highly-paid employment,therefore competing directly with the local
labor force."In addition on paye E-5-94,it is stated,IIThere are at least a
couple of reasons to believe that local labor might have a difficult time
obtaining construction jobs."This would appear to support the contention
that hiring assulilptions are overstated,and thus the -ililpacts of
project-induced population increases are understated.
iiv)Relocatin~Workers and Associated Popu]ation Influx:Concerning
secondary and lnduGed population please refer to our COtffilents under Section
3.1 and 3.1(a)(i}-Mat-Su Borough.
3.4 Adequacy of Available Housing in Impact Areas
la}Watana -Construction Phase
(i)Local
-Hatanuska-Sus itna Borough:para2raph 1:It is stated that,"The filajority
of constructlon ~lorkers on the proJect are expected to use the on-site housing
facilities.These \lorkers \dll not be in-r,ligrating into established
cOlilr.1unities and therefore will have no impact on the housing r.larket in the
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t1at-Su Borough."Could \"le not conclude from the .above that a minority of sOr.Je
unknown number of \'1orkers would not be housed on-site?This ~-Iould lead one to
expect workers co~uting,and impacts to the housing market.Please quantify
these potential impacts.Concerning cOr.Jmuting workers please refer to our
comr.Jents on Section 3.l(a)(i):.Transportation:_P.a.ra_graph 3.In addition,in
the previously referenced 27 !·1ay 1982 letter from ADeRA,the follo~iing
statement is provided:
I'The key supposition in support of the r.Tiniro1al impacts described is that
the majority of the labor force and their families will live on-site and
largely remain on-site throughout the duration of the project.This
presumes affirmative actions are taken to preclude or limit mobility,
particularly by private automobile,and to provide sufficient incentives
for workers to locate their families on-site rather than in the r.Jore
attractive and urban settings of Anchorage,Palmer,or Wasilla.If those
conditions do not occur,workers and their families in some undetermined
numbers will reside elsewhere,and the workers will commute.If that
occurs,impacts on the Borough will increase dramatically."
3.5 -Displacement and Influences on Residences and Businesses
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(b)Businesses:Paragraph 2:It would follow that if,"t10st businesses in
the upper basin are dependent upon abundance of fish,big game,and furbearer
species,"and the project holds the potential to severely impact these species
through elimination of their habitats,then most of the businesses \iould
suffer severe adverse impacts.Th is paragraph illustrates a poss ib 1e prob 1em
relating to coordination or cOt1li1unication of Exhibit E study programs.
Paragraph 3:Please refer to our cogments i~o1ediately above (Section 3.5(b):
Paragraph 2)•
Paragraph 4:Please refer to our comments above (Section 3.5(b):ParagraphI).We cannot dismiss impacts to fish and wildlife resource users as
insignificant.The existing user levels must be established in addition to
fish and wildlife resource levels with and without the project.Proposals
designed to r.Jitigate for unavoidable fish and \iildlife resource losses should
then be examined as to potential impacts on these user groups.
3.7 -Local and Regional Impacts of Fish and Wildlife User Groups
Ca)Fi sh
(1)Hethodology:The work \/hich was completed for 1981 did provide point
estimates.The capability of the system to produce salmon is dependent upon a
number of factors which are being eXar.Tined as part of the Aquatic Studies
Progralil (e.g.winter water temperature,availability of spawning gravel,flO~J
regime,etc.).The number of fish that pass a point along the river does
little to establish a river's production capability other than to establish a
bottolil figure for it.
A comparison of point estimates of 1981 vs 1982 demonstrates the great
variability that exists in this system.Both years are "representative"•
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-Guides and Guide Services:Para ra h 7:Please refer to our com~ents on
ec 10n.. n t a 11\i1orst easel potential loses were examined in Section
3.7(a)(ii)we recommend that a similar examination be provided here,
particularly since moose estimates have previously been furnished by the
ongoing Big Game Study Program.
Discussion should be included on the possible decrease in the area1s
attractiveness for remote,wilderness hunting given the increase in access and
human activities with project development.By definition,guided hunting
involves a more remote type experience.Loss of this remoteness and potentia1
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i~pacts to the guiding industry should be considered here.Ongoing data
collection/analysis regarding this issue needed to be fully described.
iii)Recreational
-Resources:lJe recomr.Jend expanding the discussion to consider relative
demands and values for commercial,recreational,and subsistence hunting for
each species in comparison to other species.
Including a section on nf.1anagement ll would clarify the remaining discussion on
recreational hunting.The section should briefly describe ADF&G ~anagement
responsibilities and the Game Board;and include a map of Ga~e Management
Units in relation to major project features and access routes •
•Caribou:Including the map recoQrnended under Section 3.7(b)(ii)-Resources
above,would clarify the discussion.-
Resource Status:The present permit system is designed to under harvest the
herd so that it can continue to grow.This section should reflect the present
and future management plans for this i~portant resource,see simi 1ar comlJents
under Chapter 3,Section 4.2(a)(ii)Population Characteristj~?
The Experience Sought by Hunters:'Please clarify by identifying the other
area or resource to which hunting of the Nelchina herd by nearby Anchorage,
Fairbanks,etc.residents is being compared.
Transportation to and fror.l Hunting Groun~s:Project impacts on hunter access,
and indirectly,to the caribou herd should be discussed.We suygest
coordinating the discussion with that in Chapter 3,page E-3-356,paragraph 3
and page E-3-371,paragraph 1,and our comments on those sections.
Hunting Pressure:Management changes invalidate direct comparisons between
the number of hunters in 1980 and 1970.Increases of human populations should
also be described.If it were not for the permitting system the hunting
pressure would be much higher.Although the number of permit applicants
provides a clearer picture of the importance of the herd we consider this
figure to also underestimate the importance of the herd.Since the chance
that an applicant would obtain a permit is low,many people are discouraged
from applying.If warranted,a survey could provide an estimate of the number
of people who would hunt the Nelchina herd if the permit system were removed.
To adequately evaluate potential project impacts to the herd one \'lould need to
examine ADF&G present and future managment plans,projected demand forecasts,
most likely behavioral responses to the reservoirs,access routing and
control,alternative reservoir filling and operation schemes,construction and
public use of the access mode and routing alternatives,the tradeoffs involved
in conflicting mitigative proposals,impacts of mitigative proposals on user
groups,etc.We reCOLT.lend that the impacts evaluation exa~ine the
aforementioned factors.
Supply and Demand for Huntin2 0eportunity:Again,the situation is not fully
discussed.Data should be provlded comparin~rates of increase for both
permit applications and human area populations.
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Success Rate:The i@pact of hunting on caribou populations should be
described here (e.g.see Chapter 3,pages E-3-220 to 222).Increases in herd
nu~bers @ay have also contributed to the increased success rate.A map of
take relative to existing and proposed project access points may aid in
evaluating project impacts.An analysis of those i@pacts on existing supply
and demand for caribou should be provided •
•Hoose:Since the subject of this chapter is socioeconomics,~/e reco@mend
expanding the discussion to include information on moose being the most
economically important wildlife species in the region,per Chapter 3 (see page
E-3-197)•
Resource Status:The paragraph is inconsistent with Chapter 3 \lhich includes
1981 data and an estimate of 4,500 moose in the upper basin.Recent and
long-ter@ ADF&G management plans for moose,as well as a map of applicable
Game t·1anay'~ment Units \"ould help relate impacts de·scribed here to potential
mitigation measures.
Transportation To and From Hunting Grounds:The discussion describes the type
of data.available yet fails to provide any quantification.Figures
delineattny present and project-related access points should be included and
correlated to current hunting intensities.
Hunting Pressure:Please explain the hunting permit and/or habitat chanyes
responsible for the significant decrease in hunters and harvest while area
human populations have substantially increased.Reference to 2,859 hunters in
1981 is the same number of hunters as for 1980 in Table E-5-42.Please
correct if this is not the case.
Success Rate:Refer to comment above,local human populations,permit
regulations,and area moose populations are critical factors in the success
rate which should be discussed •
•Other Species:We concur that a large data gap exists.The schedule for
acquiring these data and incorporating them into project planning should be
discussed.Once socioeconomic mitigation proposals are established,they must
be examined in regard to impacts on fish and wildlife resource user groups.A
tradeoff analysis would then be needed to examine conflicting mitigative
proposals.Because coordination among project studies has been lacking,each
study described impacts relative to opti@al project manage~ent for the subject
of that study,e.g.recreation,fish,moose,subsistence,power,etc.~Je
recommend alternative management scenarios be evaluated within each study
before the necessary tradeoff analysis is completed •
•Importance of Regulations:paragra¥h 1:Access routes,restrictions on
access,and construction schedules wi~1 also greatly influence opportunities
to hunt in the project area.Quantification should be provided for possible
impacts under at least twa"scenarios -severely restricted access and ~ermits
and open access without perluits.Such analysis should be fully coordinated
with ongoing big ga~e studies and also discussed in Chapter 3.Given the
substantial agency recommendations to omit any project access from the Denali
Highway,and the importance of that recommendation as a wildlife mitigation
measure,we recommend your analyzing the impacts on hunter access both \/ith
and without that road corridor.Additional discussion should also be provided
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on impacts both with and without restrictions on \Jorker access and hunting.
Again,regulation of such use is a significant ~itigation measure.
Quantification of possible use levels is necessary for full quantification of
project impacts on ~oose populations in Chapter 3.
~ara9r~~:Consideration should be given to the greater losses expected for
black bear than for brown bear habitat in view of the harvest regulations
described here •
•I~pacts on the Hunter:Factors contributing to a high quality hunt should
be defined here.Availability and accessabi1ity of animals are key factors
which will be affected by the project.Again,the schedule for quantifying
recreational project impacts should be described.The present inability to
quantify economic effects of the project is recognized as a major prob1e~and
should be resolved in the license application.The econo~ics analysis should
occur after quantification of wildlife impacts and formulation of mitiyation
proposals.Please refer to our com~ents under Sections 3.7(b}(i)and
3.7(b)(ii).
(iii)Subsistence Hunting:This section should be rewritten to ~ore
accurately reflect current laws and regulations.For exa~ple,non-residents
cannot qualify as subsistence users.A complete,rather than partial,listing
of all qualifications for subsistence use should be included here.The first
sentence of the second paragraph pertains to a one-time only re'gulation which
is no longer in effect.The last sentence of this paragraph is an editorial
comr.lent which should be deleted.t;lention of the controversial nature of
subsistence use would be appropriate.The referenced future data compilation
and analysis should be provided in the Exhibit E.At a mini~um,scope and
scheduling of this work should be fully discussed.The concerns expressed
under Section 3.7(a)(iv)Subsistence Fishing would apply to this section in
regard to hunting.Please refer to Section 810 of the Alaska National
Interest Lands Conservation Act (Public La\l 96-487,2 December 1980)for
guidance.
(c)Furbearers
(i)COlilrilercia1 Users:During the August 1982 AEA Workshop on the Susitna
project,trapping was considered the pri~ary mortality factor affecting beaver
in the project area.Access,in addition'to species abundance and pelt
prices,is also a key deter~inant of trapping intensity.
-Data Limitations:Given that there are problems with available trapping
data,the records which are available should be described here as a general
indication of area trapping activities.We are concerned about the apparent
lack of coordination with project furbearer studies which do provide some
population and trapping data (see Chapter 3,pages £-3-250 to 251;£-3-253 to
256;E-3-315 to 317;£-3-321 to 322;£-3-344 to 346;E-3-361 to 362;and
E-3-368.)
-Trapping Activity:para~raph 1:Any examination of project impacts needs
to examine future opportunlties lost.Again,please provide whatever
quantification of trapper numbers and harvest values is available.
Consideration should be given to the number of additional trappers the area
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could support under alternative project access location and reyulation
alternatives.
Paragraph 3:Based on the suggested 25 mile trap line length,it is doubtful
whether the project area,with projected access routes,could support more
than an additional dozen trappers.There is so~e indication that the area r~ay
be near trapping saturation now (Furbearer Study Coordinator Phil Gipson,
personal co~munication).
-Aquatic Species
•Baseline:Paragraph 2:To compliment and parallel the beaver discussion,
information should be included on muskrat populations and habitat utilization;
please refer to our comnents under Section 3.7{c){i)-Data Limitations,
above.
Paragraph 3:Subsistence value of furbearer species should be identified.
Paragra~h 4:References such as "abundant"and "COiil~onll should be deleted.
Quantiflcation should be available from the 1981 and 1982 field seasons for
those species.Please incorporate these data into the discussion and analysis .
•Iiilpacts of the Project:The conclusion that the access road and
transiilission lines would ~rovide increased harvest opportunities through
increased access appears to be in conflict with conclusions and statements
offered in other chapters and sections (e.g.Chapter 3,pages E-3-317 to 323;
E-3-345 to 346;E-3-360 to 363;E-3-368;and in particular,E-3-377).The
stater.lent offered in this section would lead one to conclude that open access
is expected to be provided by the preferred access road and through a
maintenance road for the transmission line from Watana damsite.It has been
our understandiny that the forli1er has not been established and the latter was
not to occur.Please refer to our COf,1IiIents on Sections 3.1(a)(i)-Public
Recreation.Facilities:Paragraph 1 and 3.1(a)(i)-Transportation:
paraaraph 1.The lost future opportunities and the potential impact that
coul occur to trappers due to the expected ice-free winter condition of the
Susitna River above Talkeetna should be fully described in this section.The
potential for furbearer populations to be trapped out,if open access is
provided,should also be considered here.
-Pine t1arten
•Impacts:Paragraph 1:Please refer to cOmli1ents under Section 3.7(c)(i)-
Aquatic Species:Impacts of the Project,above.The last two sentences are
contradictory;there is some inconsistency with the last line of the second
paragraph which otherwise appears to be an accidental repetition of Paragraph
1 under this section.
-Lynx:Paragraph 2:Again,quantification should be given to this trapping
pressure and success rate relative to other area furbearers.
-Fox:Please refer to our co~~ent under Section 3.7(c)(i)-Lynx,above.
Consideration should also be given to project impacts on fox,as they r;lay
relate to the fox trapper (also see our comnents under Chapter 3,Section
4.3(a)(xii)).
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-Secondary Industries:In order to fully assess project i~pacts on secondary
industries,the IIrelatively sr.Jall percentage of Alaskan trappers \~ho operate
in the impact area"should be quantified here •
(ii).Recreationa 1:Inadequacy of data base is identified.Information on
this user group should be acculilulated,ir.Jpacts analyzed,mitigation proposed
and then re-evaluated to assess effectiveness and impacts in the Exhibit E.
The impact due to the loss of access across the upper Susitna River resulting
from the probable loss of winter ice cover requires examination in this
section.
We suggest addition of a paragraph (iii)Subsistence to complete this
section.Information under paragraph 3,page E-5-84 would apply,see co~ent
under that section (Section 3.7(c)(i)-Pine t1arten 0 Impacts).
4 -MITIGATION:paragra~h 1:The definition should reflect that established
in the APA f~itigation Po icy document and the NEPA definition.
Paragraph 4:~ithout proper coordination between Susitna study cOr.Jponents,
actions designed to r.Jini~ize one component's adverse i~pacts can un\/ittingly
adversely effect the ability of another component to mitigate.The major
mitigation proposals offered here are often in conflict with the mitigation
goals of the fish and wildlife resources components.Greater co~unication,
coordination must result in an open process to examine the tradeoffs when
mitigation proposals are offered which may pose impacts to other components.
Please refer to our CO~Jents concerning Section 3.7(c)(i)Aquatic Species
which appears to indicate a lack of component coordination.
para~raph 5.:Appropriate local,State and Federal agencies need to have input
to t is process.ContinuedClonitoring of changing mitigation needs in regard
to co~patability \lith r.Jitigation goals of other components is very important.
4.2 -Miti2ation Alternatives:How the goal of r.Jitigation as expressed in
this section conforms to the goals of l.litigation in the APA t1itigation Policy
document and the NEPA definition of mitigation should be explained.
(a)Tools that Influence the t-1agnitude and Geographic Distribution of
Project-Induced Changes
Paragraph 3:Scheduling constraints need to be reassessed in light of the
1atest power needs forecasts.Ue recommend that the extent to which impacts
could be mitigated-in each study component be examined through a tradeoff
analysis of the tir.Jing constraints which have been imposed.
paragra¥h 4:II.1pacts to fish and \lildlife resources,and thus indirectly to
users 0 tnese resources,are related to the type of construction car.Jp
established,access provided (route and mode),and the adQinistration of these
facilities.We perceive little coordination designed to Qini~ize i~pacts to
fish and wildlife resources as a part of the socioeconomic analysis.
para~raph 5:It appears as if management of the construction site is to be
passlve.That is,workers can come and go without restrictions.This appears
to be in confl ict with the statelilent on page E-5-91,"For th is project,there
will be no -daily cOmrJuting."Also,the assur.Jption that ~Jorkers will maintain
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their existing residences would follo\/only if the assuQption that the workers
would co~e almost entirely fro~the local and regional areas households.This
was strongly questioned in the previously referenced letter dated 27 nay 1982
from ADCRA,and on page E-5-94,IIThere are at least a couple of reasons to
believe that local labor ~ight have a difficult ti~e obtaining construction
jobs.1I
Paragraph 8:This paragraph suffers fro~internal inconsistences concerning
daily com~uting and use of personal vehicles.Please clarify the discussion.
Paragrap~:This section is supposed to be the Qitigation plan.
para,raph 12:The referenced studies should be coordinated with fish and
wild ife resources analyses and mitigation planning.Please refer to Section
4:Paragraphs 4 and 5 for additional cOr.lfilents.
(b)Tools that Help Communities and Other Bodies Cope \Jith Disruptions and
Budget Deficits
Paragraeh 2:In accordance \'1ith the APA IHtigation Policy docur.1ent,a
~onitorlny panel \Jould need to be established,at project expense,consisting
of representatives of appropriate local,State,and Federal agencies to carry
out the function of assessing the extent of actual iQpacts and recoh~endin~
modifications to the Qitigation progra~.t-1odification of the r,litigation plan
in the license would be through license a~endment.
paraGraph 10:Please refer to the cor.ll.lents imr.lediately above (Section
4.2():Paragraph 2).
Paragraphs 13 and 14:The question of whether or not the labor needs of the
project could be fulfilled largely through local hire (page E-5-44)or not
obviously is going to substantially effect socioecono~ic i~pacts.In that
uncertainty exists,as expressed in these paragraphs and in the 27 I~ay 1982
ADCRA letter to APA,\Je recommend a re-evaluation be carryed out as indicated
in Section 4.3 (on page E-5-95)and incorporated into the Exhibit E.
4.3 -IQ act Mana e~ent Pro ra~:Para ra h 4:Iter.1 1:In Qany respects the
Base Case,as lscussea 1n t lS ocuQent,1S a r.11n1mUm project impacts
scenario;this opinion is clearly expressed in our Chapter 5 .General
Comments.We believe that substantial uncertainty exists in key assumptions
and that a multiple scenario model is in order.The study should be updated
to reflect current state economic and population forecasts.
Item 2:Please refer to our COr.'lr.1ents on Section 4.2(b):Paragraph 2.
Item 3:Please refer to our comments on Section 4.2(b):Paragra~h 2.
I ter,l 4:Please refer to our comr.lents on Section 4.2(b):Paragraph 2.
Paragraph 5:Please refer to our COQments on Section 4.2(b):paragraph 2.
Table E-5-42:~'e recor;lITIend the addition of population estimates and any
changes in per~it regulations from 1970 to 1981.The nu~ber of hunters in
1980 is attributed to 1981 on page E-5-79.
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Chapter 6.GEOLOGICAL Arm SOIL RESOURCES:No COTl1Iilents.
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Chapter 7.RECREATIONAL RESOURCES
General Co~ments
Primary objectives of the Recreation Plan should be:a)to identify and
mitigate the project related adverse impacts to the existing uses of fish and
wildlife and other resources and,b)to maximize additional recreational
opportunities that are not in conflict with existing uses and the resources
they are based upon.This should be accomplished in the context of projected
demand during the construction and operation phases of the project.
In general ~Je find this chapter suffers from a lack of necessary information
which would achieve these objectives.In particular,the chapter fails to
outline alternative recreation options;evaluate the reco~ended plan and
alternatives over the entire economic project life;distinguish between
specific recreation users;recognize and identify specific responsibilities
with regard to implementation and operation of the plan;and lacks specificity
necessary to influence project development for the betterment of recreational
opportunities.
To allow the maximum flexibility for meeting recreational demands,it is
important that an array of alternative options be evaluated.This is
e~phasized by the lack of definitive demand projections and potential for
access during the construction periods.Furthermore,we view the tremendous
influx of people during the construction period as a major consideration for a
recreation plan.Specific measures r.Just be identified ~'ihich will not only
satisfy demand but also act as controls on overuse.The plan r.Just also
recognize the limited recreational carrying capacity of the area and deal with
the fact that all demands may not be satisfied.
Identification of specific responsibilities for ir.Jpler.Jentation and operation
of the Recreation Plan should be included.It does not suffice to place the
responsibility on the "management agencies,"without a detailed coordinated
effort with the agencies prior to issuance of the license.The plan must
clearly identify the applicant1s responsibility,the agencies·responsibility,
and clearly outline the procedures to be followed.The plan must recognize
the inherent restraints placed on the agencies and include as a project cost
compensations of them as appropriate for mitigation of project-induced ir.Jpacts.
The plan clearly fails to recognize the differences between sport,trophy,and
subsistence use of particular wildlife resources.The tendency has been to
lump these users as hunters with a major objective of bagging game.We submit
these are clearly distinct groups and should be so recognized.Cultural
differences regarding recreational pursuits have also been totally ignored in
the plan.
Lastly,the plan appears to have been written in a clearly reactive mode.
There is no recognition of any recreational planning initiative that has
influenced the physical layout of the project.This lack of initiative has
precluded developr~ent of recreational opportunities which could have avoided
some impacts while maintaining a higher aesthetic quality to the recreational
experience.
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Specific Comments
3 -PROJECT H1PACTS ON EXISTING RECREATION
3.1 -Watana Development
(al Reservoir
(il Construction:The discussion in this section needs to be expanded to
address non-consumptive and subsistence recreational users as \Je11 as sport
and trophy hunters.Furthermore,the section needs to address the eminent
competition bet\Jeen existing recreational users and construction ~Jorkers.
(ii)Operations:Discussions should be provided to address a new recreational
opportunity~~e.,boating on the reservoir,primarily for access to other
areas.
(b)_Talkeetna to Devil Canyon Fishery
(iil Construction:Since a plan for flow releases during the construction and
filling period has not been finalized,we do not know what effect flow will
have on fishing opportunity.Mitigation measures will be aimed at maintaining
existing fishing opportunities.
l!i)Operations:Since the proposed operational flo~J regime will likely
reduce Hater quantity in the sloughs,He anticipate a reduction in fishing
opportunity that must be mitigated,the potential for this adverse impact and
appropriate mitigation should be addressed.
(dl Other Land Related Recreation
(i)construction:parafiraph 2:Please expand and clarify the discussion.It
is our understanding t at the area !.:!l.l be open to the recreating public.
Paragraph 3:The discussion fails to address whether or not existing use
shifts to other areas is dependent upon several factors;e.g.,species
involved,availability of and restrictions on use of those species elsewhere,
existing demand already present in other areas,and cultural association with
those species.
(iil Operations:It is the responsibility of the project sponsor to identify
specific mitigation measures and develop a comprehensive plan which will
address this irapact."Proper control by lando\mers and managers,1J is not a
mitigation measure \Jithout appropriate compensation to implement and operate
the recreation plans.This cost should be identified and evaluated over the
economic project life and included as a project ~ost.
3.3 -Access
l!)Watana Access Road
..Li)Construction:para1rahh 2:Estimated recreational vehicle traffic both
prior to and after 199 S ould be presented.
(b)Devil Canyon Access Road
151 Construction:Paragraph 2:Mitigation for excavation of the borrow areas
could include the future use of these areas for recreation development.These
measures should be specifically identified and incorporated as part of the
Recreation Plan.
(ii)Op~rations:These "careful plans"should be a part of this docur.lent,if
not,who will develop these plans and when?The as~ociated costs should also
be discussed and displayed as project costs.Also,management
responsibilities during construction should be identified and discussed along
with associated costs.
(d)Other Land-Related Recreation
(ii)Operation:We feel this will be a significant impact and specific plans
should be identified and discussed in this document.
3.5 -Indirect Impacts --Project-Induced Recreation Demand
1~_LAssur,lptions:Paragraph l:This paragraph is very confusing and needs to
be clarified.In particular,that part dealing with mitigation.~e would
suggest,liThe proposed recreation plan is designed as mitigation for
recreation opportunities lost due to projectdevelopment ••••"
Para~raph 3:Assumption 6:We would suggest that a likely scenario associated
with this development will be a road access provided to the area without the
project.This scenario could drastically affect your evaluation.
(c)Estimated Recreation Demand
(ilPer Capita Participation nethod:Paragraph 8:This paragraph needs to be
expanded to discuss how subunits were considered,since you rely on the
"manager.1ent agencyn to contro 1 project demand,and th is wi 11 be done on a un it
and subunit basis.
P~r~:The simplification of your methodology also does not consider
tha~~~creation opportunities may becowe saturated,hence areas of low
use (project area)~ay become much ~ore important for future use and receive
an increase in dewand.
III fl--111·-·--c_•~._c_•••_
Chapter 8.AESTHETIC RESOURCES
General COli1li1ents
Ue find the chapter deficient in the following areas:1)it lacks the detail
necessary to d1st ingui sh the various user groups \/ith in the category "hunters
and fishermen,lI e.g.,the chapter characterized this group as only subsistence
users;2)avoidance has not been acknowledged as a mitigation measure,which
could significantly reduce potential impacts;and 3)the chapter does not
reference the incorporation of any mitigation measures into the project plans.
Specific Comments
3 -EXISTING ENVIRONNEHT (STEP 3)
3.2 -Viewer Sensitivity (Step 4)
Types of Viewers
(A)Hunters and Fishermen:Your categorization of hunters and fishermen lacks
thenecessary depth to anow meaningful analysis.There are three distinct
groups which must be identified and discussed,i.e.,sport,subsistence,and
trophy users.Ue submit that they are unique in their appreciation of
aesthetic quality.
(D)Nonresident Outdoor Recreation Enthusiasts:Trophy hunting and fishing
are readily identifiable user groups,especial1y in the Stephan Lake area.
This should be identified and evaluated.
Expectation of Views (A):The prime concern of some users is not bagging
their game or catching their limits.This distinction should be:made.
5 -PROPOSED tHTIGATION r,IEASURES (Step 9):The mitigation rneasures you have
identified are commendable.However,there is no indication in this section
that these measures have been addressed and incorporated into the project
plans.Pertinent sections of the license application should be cited to show
where these measures are addressed and/or reasons why they were not
addressed.We are also concerned that "avoidance,"as a mitigation measure
has not been addressed.We refer specifically to project features which could
be located elsewhere as a mitigation r,leasure or be more easily rnitigable in
another location.Access routes and town sites would fall into this category.
Chapter 9.LAND USE
General Comments
With regard to Section 2.2.(d)(i),we find the chapter suffers from a lack of
definitive information regarding wetlands and floodplains.These areas should
be graphically displayed by type in the document.Furthermore,the chapter
should discuss the specific values of these areas,their relationship with
other vegetative types,and specifically address the effects of the projects
on wetland and floodplains.
11itiyation measures recommended to minimize impacts to It/etlands and
floodplains should be discussed including alternative site locations.
This analysis is extremely important to avoid any delay necessitated to insure
compliance with federal requirements with Section 404 of the Clean Water Act
as amended (86 Stat.884,U.S.C.1344),associated regulations,guidelines and
Executive Orders (11988,11990).
Specific measures to mitigate impacts from the transmission line should also
be addressed,including right-of-way management techniques.
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i
Chapter 10 •ALTERNATIVE LOCATIONS,DESIGNS,AND ENERGY SOURCES
General COlillilents
r·lr.John Lawrence of Acres Ali1er i can,by 1etters dated 9 November 1981,
requested that the FWS review the Development Selection Report and the
Transmisson Corridor Report.These requests \lere made for the purpose of
fulfilling the FERC requirements of formal pre-license application
coordination.He responded to the first review request by letter dated 17
December 1981 and to the second by letter dated 5 January 1982.In that these
letters were requested as part of the formal coordination process,they should
be responded to at this time.
~le have been requested to review the draft Exh ibit E without benefit of the
other draft license Exhibits.In Chapter 10 numerous references are made to
other Exhibits (pp.E-IO-l,E-IO-l,E-10-14,E-IO-16,E-IO-23, E-IO-28,
E-IO-32,E-10-38,E-1O-62,E-1O-81).Since vie are unable to examine the other
Exhibits we view this pre-license coordination as unsatisfactory.
Additionally,in our examination of the Exhibit E chapters we have seen
numerous examples of insufficient internal coordination and/or communication.
In that this appears to be a problem within the Exhibit E,we can only assume
that this problem occurs between the Exhibit E and the other Exhibits.
Examples of lack of coordination and/or cor.~unication between Chapter 10 and
Chapters 2 and 3 are apparent in the discussion concerning minimum flow
releases (pp.E-IO-28,E-IO-30),temperature modeling (pp.E-IO-30,E-IO-31)
and socioeconomic consideration between this chapter and Chapter 5 Jpp.
E-IO-138)•These concerns are discussed ~iith in the text of our Specific
Comments.
There is essentially no attempt in this chapter to assess the possibility of
no Susitna project or how the Railbelt should contend with time delays of
various lengths.Just listing various types of alternative energy sources
does not allow an evaluation of what would,or should occur in the event that
Susitna is delayed for a period of years,or is never built.We recommend
that this type of planning effort be carried out to examine the effects of
short-term delays and to examine long-term alternatives.
Any assessment of alternatives,needs to take into account the most current
pO\ier needs project ions.It is our understanding that the power projections
which are beiny used in the license application are generally agreed to be
high and are being reevaluated for submittal to FERC after the license
application is submitted (Acres Ar.lerican Deputy Project r·1anager John Hayden,
personal communication).The environmental implications are rather evident.
Alternatives to Susitna should be exar.lined on the basis of fulfilling future
power needs rather than matching the power production of Susitna.Under
previous projected power needs,it probably would have taken a combination of
a greater number of individual power yenerating stations than under the latest
projections.Several,smaller individual generating facilities should lead to
greater flexibility in potential combinations and fewer adverse environmental
impacts.We recom.~nd that this be examined.
In the assessments provided on hydropmier alternatives,Susitna as proposed
and alternative basin developments are not evaluated on an equitable basis.
Tables are displayed which contrast the weak and strong points of these
alternatives yet we never see how the Susitna project ranks.This is
particularly unfortunate since Susitna would leave one with the initial
i~pression (which is the level to which the alternatives are examined)that it
would have significant adverse impacts to many of the environmental criteria
(page E-l0-4),includiny:(1)big game,(2)anadromous fish,(3)de facto
vlilderness,(4)cultural (subsistence),(5)recreation (existing),(6)
restricted land use,and (7)access.
There is no attempt in this chapter to examine the environmental tradeoffs of
the different power generation alternatives,including Susitna.Therefore,an
assessment as to \/hat would be the IIbest"pO\/er development for the Railbe1t
is not possible.Additionally,in that no single alternative source of power
is contemplated to provide the same level of power as Susitna (assuming the
updated future power demands projections assert that this power generation
capability is needed)various power generation mixes should be examined.
These alternative combination plans should then be compared to Susitna in a
tradeoff analysis.
One obvious alternative power generation mix (which is further discussed in
our Specific Comraents)should center on the power generating capability of the
West Cook Inlet area.In close proximity to each other and existing
transmission lines we have Chakachamna hydropower,Beluga Coal fields,Mt.
Spurr geothermal,and the West Cook Inlet natural gas fields.
Natural gas is considered by many to be a highly attractive alternative to
Susitna.1Zl,l§I Yet the coverage devoted to this subject was
disappointing,particularly when compared to other alternative power
generating technologies.Three times as much space is devoted to nuclear
power which is not generally considered as a socially acceptable alternative
to Susitna.Biomass,as an energy source,received twice the coverage of
natural gas,and wind power received more than four times the coverage devoted
to natural gas.This confirms what we perceive as misappropriation of
emphasis.Numerous reports have been issued over the last three years on the
natural gas alternative,including the two footnoted below.Few reports are
referenced in Section lO.3(c)(i)giving the ;Qpression that a very limited
effort was expended in researching this section.
Section lO.3(f)fails to reco~nize the most attractive geothermal alternative,
Mt.Spurr.Further discussion on this alternative is furnished in our Section
lO.3(f)specific co&vaents.
1Z!Erickson,G.K.March 1981.Natural Gas and Electric Power Alternatives
for the Railbelt.Legislative Affairs Agency,State of Alaska.9 pp.
18/Tussing,A.R.,and G.K.Erickson.August 1982.Alaska Energy Planning
Studies:Substantive Issues and the Effects of Recent Events (Draft).
Institute for Social and Economic Research,University of Alaska.15 pp.
....
pPi'i'Il.
Apparently no attempt has been made to assess alternatives to the proposed
construction calilp/village such as siting,type of camp,and administration of
the calilp.Alternatives to those proposed in the draft application obviously
exist and need to be openly examined.These implicit decisions have large
impl icat ions for the fish and wildlife resources and users.Considerations of
a Prudhoe Bay type camp should be given.Construction camp alternatives
should be discussed in terms of minimizing adverse impacts to fish and
wildlife resources and their use.We are concerned that not only were the
resource agencies not consulted previously on these actions but that
communication and coordination between those responsible for this chapter and
those involved in the socioeconomic,and the fish and \iildlife components did
not occur to a satisfactory level.
Due to the numerous inadequacies mentioned above the "concluding"Section 10.4
should not be expected to provide enlightenment regarding the consequences of
license denial.It does not.Additional inadequacies are discussed in the
Specific Co~wents which follow.
Specific Comments
10.1 -Alternative Hydroelectric Sites
(a)Non-Susitna Hydroelectric Alternatives:Paragraph 1:Reference is made
to Exhibit B which was not provided,although we requested it.
(i)_ScreenjQg of Candidate Sites:Paragraph 1:Reference is rJade to Exhibit
B,which has not been furnished,although we requested it.
-Second Iteration:Paragraph 2:The criteria should reflect that:(1)just
because salmon migrate above a site doesn't mean losses to anadromous fish are
unavoidable (e.g.Chakachamna);and (2)just because anadromous fish are not
found above a potential site,adverse impacts are avoidable (e.g.Susitna).
(ii)Basis of Evaluation:It would appear appropriate to include Susitna and
within Susitna basin alternatives in the evaluation matrices.
(iii)Rank Weighting and Scoring:para~raah 1:The interrelationships of the
environmental criteria should be recognlZe and assessed.Dramatic changes in
anyone itelil would have repercussions to all others.
(iv)Evaluation Results:We recommend that all evaluation matrices include
Susitna and within Susitna basin alternatives.
(v)Plan Forlilulation and Evaluation:We recolilmend that all evaluation
matrices include Susitna and within Susitna basin alternatives.
This evaluation should be reassessed in terms of current projections for
future power needs.The present examination apparently is geared toward
looking at various power generation alternatives (which are not specifically
described)on the basis of providing an equal alilount of generating capacity to
what Su.sitna would provide.We recolilJTIend that these alternative plans be
reassessed in light of current power projections.
(c)Upper Susitna Basin Hydroelectric Alternatives:Paragraph 3:Reference
is made to Exnibit B,which has not been furnished,although we requested it.
(ii)Site Screening
-Energy Contribution:Reference is r.lade to Exhibit B,which has not been
furnished,although we requested it.
(v)Comparison of Plans
-Energy Contribution:paragrahh 2:Reference is made to Exhibit B,which
has not been furnished,althoug we have requested it.
10.2 -Alternative Facility Deisgns
~Watana Facility Design Alternatives
(i)Diversion/Emergency Release Facilities:Paragraph 1:Reference is made
to Exhibit B,which has not been furnished,although we requested it.
It is stated that,"Tables B.61 and B.62 of Exhibit B show the minimum flm~
releases from the Watana and Devil Canyon dams required to maintain an
adequate flow at Gold Creek.These release levels have been established to
avoid adverse affects on the Salmon [SIC]fishery downstream."Perhaps a more
accurate appraisal can be found in Chapter 4 (page E-4-3),liThe impact of ••
•upriver and downriver changes in hydrology •.•cannot be assessed at this
time due to the lack of information concerning the amount,type and location
of disturbances associated with these activities."In Chapters 2 and 3 it is
stated that the reduced flows could impair fish migration,de-water spawning
and rearing habitat,prevent access to slough and side channel habitats and
lower or eliminate intragravel flows to slough and side channel spawning
grounds.The minimum flows proposed were not developed using any recognized
instream flow methodologies,and lack any biological basis other than the most
rudimentary.In fact,no explanation is offered in the Exhibit E as to how
the 12,000 cfs minimum operating flows for August and into September were
arrived at.
(iii)Power Intake and Water Passages:Paragraph 2:The statement is made
that a multi-intake structure would be used,IJ •••in order to control the
dmmstream river temperatures within acceptable limits.11 The Yatana and Devil
Canyon dams will cause changes to the existing water temperature of the
Susitna River,generally releasing cooler water during summer months and
warmer water in winter.This,in turn,may present significant impact to the
downstream riverine environment.TeIJperature variations Iilay affect the
ability of fish to migrate,spawn,feed,and develop in the Susitna system.
Ice formation may be delayed or possibly not occur above Talkeetna.This
issue is discussed at length in Chapters 2 and 3 although an accurate
description of post-project temperature impacts is not presented.The raodel
which was developed to describe reservoir outflow temperatures contains input
data fro~only five months (June through October)of one year (1981).The
Devil Canyon Reservoir was not ~odeled,but in Chapter 2 it is stated that the
location of ice for~ation (above Talkeetna)will depend on the outflml
telilperature fror.1 Devil Canyon darn (paye E-2-83).
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I
Paragraph 3:Please reference our comments on Section 10.2{a)(i)concerning
min ililut1·f1 O\lS.
(b)Devil Canyon Facility Design Alternatives
(iil Plan Evaluation:para~raph 1:Reference is made to'Exhibit B,which has
not been furnished,althoug·we requested it.
Item Nur.1ber 5:Paragraph 1:It is ackno\~ledged that a problem exists in the
potential of the access road and traffic to affect caribou movements,
population size,and productivity.Avoidance of the problem by eliminating
the Denali Highway to ~Jatana access segment \Iould be consistent with the APA
r·litigation Policy docufilent,the recommendations of the resource agencies,and
NEPA.As is stated in Appendix B.3 of the Susitna Hydroelectric Project
Access Plan Recoli1r.lendation Report (Au~ust,1982),IIFrom a caribou conservation
viewpoint,the Denali access route is far less desirable than proposed routes
originating on the Alaska Railroad and Parks Highway.The Denali route would
most certainly have ili1li1ediate detrimental impacts on the resident subherd and
future negative impacts on the main Nelchina herd although these impacts
cannot be quantified."
Item Number 7:parawaE.!!....i:Both the M'A t·1itigation Policy document and NEPA
acknowledge that it 1S Detter to avoid an adverse impact than to try to
filinifilize it,uthrough proper engineering design and prudent manageli1ent.11
M'A's approach should better reflect this in their decisions concerning access
routing.In addition,reference is made to discussion "in Exhibit E."This
is the Exhibit E.
(d)·Transmission Alternatives:By letter dated..9 November 1982,r·1r.John
Lawrence of Acres American requested our review of the Transmission Corridor
Report as part of the formal pre-license coordination process.We responded
by letter dated 5 January 1982.In that it was requested as part of this
formal pre~license coordination process and \Ie responded vilth this
understanding,the issues raised and recommendations made in that letter
should be addressed at this time..
-105-
(iii)Identification of Corridors:para~raph 2;Reference is made to Exhibit
B,which has not been furnished,altnoug we requested it.
(vi)Screening Results
-Central Study Area
Corridors Technically and Economically Acceptable
o Corridor One (ABCD)-Watana to the Intertie via South Shore of the Susitna
River
•Environmental:Given the APA decision to have road access for the Watana
damsite to the Devil Canyon damsite along the north.side of the river,we do
not understand how it can be considered best environmentally (rating of "A")
to have the transmission line along the south side of the Susitna River.In
our 5 January 1982 letter \,ie stated,"How construction -and maintenance-
related access is obtained to a great extent determines the project-related
wildlife and socioeconomic impacts.Construction and maintenance of
transmission lines should not provide for additional public access over that
provided by the dam accessroute."and,IIAccess to the dams should be fully
coordinated with transmission line routing.Access corridors which serve a
dual purpose in regard to project access needs would be highly desirable from
several decision-making criteria."This potential for increased access
provided by the transmission line routing is readi1y acknowledged elsewhere in
the Exhibit E (page E-5-84).This apparent inconsistency needs to be
clarified.
o Corridor Thirteen (ABCF)-Watana to Devil Canyon via South Shore,Devil
Canyo~to Intertie via North Shore,Susitna River
.Environmental:Please refer to our comments above on Corridor One (ABCD).
(ix)Results and Conclusions:Paragraph 3:Reference is made to Exhibit G
which was not provided,although we requested it.
(e)Borrow Site Alternatives:Unless unavoidable,borrow sites should be
restricted to within the future impoundments and/or to upland sites.
Selection should be coordinated with access and transmission line routing and
with resource agencies.We have not previously been contacted for the purpose
of providing input and we do not have any project plans or assessments upon
which to provide specific input.
No attempt is offered to assess the environmental tradeoffs that would be made
by selecting one borrow site alternative over another.We have assumed this
is the underlying intent of including this type of alternatives comparison in
the environmental Exhibit Eo We recommend that this be undertaken to an equal
level for alternative borrow sites,access routes,transmission routes,and
other alternative project features.
10.3 -Alternative Electrical Energy Sources
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(a)Coal-Fired Generation Alternative
There are three main deficiencies in the discussion of Beluga Coal development
as an alternative to the Susitna project:
1.No quantitative estimates of the areas or resources to be affected by
coal development are included.We recommend you include a description
of:Ca)schedules for development;(b)area fish and wildlife
populations;(c)habitat types and areas to be disturbed,altered,or
destroyed;(d)construction and operation work forces necessary for
project development;(e)magnitude of commercial,recreational,and
subsistence use of Beluga area fish and wildlife resource;and (f)
numbers of fish and wildlife which may be impacted by project development •
We realize that such information is still very tentative for the Beluga
project and project impacts have barely been evaluated.However,recent
field studies should allow you to approximate the magnitude of the
resources involved and potential for impacts to them.
2.A direct comparison with Susitna development plans and anticipated
impacts is lacking.Comparison of the information identified in 1.,
above,with similar information for the Susitna project should be
provided.For example,the commercial,recreational,and subsistence
harvests and pressures for use of the Beluga area should be compared to
Susitna area resources.Acreages and habitat types that would be
impacted by alternative development scenarios should be compared.The
magnitudes of project impacts relative to fish and wildlife needs to be
analyzed.Also,the work force and time frame which would be required
for Susitna should be compared to Beluga developments,for the same power
needs.
3.Reasons for rejecting Beluga coal-fired generation or Beluga coal in
combination with smaller hydroelectric projects or other energy sources,
as an alternative to development of Susitna hydropower are not given.
Paragraph 1:Since ~4e were not provided with a copy of Exhibit B,we cannot'+
comment on the adequacy of the referenced analysis of the economic feasibility
of Beluga Coal.We would hope the analysis includes discussion of private
financial backing for Beluga Coal development as compared to State financing
involved with the Susitna project.Further discussion of the feasibility of
alternative Beluga development schemes may be found in a State report by Gene
Rutledge,Darlene Lane,and Greg Edb1em,1980,Alaska Regional Energy
Resources Planning Project,Phase 2,Coal,Hydroelectric,and Energy
Alternatives,Volume 1,Beluga Coal District Analysis.Current soft foreign
market conditions are exemplified by recent slow downs of the most active
Beluga coal lease-holders in completing ongoing environmental studies
necessary for permitting.It would be helpful to know to what extent the
State is working with the private 1iaseho1ders to consider State use of any
portion of Beluga Coal production.We understand that the lease holders do
not expect to complete financial feasibility studies before the second half of
1983.
parafraeh 2:Although specifics of plant design and location are not yet
avai able,more detailed information can be provided on the magnitude,and
-107-
probable initial development alternatives,including export of Beluga coal to
Pacific Rim countries.We recommend addition of an area map with locations of
existing leases,potential camps and development facilities,and alternative
transportation and transmission corridors.
para1raeh 3:We recommend expanding this paragraph to consider the
aval ablllty and probability of coal development in Southcentral Alaska.
According to current industry plans,Beluga coal resources are sufficient to
allow mining for export of 5 million tons per year (with possible expansion to
10 million tons)on Beluga Coal Company leases and 6 to 13 million tons per
year from the 20,500 acre Diamond Alaska Coal Company lease for at least 30-;0'
years •.!V The availability of this or other developments as an energy'",
source for Alaska has been increased with recent State promotions of _~
additional coal exploration.The State has proposed a competitive coal lease
sale during the first half of 1983 for 25,000 acres near Beluga Lake.Also'
under consideration is a non-competitive coal rights disposal west of the
Susitna River.~10reover,Bering River coal development has been the subject
of recent proposals for exploration and environmental studies.
(i)Existing Environmental Condition:As described earlier,the qualitative
discussion provided here allows no comparison with the Susitna project.We
recommend describing detailed U.S.Forest Service and Soil Conservation
Service data for the area and ongoing studies which should result in a more
detailed classification of area vegetation.
The predominance of wetlands,particularly near the coast,are discernable on
FWS 1 National Wetland Inventory maps available for the area.Those wetlands
are particularly important habitats for the diverse bird life described in
later paragraphs.
o Fauna,Paragraph 1:Clarification is necessary regarding the referenced
"Selvon fishery".
Paragraph 2:We recommend describing numbers of bald eagle and trumpeter swan
nests relative to numbers in the Susitna project area.
-Aquatic Ecosystem:Additional information should be prOVided on the
quantity and quality of this system (e.g.the extent to which spawning,
rearing,and overwintering areas have been identified within and downstream of
the lease areas).
-Marine Ecosystem:Although species presence is described,there is no
quantitative information on their relative abundance,or habitat quality.,
Figures cited for the referenced Cook Inlet fishery is dependent upon Beluga,
Susitna,and other area systems.An assessment of the proportion of that
fishery which depends on the Beluga system compared to the Susitna system
should be prOVided.
l2!Beluga Coal Company and Diamond Alaska Coal Company.January 1982.
Overview of Beluga Area CoaT Development Projects.
-108-
"...
-Socioeconomic Conditions:The discussion should be expanded to cover
current levels of cofoll.lerclal,subsistence,and recreational fish and wildlife
use.
(ii)Environmental Impacts
-Air Quality:The potential for mitigating the air pollutLnts described here
should be dlscussed.
-Terrestrial Ecosystems:The range of terrestrial habitat to be annually
impacted should be quantified and compared with Susitna development plans.In
addition to habitats disturbed by mining,project features such as roads and
transmission corridors which could be expected with coal development should be
described.While the road system required for coal develop~ent should be
substantialy less than that for the Susitna project,the potential for
restoring mined lands to original habitat values is untested for the area.
Paragraph 2:ADF&G harvest data should be included here.The correlation
between hunting pressure and current access should also be discussed in
quantifying roads and human population increases anticipated fro~Beluga Coal
development.Human/wildlife conflicts (e.g.bears shot in defense of life 9r
property,wildlif~mortality from additional vehicle traffic and roads)is
another critical impact not mentioned here.
- A uatic and Marine Ecosystems:So~e quantification of anticipated impacts
can e r.la e an s ou e lllC uded here.Deve 1opr.lent of both Be 1uga Coa 1
Company1s and Diamond Alaska Coal Company's lease holdings could eliminate
nine stream-miles of existing anadromous and resident fish habitat.Stream
restoration to original habitat quality will be difficult,to impossible,to
attain.According to preliminary flow information,nearly half the total flow
in the Chuitna River originates in or flows throu~h the proposed mine pits.
Assuming that half the anadrornous fish production is lost from the Chuitna
system,ADF&G estimates the annual loss of fish available to Cook Inlet
fisheries will be within the following ranges:
-109-
We recon~end contrasting this information with preliminary i~pact assess~ents
for Susitna and other alternative project develop~ents in the license
application.The co~parison should also cover resident fish species,big game
and furbearer populations and harvest levels,and areas and types of habitats
to be altered or destroyed.Data gaps and uncertainties should be clarified
in an acco~panying discussion.
-Socioecono~ic Conditions:Recently published reports by the ADF&G docu~ent
the magnitude of subsistence hunting and fishing by Tyonek area
residents.~,~,22/Ue reco~mend that you discuss these findings in
assessing fish and \Jildlife resource uses which may be affected by BelugacQal
deve 1oprolent.
A general discussion of the socioecono~ic i~pacts on Tyonek fro~developing
Susitna or Chakachamna hydropower projects,as compared to Beluga coal
develop~ent is given in a recent report for the ADCRA.23/Tyonek apparently
supports coal development as lony as it does not inhibit their ability to
subsistence hunt and fish.Consideration should be given to similar local
support or opposition to the Susitna project.
Although the purpose of this section is to describe Beluya as an alternative
to Susitna,Beluga coal development would undoubtedly include additional
~ining for export.Thus while the discussion appropriately describes the
incremental workers associated with the power generation facilities only,the
entire develop~ent \lill influence the per~anence of the workforce.The report
is confusing in the discussion on whether a fly-in construction camp or
permanent townsite is to be established (see pages E-10-81(a)paragraph 3,
E-10-88,last two paragraphs,and E-10-89,paragraph 1).So~e discussion is
needed of both alternatives,resultant impacts on fish and wildlife uses,and
the potential for mitigation.
20/Foster,Dan.riovember 1982.The utilization of king sallilon and the
annual round of resource uses in Tyonek,Alaska.ADF&G,Division of
Subsistence,Anchorage.62 pp.(see page 36 for data on fish and
wildife harvest).
W .I·larch 1982.Tyonik moose utilization,1981.ADF&G,
Dlvision of Subsistence,Anchorage.29 pp.+appendices.
22/Stanek,Ronald T.,Jar.1es Fall,and Dan Foster.11arch 1982.
Subsistence shellfish use in three Cook Inlet Villages,1981:A
preliminary report.ADF&G,Division of Subsistence,Anchorage.28
pp.
23/Darbyshire and Associates.Dece~ber 1981.Socioecono~ic im~act study
of resource developr,lent in the Tyonek/Beluga coal area.Anchorage,
Alaska.
-110-
-
(c)Ther~a1 Alternatives other than Coal
(i)Natural Gas:In that natural gas is considered by many to be the best
single source alternative to Susitna 24/,25/it is disconcerting to see
so ~ini~a1 an effort expended exa~ining this alternative.The effort should
be at least equal to that provided to the assessment of alternative hydropower
sites and coal.Anything less must be considered inadequate.No examination
specific to natural gas in regard to potential environmental impacts is
provided nor is a tradeoff examination of natural gas,and other
alternatives.Without this,one cannot determine whether or not a proposal is
the best of all alternatives.
Discussion should be provided on the potential impact of the recent signing of
natural gas supply contracts between the Enstar Corporation and Marathon and
Shell Oil Companies.Discussion should focus on the impacts of these
contracts,if approved,not only on allocated natural gas reserves,but also
on predicting future use,pricing,potential future de~and of electricity for
hOlile heating through the Hatanuska-Susitna Borou~h,and future availability
and pricing of natural gas for electrical energy generation.
(iv)Environr.lenta1 Considerations:It is unclear as to ~/hat this section is
in reference to.If it is meant to cover all types of fossil fuel burning
power plants,it is insufficient.We do not consider the potential
environ~enta1 impacts of burning natural gas to be the same as for diesel,
oil,or coal.We recommend that environmental considerations be examined
separately for each of these fuel alternatives.Then they should be examined
through a tradeoff analysis which would include Susitna,as proposed,other
hydropower projects,and alternative within basin alternatives,and other
alternatives to Susitna.
lluch of the section centers on the potential ir.lpacts/prob1ems "/hich \lOu1d
occur with increased dependence on coal for power generation.Given that the
section is entitled (c)Ther~a1 Alternatives other than Coal this would seew
inappropriate.
(f)Geother~a1:This section fails to recognize,other than parenthetically,
the most attractive geothermal alternative,Mt.Spurr.We therefore,
recolilT.lend that APA examine the feasibility of geothermal energy development at
this site as an alternative to Susitna.Mt.Spurr is being considered by the
Division of llinera1s and Ener~y Manage~ent of the ADNR as their first
24/Erickson,G.K.!·tarch 1981.Natural Gas and Electric PO\'ier
Alternatives for the Rai1be1t.Legislative Affairs Agency,State of
Alaska.9 pp.
25/Tussing,A.R.,and G.K.Erickson.August 1982.Alaska Energy Planning
Studies:Substantive Issues and the Effects of Recent Events
(Draft).Institute for Social and Economic Research,University of
Alaska.15 pp.
-111-
geothermal lease sale area.They concluded it is the best potential
yeothermal development site within their jurisdiction.It is beiny proposed
because:(1)it has high potential;(2)it is located on State land;and (3)
it is close to existing transmission lines (Beluga Station).In addition.it
is in an area already being explored for po\/er development,being located
between the Chakachatna River and the Beluga Coal fields,and the area is
crisscrossed by logging roads.It \wuld also seelil logical to explore the
possibility of a \Jest Cook Inlet power generation alternative to Susitna.
This combination would be composed of Mt.Spurr geothermal,Chakachamna
hydropower.Beluga coal,and West Cook Inlet natural gas.Obvious advantages
would be found in the isolation of adverse environ~ental impacts to a
relatively small area which already has transmission facilities.
10.4 Environmental Consequences of License Denial:This section provides
little insight as to what might occur if Susitna were not built.We hope that
a greater planning effort is ongoing to allow the State to adequately address
this issue.It would seem that the first approach to this problem would
involve a tradeoff analysis,looking at environmental as well as other issues,
to examine appropriate alternatives to the Susitna project.The analysis
should be directed at:(1)short-term planning.in the event that Susitna is
delayed for various lengths of time;and (2)long-term planning so that we do
have a fall back plan in the event that Susitna is not licensed.We recomr.lend
that this be undertaken.
There is no examination of socioeconomic impacts in the event that the Susitna
project license is denied.We consider the potential for a boom-bust
occurrence to be yreat with construction of Susitna.Without Susitna we.
therefore,would consider this as ~uch less likely.In the event we do not
have Susitna,we would expect the construction of much smaller power
generation units which .../Quld COlile on-line over a r.luch longer period of til.le.
He recor.1r.lend that the socioeconomic ir,lplications of license denial be assessed.
-112-
SOUTHCENTRAL REGIONAL OFFICE
January 21,198
~~~~[@~~~~~~&
DEPT.OF ENVIRONMENTAL CONSERVATION
Mr.Eric You1d
Executive Director
Alaska Power Authority
334 West 5th Avenue
Anchorage,Alaska 99501
Dear Mr.You1d:
o
o
RECEIVED
JAN 2 11983 0
I.:J.SKA ruWER AUTHORITY
BILL SHEFFIELD,GOVERNOR
437 E.:iTREEl
SECOND FLOOR
ANCHORAGE.ALASf(A 99501
(907)274·2533
P.O.BOX 615
KODIAK.ALASKA 99615
(9071 486-3350
P.O.BOX 1207
SOLDOTNA.ALASKA 99669
(907)262-5210
P.O.BOX 1709
VALDEZ.ALASKA 99686
(907)835-4698
P.O.BOX 1064
WASILLA.ALASKA 99687
(907)376-5038
.....
,~
The Alaska Department of Environmental Conservation is pleased to respond to
the Alaska Power Authority's request for comments on the Susitna Hydroelectric
Project,Federal Energy Regulatory License Application,Exhibit E.These
comments are organi zed i "to seven primary categori.es and are presented below.
A.Water ,.Qua 1;ty
1.The discussion on water quality impacts is well done for both the
Watana and Devil Canyon dams.The major impact to water quality is
from a change in the downstream water temperature that will occur with
the project operati on.The Reservoi r Temperature Model (DVRESM)is
des;gned to predi ct reservoi r outflow temperatures to an accuracy of
±2°C.That is a range of vari ation of 4°C.A di fference of 4°C
in predicted outflow temperatures could have a significant effect on
the actua.1 versus the predi cted impact on downstream fi sheri es.Thi s
model i ng effort shou1 d be developed to predi ct reservoi r operati ng
parameters when using a given downstream impact,essentially working
the model backwards.Accurate estimates of the predi cted downstream
river temperatures are an essential component of the impact assessment
process.
2.The sheer magnitude of the construction project will create a high
potential for soil erosion that may affect water quality.The Exhibit
E needs to be more specific on how these problems will be mitigated.
Methodologies need to be described in detail for construction of the
road,dam and townsites,and other project ent"ities.
B.Hazardous Substances
A very 1arge amount of hazardous substances wi 11 be transported to,and
ut ili zed at,the project site.Oi scharges of hazardous substances cou1 d
contami nate 1and as well as surface and ground water.Further impacts
could occur to human welfare,fish,and wildlife.
The Exhibit E document does not address the major possible sources of fuel
spi 11 s,but rather the mi nor ones (1 eaky hydrau1 ic 1i nes and water pumps).
A very deta'iled oil spill contingency plan needs to be developed that will
have several major objectives and be written to account for a major (i .e.,
tank truck roll-over),as well as a minor spill event.
Mr.Eric Yould
January 21,1983
Page 2
The plan should be responsive to project needs and yet be simple enough to
be functional.Major objectives of the plan are discussed in detail below:
1.To develop a training program that will stress ,spill prevention.This
program needs to cover spill response under all project conditions and
set up several response scenarios.
2.To develop the response capability to adequately handle the worst case
spill expected.This response capability should be developed for the
Watana and Devil Canyon camps and the railhead staging area.This
would mean staging spill cleanup equipment at all sites.All hazard-
ous substances that will be used on site need to be considered (sol-
vents,chemical additives,etc.).
3.To develop an immediate response team for each work shift,consisting
of personnel dedicated to spill containment.and cleanup,should a
discharge incident occur.This response team would have a designated
1eader who woul d di rect the team.A compl ete trai ni ng program in
spill response for this team would be essential.
4.To contai n a small secti on on the project area envi ronment.Thi s
would include a map of major drainage areas,fish habitat and seasonal
descriptions,and wildlife habitat and seasonal descriptions.The
environmental section is very important in prioritizing spill response
actions (i.e.,most sensitive areas first),and for developing an ap-
preciation for the impact a spill can have.
C.Wastewater Treatment
The type of wastewater treatment plant to be used at each camp site has to
be described in greater detail to more adequately evaluate its effective-
ness.The discharge from the Watana treatment facility may not meet fecal
coliform standards because of inadequate dilution.The discharge zone
should be well defined for both facilities.The Watana and Devil Canyon
camp wastewater treatment plants are to be functioning and approved before
each camp ;s in operation.
D.Concrete Batching Plant
Potenti al impacts that may occur from the concrete producti on process are
not described in enough detail.The discharge from this process will also
have,in addition to pH changes,problems with siltation,turbidity and
possibly toxic additives used in the curing process.Siltation from
concrete can form a mat over substrate gravels.This could suffocate
emergi ng sal mon fry or other i ndi genous organi sms that requi re substrate
habitat.Discharges that may have toxic concrete additives as a component
may k-ill aquatic organisms.The batching process may also have airborne
particulate problems.Specific control measures need to be described in
detail for each type of problem that may be encountered.
Mr.Eric You1d
January 21,1983
Page 3
E.
F.
Access Corridors
The access route (Plan 17)was determined,during the access route selec-
tion process,to have greater potential for major environmental impacts
than the other route options."The major impacts of concern were:
1.The Denali Highway to"Watana Dam site portion passes through habitat
that has historically been used by portions of the Ne1china caribou
herd.
2.Many native grayling streams can potentially be affected during the
construction of the Denali Highway to Watana Dam site access section.
3.Access along the s.quth side of the Susitna River from the Watana to
Devi 1 Canyon Dam sites passes through the Stephan Lake regi on.Thi s
region is important habitat for moose,wintering caribou,migrating
waterfowl,and fur bearers~
4.Wetlands habitat is crossed southwest of Devil Canyon.
Because of the greater potential for major impacts associated with the
Plan 17 access option,more attention should be given to defining the
methods that will be implemented to mitigate these impacts.For example:
1.How will the access route be designed to minimize disruption to
the caribou herd?
2.What technique will be implemented to prevent impacts to native
grayling streams from road construction?
3.How will impacts to the Stephan Lake region be reduced?
4.How wi 11 project and post-project access be contro 11 ed to prevent
secondary impacts related to access?
Fishery Impact Assessment
The field data base is incomplete for an accurate prediction of the impact
the Susitna Hydroelectric Project will have on fishery resources.A good
set of data has been collected for only two years.Fishery population and
related water quality data can have inherent fluctuations from year to
year.Long term,1 arge-sca1e programs need to be implemented in order to
make a reasonably accurate population estimate.Very specific detailed
studies designed to correlate physical and chemical aspects of the aquatic
habitat to population fluctuations need to be part of the long term program.
This program should be continued through project construction.
Mr.Eric Yould
January 21,1983
Page 4
If impacts cannot be accurately predicted,a worst case (100%loss)estimate
of the fishery population should be assumed and the implications this
impact would have to the aquatic community and related resource use need
to be discussed.By assuming a worst case estimate,a type of mitigation
program can then be developed where compensation to the fishery population
can occur to resu1t in an acceptable loss.
A long term "post-project aquatic monitoring program should be developed as
an integral part of the project.Funds should be allocated in advance to
insure the continued existance of this program.The monitoring program is
essential to determine the effectiveness of mitigation measures that are
implementedo
G.Interagency Review Board
It is strongly recommended that a formal interagency review board be estab-
lished to work with the Alaska Power Authority in the development of the
Susitna Hydroelectric Project.This board will identify and comment on
socioeconomic and environmental issues and regulatory requirements.It
is suggested that the Formal Designation of the Susitna Technical Advisory
Committee (see attached memo to you dated November 17,1982)be implemented
to accomodate this recommendation.
Once project construct ion begi ns,a simi 1ar interagency board shaul d be
established to monitor the socioeconomic and environmental impacts and
regulatory compliance.This board would make recommendations to the Alaska
Power Authority to correct associated problems as necessary.
The Alaska Department of Environmental Conservation appreciates this oppor-
tunity to comment on the Susitna Hydroelectric Project,Federal Energy Regula-
tory Li cense Appl i cati on,Exhi bit E and hopes that these comments wi 11 be useful
to you.If you have any questions,or if we can be of further assistance,do
not hesitate to contact Bob Martin or Steve Zrake in Anchorage.
Si ncere ly,<---I ..-.
Richard A.Neve
Commissioner
Attachment
cc:Bob Martin,ADEC,Anchorage
Steve Zrake,ADEC,Anchorage
Su-Hydro Steering Committee
1f"T"l------n1·-------..~--"--..-----...----------
Srate of Alaska
-Board of Directors
TO:Alaska Power Authori ty
Al Carson.Chairman
FROM:Susitna Hydro
Steering Committee
INTRODUCTION:
DATE:
FILE NO:
TELEPHONE NO:
SUBJECT:
November 17.fuse E,V Eo
JAN 2 11983
274 -2533 ALASKA POWER AUTHORITY.
Formal Designation of the
Susitna Technical
Advisory Committee
-
.-
The Susitna Hydro Steering Committee was establ ished in 1979 as an
ad hoc advi sory group compri sed of representatives of State and
federal agencies to provide comments,and advice to the Alaska Power
Authori ty (APA)staff regardi ng feasibil;ty studies of the Susi tna
Hydroelectric Project.The group has met on an liaS needed"basis
over a peri od of some blo years.revi e\'li ng reports prepared for the
Susitna Feasibi li ty Study by vari ous contract consul tants to the
Power Authori ty.In recent testimony before the Power Author;ty
Board the majority of State and Federal ,agencies expressed the need
for a more formal mechanism to provide advice to the APA staff and
Board on a variety of subjects relating to Susitna.In response to
agencies testimony on this topiC.the A.P.A.Board requested that a
charter and agreement be drafted to formal i ze the advi sory rel ation-
ship between the State and federal regulatory agencies and the APA.
Therefore.we recommend that the following organization and charter
be considered for adoption.
FORMAL ORGANIZATION &CHARTER:
It is proposed that an interagency.interdisciplinary organization
of State and federal personnel be establ i shed to provide advice and
comment on feasibility studies and FERC applications to the Alaska
PO\,/,er Authority staff and Board of Directors.The focus of this
Susitna Technical Advisory Committee (STAC)would be in an advisory
capaci ty to comment on the adequacy of studi es done for the FERC
application for the Susitna Project.The committee would be charged
with advising the APA staff and Board on the acceptability of feasi-
bilityand mitigation studies.The charter includes the formal
des i gnati on of agency representatives,and a memorandum of agreement
(attached)which all parties would be signatory to.The committee's
tasks would be specified in detail via the coopel·ative agreement.
The APA staff would commit sufficient support to the ST~C to provide
clerical assistance in typing and mailing..information and STAC meeting
minutes to STAC members.In addition.the APA staff would provide
briefings by its staff,contractors and External Review Panel members
02·001 AlAn.10/191
Board of f>.:,,"ectors
Page 2
November 17.1982
on those"proj ect matters germane to the STAC.Formal STAC parti ci pati on
would be limited to those agencies which share a responsibility for
reviewing and/or issuing permits for the project.The respective
State and federal agencies in cooperation with the APA Staff \'/ill
provide advice on the State and federal permit activities and with
the FERC licensing process.This agreement in no way affects,binds
or changes the authority or responsibility of any participating
agency wi th respect to proj ect penni tti og or formal comments and
recommendations to FERC.
PROPOSED ORGANIZATION CHART:
The following chart (attached)represents a proposed organization of
the State and federal agencies to coordinate with and advise the APA
Board regarding all technical aspects of the Susitna Hydroelectric
Project.
ORGANIZATION AND SCOPE:
The Susitna Technical Advisory Committee (STAC)would operate in
an "advi sory capaci ty to the APA staff and Board.The APA woul d
provide staff assistance to the STAC.The focus of this organization
is to provide advice on studies and required permits,appropriate to
assist the APA to meet the goal of fulfilling the Exhibit E require-
ments of the FERC 1 icense appl ication (Federal Register,Vol.46.
#219,November 13.1981).
i ]-1 i J 1 J -1 1 ---1 J J 1 1
r I
I ALASKA POWER AUTHORITY BOARD OF DIRECTORS I
I I
I
\
I I
I \I I .,..1-------:---------,-\
I ALAS~A POWER I \SUSITNA HYDROELECTRIC PROJECT I
I AUTHORITY STAFF I I TECHNICAL ADVISORS STEERING COMMITTEE I
I \I l I
I
I
Designee ...................................'.I I
\CHA I Rr4AN I
I I
. I
\
Community &Regional Affairs
Environmental Conservation
Fish &Game
Natural Resources
Transportation &Public Facilities
I I
I I
Ex Officio State
U.S.Geological Survey
Arc tic Env i ronlnen ta 1
Information and Data
Center
I
\
Federal
Bureau of Land Management
Corps of Engineers
Environmental Protection Agency
Fish &Wildlife Service
National Marine Fisheries
Service
National Oceanic &Atmospheric
Administration l
National Park Service
COOPERATIVE AGREEMENT
Between
the State of Alaska Resource Agencies,
the Federal Resource Agencies,
and the Alaska Power Authority
.Board of Directors
This cooperative agreement formalizes an interagency,interdisciplinary
Susitna Technical Advisory Committee (STAC)to be staffed by both State
and federaf resource agencies to provide the APA staff and Board of
Di rec tors assi stance in assessi ng the feasibil ity of the Susi tna Hyd:-o-
electric ?roject.The State agencies,including the Alaska Departments of
COiill1uni ty &Regional Affairs,Envi ronmental Conservation,Fish &Game,
Ua tural Resources,and Transporta ti on &Publ ic Facil i ti es and the federal
agencies i ncl udi ng the Bureau of Land i1anagement,Corps of Engineers,
Environr.tental Protection Agency,Fish &\Hldlife Service,National Park
Service,and National Oceanic &Atmospheric Administration,agree to serve
coll ecti vely,as descri bed herei n,in an ad'li sory capaci ty regarding the
util i ty,rel evance and approp";ateness of studi es funded by the APA for
the Susitna Hydroelectric Project through possible licensing and implementa-
ti on.Tili s agreement in no way affects,bi nds or changes the authori ty or
responsibility of any participating ~gency with respect to project permit-
ting or formal comments and recommendations to FERC.
TerDs of the Agreement
Each agency agrees to designate an appropriate level official to serve as the
rep:"'~sentative to the STAC and to provide the necessary support to enable
its representative to the STAC to advise the APA staff and Board on regula-
tory,·equirernent.:associated with developing the Susitna Hydroelectric
Project.It is agre~d that the objective of the STAC is to'identify
the socio-economic and environmental issues that should be addressed
in order to assist the APA to cornply with the FERC licensing process.It
is further agreed,that the STAC \"ill provide in writing,.comments to the
A?A staff and Board:
a)on study requests for proposal(s)and scope(s}of work required
to meet permiting and FERC licensing requirements;
b)on draft technical study documents;
c)on compatibility of study products with agency management objectives.
guidelines and criteria;
d)regarding analysis and investigation necessary to determine miti-
ga ti on ::1easures;
e)on project timing as it may relate to regulato,·y matters;
f)regarding coordination issues within the pur'liew of the ST;'~.
It is further agreed that the participants shall designate a chairman
from their members for the STAC,and that the STAC will provide a written
report as needed to the APA staff,Board and participating agency
admi ni stra tors.
It is agreed that the APA staff and Board will:
a)provide cierical support to type meeting minutes and mail
infonnation to STAC members;
b)provide to the STAC access to appropriate project documentation
and presentation of briefings by APA staff,contractors and
External Review Panel members on relevant project matters.
c)respond in writing to STAC requests,correspondence and
recommendations within 15 days of receipt.
idIIr
I
Page 2
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Amend:nents to thi s Agreeillent become effective upon approval of all
signatores.This Agreement becomes effective on signature by all parties.
and remai"ns in force until terminated by mutual consent.
STATE OF ALASKA
Alaska PO\'/er Authori ty
by
""C"'-h-uc""'k--"C""'o-m-'1a-y-,.--------
Chairman on ttfte Board
by -.=--..-:--;;--...,....,_
Eric '(ould
Executive Di.rector
Departments of~
Comr.lUnity &RegJonal Affairs
by ,--::--;;--;-:;----;---;_
lee HcAnerney.Commissioner
Envi roniilentaT Conserva ti on
by "-~""""7."~::--.,.....,.-----=--.-----,---Ernst ~.Mueller.Commissioner
Fish &Game
by
nR~on::-a:'11I.:drt';"O-.'S"Tk=-=o-=o-=g-.~C,ro-:n-IO""i-s-s -'-io-n-e-r
Natural Resources
by
'Jo:lh--n::--ilK-:"a7"tz--.---;:C;-:"o-fij-m7"i-ss-'i""'o-n-e-r---
Transportation &Public Facilities
by
"RODert ~.IJara,Co.nmlssloner
FEDERAL AGEUCIES
Bureau of Land t·1anagement
by ""C-ur-t~i"""'lc":TV e~e-.--"S"'t-a-:-te--"D""i~r--:-e-=-c L""to:"":r=-
Corps of Engineers
by
Colonel Neii Saling
District Engineer
Environmental Protection Agency
by
Ron Kriezenbeck.Director
Alaska Operations Office
Fish &Wildlife Service
by
Keith Schreiner.Regional Director
National Oceanic &Atmospheric
Administration
by
Robert McVey.Regional Director-NMFS
National Park Service
by
John Cook.Regional Director
Effective this day of _,1982.
"""
Januil ry 21,J9~~
Pr.!(rith Bayhi'
Re9io~a'nir~ctor
H.S.Oep;rortl'llcnt of the T!"tp.rioY'
Fi5~8 Wi'dlif~S~rvir.e
1011 F~st Tudor Poad
Ar.r.horage.Alaska 99503
()e~r Mr.Bl'lyha:
Thank you very much fer your t1~ly 5nd t~ornuQh rQspon~p.to our
recent r~qupst for consu't~tion or.the Su~ftn~'~ydr~p.lp.ctr1r Project.
real1zr how iAPo.s~nQ the draft Federal Energy Pp.gul~to~y Commission
(FERC)licp.nsp.apr1icatior wa~~~d th~p.xtensiv~staff r~$ources needed
to carefully review it.
Your COMment.~rel~ti~g to propos~d mitfa~tion measures will b~
inte9rllted into theapproprhte chapters of Exhibit E.Your letter will
appear in its entire~y in a new chapter of thp.Exhibit and will be
accornp~nied by our responses.
Tn some cases.we will have ~ully addressed your concern fn th~
rewritt~n Exhibit E,in others we will irlent1fy ongoing work wh1c~will
le~d to acceptable answers.Also.ther~wil'be inst~nc~s wh~re we will
need to.insurP that the coming year's study program is rlp'sign~d to
provide thp.info~tion you identify as being lack;ng.Over the next
several months you will be a5k~d to review the study plan so we can he
confident th~pro~ram will result in the desired infonM~tio".
It is my ffrA belief that th~extent of thp Su~itn~proj~ct'~
r
!
imp~ct.prior to ~it198t1o",has bepn we11 defined.ft.fflit19~tio"
~pproach has bp.en propcspd.but it win need to be refif'lP,d over time
the effectiveness of thp various MP.asurp.~are more fully evalu~t~d.
env1ror.ment~1 study program will then be Cont1r.u~rl to MOnitor that
~f'fectiveness.
Si"'cerely,
EricP.Youlcl
Executiv~Director
?S
The
ALASKA POWER AUTHORITY
Distribution List
Susitna Hydroelectric Project
Mr.Ke ith Bayha
Regional Director
U.S.Department of the Interior
Fish &Wildlife Service
1011 East Tudor Road
Anchorage,Alaska 99503
Ms.Esther Wunnicke
Commissioner
State of Alaska
Department of Natural
Resources
555 Cordova Street
Pouch 7-005
Anchorage,Alaska 99510
Mr.Don W.Collinsworth
Acting Commissioner
State of Alaska
Department of Fish &Game
Office of the Commissioner
P.O.Box 3-2000
Juneau,Alaska 99802
Mr.William Welch
Associate Regional Director
U.S.Department of the Intertior
National Park Service
Alaska Regional Office
540 West 5th Avenue
Anchorage,Alaska 99501
Mr.Richard Neve'
Commissioner
State of Alaska
Department of Environmental
Conservation
Pouch 0
Juneau,Alaska 99811
Mr.Robert W.McVey
Director,Alaska Region
U.S.Department of Commerce
National Oceanic &Atmoih~eric
Administration v~
National Marine Fisheries Service
P.O.Box 1668
Juneau,Alaska 99802
~---Tr -----~~-.---c---~-------
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,...
February l1,19B3
Hr.Keith Bayha
Regional Director
U.S.Oep~rtment of the Interior
Fish &Wildlife Service
1011 East Tudor Road
Anchorage,-Alaska 99503
SUB~lECT:Agency Commetlts Draft Exhibit E (Novembet"1982)
Susitna Hydroelectric Prc:lect
Dear Mr.Bayha:
As a follow-up to our January ?4~19B3,letter regarding your
agency's draft Exhibit E comments,be advised that we will address all
comments,point by point.in Exhibit E,Chapter 11,"Agenc.y Consulta-
tion"of the fOrm6l application.
When the Application is submitted to the Federal Energy Regulatory
Commission.we will provide you with a complete license applicat1on,
including Chapter 11.We anticipatp.that you will receive your copy
during the first week of March 1983.
Thank you for your past responsiveness,and do not hesitate to
contact us if·you have any Questions.
Sincerely,
Eric P.Yould
Executive Director
ALASKA POWER AUTHORITY
Distribution List
Susitna Hydroelectric Project
Mr.Keith Bayha
Regional Director
U.S.Department of the Interior
Fish &Wildlife Service
1011 East Tudor Road
Anchorage,Alaska 99503
Ms.Esther Wunnicke
Commissioner
State of Alaska
Department of Natural
Resources
555 Cordova Street
Pouch 7-005
Anchorage,Alaska 99510
Mr.Don W.Collinsworth
Acting Commissioner
State of Alaska
Department of Fish &Game
Office of the Commissioner
P.O.Box 3-2000
Juneau,Alaska 99802
Mr.William Welch
Associate Regional Director
U.S.Department of the Intertior
National Park Service
Alaska Regional Office
540 West 5th Avenue
Anchorage,Alaska 99501
Mr.Richard Neve'
Commissioner
State of Alaska
Department of Environmental
Conservation
Pouch 0
Juneau,Alaska 99811
Mr.Robert W.McVey
Director,Alaska Region
U.S.Department of Commerce
National Oceanic &Atmoihaeric
Administration v~
National Marine Fisheries Service
P.O.Box 1668
Juneau,Alaska 99802
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,~
r-et'rUrl ry ?.1983
Mr.Curtis V.McVec
U.S.Oepartment of Ipterior
U.S.Bureau of Land ~anagement
701 "CD Street,eox 13
Anchorage.Alaska 99513
Re:Agency Coordination Suhsec:uent to Appl ication fot·license -
Susitna Hydroelectric Pruject
De a r Hr.He"ee :
To facilitate communicaticn and coordination with State,Federal
and Lucal resource agencies,with respect to the Susftna Hydroelectric
Project.the Alaska Power Authority has designated rtr.Thomas J.
Anminski as Agency Coordinator.Mr ••Jack Robinson of Herza-Ebasco has
been designated the fonw~l agency contact for the design consultant.
Hr.Arminski will be responsible to my Susitna Project Manager to
insure that coordination charnels remain unobstructed,that agency
suggestions are provided to the appropriate members of the project team.
and that we,in turn,keep you advised of how your suggestions have been
acconmodated.
We are extremeiy appreciative of your past efforts in working with
the Power Authority on the project.With the designation of these two
positions.we hope to maintain a responsive relationship with your
agency throughout the licensing phase of the project.
Mr.Arminsk1 and Mr.Robinson may be contacted as follows:
Mr.Thomas J.Arm1nski
Alaska Power Authority
334 West Fifth Avenue
Anchorage,Alaska 99501
907 277-7641 or 276-0001
Mr.Jack Robinson
Ha rza-Ebasco lloi nt Venture
8740 Hartzell Reed
Anchorage,Alaska 99507
907 349-5881
Please be advised th~t designation of formal coordioctors does not
preclude informal communications between your agency and project staff.'
PleasF feel free to contdct us if yOU have any questions or
COmtr"IC n t s •
Eric P.Yould
Ex€cutive Director
cc:Mr.John Merrick
LETTER
Curt V.McVee
U.S.Bureau of Land Management
701 "C"Streett Box 13
Anchorage t Alaska 99513
DISTRIBUTION LIST
CARBON COpy
John Merrick
U.S.Bureau of Land Management
4700 E.72nd Avenue
Anchorage t Alaska 99507
----------------,----------------------------------------------------'-----------'----
,.,..
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J.R.Spencer
Regional Administrator
U.S.Environmental Protection
AgencYt Region X
1200 6th Avenue
Seattle t Washington 98101
John E.Cook
Regional Director
National Park Service
450 West Fifth Avenue
Anchorage t Alaska 99501
Colonel Neil E.Saling
District Engineer
U.S.Army Corps of Engineers
Pouch 898
Anchorage t Alaska 99506
Robert W.McVey
Director t Alaska Region
National Marine Fisheries Service
P.O.Box 1668
Jun eau tAl as ka 99802
Mr.Keith Schreiner
Regional Director
Keith Bayha t Assistant
Regional Director-Environment
U.S.Fish and Wildlife Service
1011 East Tudo~Road
Anchorage t Alaska 99503
Page 1
Ron Krei zen beck
Alaska Operations Office t Director
Environmental Protection Agency
3220 Hospital Drive
Juneau t Alaska 99811
William Lawrence
U.S.Environmental Protection Agency
Alaska Operations Office
701 IIC"Streett Box 19
Anchorage t Alaska 99513
Wi 11 i am Ri 1ey
U.S.Environmental Protection Agency
Environmental Evaluation Branch
Ma i1 Stop 443
1200 6th Avenue
Seattle t Washington 98101
Larry Wright
National Park Service
1011 E.Tudor Road t Suite 297
Anchorage t Alaska 99507
Mr.James Wolfe
U.S.Army Corps of Engineers
Regulatory Functions Branch
Anchorage District
P.O.Box 7002
Anchorage t Alaska 99513
Brad Smith
National Marine Fisheries Service
701 IIC II Streett Box 43
Anchorage t Alaska 99513
Lenny Corin t Field Supervisor
Western Alaska Ecological Services
U.S.Fish &Wildlife Service
605 West 4th Avenue t Room G-81
Anchorage t Alaska 99501
Robert Bowker
U.S.Fish and Wildlife Service
605 West 4th Avenue t Room G-81
Anchorage t Alaska 99501
LETTER (Cont.)
Philip A.Emergy
District Chief
U.S.Geological Survey
1515 E.13th Avenue
Anchorage,Alaska 99501
~1s.Wendy Wol f
State-Federal Coordinator
Division of Policy Development
and Planning
State Clearinghouse
Pouch AW
Juneau,Alaska 99811
Richard Nevel
Commissioner
Department of Environmental Conservation
Pouch 0
Juneau,Alaska 99811
Don Collinsworth (Acting)
Commissioner
Alaska Department of Fish &Game
Subport Building
Juneau,Alaska 99811
Esther Wunnicke
Commissioner
Department of Natural Resources
Pouch M
Juneau,Alaska 99811
Page 2 (Cont.)
CARBON COpy (Cont.)
Gary Stackhouse
U.S.Fish and Wildlife Service
1011 East Tudor Road
Anchorage,Alaska 99501
Robert Lamke
Water Resources
U.S.Geological Survey
1515 E.13th Avenue
Anchorage,Alaska 99501
Robert Martin
Regional Environmental Supervisor
Department of Envi ronmenta 1 Conservat i 0'-
437 "E"Street
Anchorage,Alaska 99501
Carl M.Yanagawa
Habitat Division
Alaska Dept.of Fish &Game
333 Raspberry Ro~d
Anchorage,Alaska 99502
Alan Carson
Department of Natural Resources
323 E.Fourth Avenue
Anchorage,Alaska 99501
Judy Marquez
Department of Natural Resources
Division of Parks
619 Warehouse Avenue,No.210
Anchorage,Alaska 99501
Larry Dutton,District Manager
Department of Natural Resources
Division of Forest,Land &Water
Management
3601 "C"Street
Pouch 7-005
Anchorage,Alaska 99510
Keith Quintavell (Principal Contact for:
Permits)
Special Projects Officer
Div.of Land &Water Management
Alaska Dept.of Natural Resources
Pouch 7-005
Anchorage,Alaska 99510
.....
LETTER (Cont.)
Ms.Lee McAnerney
Commissioner
Department of Community and
Regional Affairs
Pouch B
Juneau,Alaska 99811
CARBpN COpy (Cont.)
Janet Burleson
Mat-Su Area Manager
Division of Land &Water Management
Centara Plaza,Suite 202
Pouch 4008
Wasilla,Alaska 99687
Ed Bushch,Director
Division of Community Planning
225 Cordova,Building B
Anchorage,Alaska 99501
------------------------------------------------------------------------------------
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Daniel A.~Casey
Commissioner
Department of Transportation &
Public Facilities
Pouch Z
Juneau,Alaska 99811
Claudio Arenas
Planning Director
Matanuska-Susitna Borough
P.O.Box B
Palmer,Alaska 99645
Page 3 (Cont.)
Kei th Morberg
Dept.of Transportation &
Public Facilities
Design &Construction Division
Pouch 6900
Anchorage,Alaska 99502
Appendix ElIJ
Comments Received from Agencies Concerning
the Draft License and the Power Authority's
Response to These Comments
APPENDIX 11.J
,~RESPONSES TO AGENCY COMMENTS
Thi s appendix contains theA1aska Power Authority's responses to all comments
received on the Draft Exhi bit E.These are presented by agency in a comment-
~
i response format.Portions of this appendix contain numbered footnotes;the
explanations 'of these footnotes can be found in the U.S.Fish and Wildlife
Service covering letter contained in Appendix 11.1.
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DEPARTMENT OF ENVIRONMENTAL CONSERVATION
,..,
I
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COMMENTS CONTAINED IN ALASKA DEPARTMENT OF ENVIRONMENTAL
CONSERVATION'S LETTER OF JANUARY 13,1983
Tile A1 aska Department of Envi ronmenta1 Conservation is p1 eased to
respond to the A1 aska Power Authority's request for comments on the
Susitna ~droe1ectric Project,Federal Energy Regulatory License App1i-
cati on,Exhi bi t E.These comments are organi zed into seven pri ma ry
categories and are presented below.
A.Water Quality
Comment 1
The discussion on water quality impacts is well done for both the
Watana and Devil Canyon dams.The major impact to water qual ity is
from a change in the downstream water temperature that wi 11 occur wi th
the project ope rat ion.The Reservoi r Temperature Model (DYRESM)is
designed to predict reservoir outflow temperatures to an accuracy of
+2°C.a range of variation of 4°C.A difference of 4°C in predicted
outflow temperatures could have a signi ficant effect on the actual
versus the predicted impact on downstream fisheries.This model ing
effort shoul d be developed to predi ct rese rvoi r operat i ng parameters
when using a given downstream impact,essentially working the model
backwards.Accurate estimates of the pr~icted downstream river
temperatures are an essential component of the impact assessment
process.
Response
We concur that predicted downstream river temperatures are an
essential component of the impact assessment process.DYRESM isa
state-of-the-art reservoir temperature model and,in our opi ni on,
is as good as any other computer model that is available.It was
selected for use on the Susitna Hydroelectric Project only after a
thorough search of all models was conducted.DYRESM is a process-
oriented thermal model requi ring only minor calibration.The
model has been successfully used on the Well ington r'eservoi ri n
Australia and in Kootenai Lake,British Columbia.Recently,it
has been used to model Ek1utna Lake.Results are presented in
Fi gu res E.2.166 and E.2.167.Outfl ow temperatures are predicted
to within 1°C,thus indicating the suitability of the model.
Comment 2
The shear magnitude of the co,nstruction project will create a high
potential for soil erosion that may affect water qual ity.The Exhibit
E needs to be more specifi c on how these prob1 ems wi 11 be mitigated.
Methodologies need to be described in detail for construction of the
road,dam and townsites,and other project entities.
Response
We agree that the magnitude of the construction project will
create a high potential for soil erosion that may affect water
qual ity.Discussion on how soil erosion will be mitigated can be
found in Chapter 3,Section 2.4.3(c)(iii)and Chapter 2,Sections
4.1.1(c)(iii)and 6.2.
B.Hazardous Substances
Comment
A very large amount of hazardous substances will be transported to,
and utilized at,the project site.Discharges of hazardous sub-
stances could contaminate land as well as surface and ground water.
Further impacts could occur to human welfare,fish,and wildlife.
The Exhibit E document does not address the major possible sources
of fuel spills,but rather the minor ones (leaky hydraulic lines
and water pumps).A very detailed oil spill contingency plan needs
to be developed that will have several major objectives and be
written to account for a major (i.e.,tank truck roll-over),as
well as a minor spill event.
The plan should be responsive to project needs and yet be simple
enough to be functional.Major objectives of the plan are dis-
cussed in detail below:
1.To develop a training program that will stress spill preven-
tion.This program needs to cover spill response under all
project conditions and set up several response scenarios.
2.To develop the response capability to adequately handle the
worst case spill expected.This response capability should be
developed for the Watana and Devil Canyon camps and the rail-
head staging area.This would mean staging spill cleanup
equi pment at all sites.All hazardous substances that will be
used onsite need to be considered (solvents,chemical addi-
tives,etc.)
3.To dev~lop an immediate response team for each work shift,con-
sisting of personnel dedicated to spill containment and clean-
up,should a discharge incident occur.This response team
woul d have a des ignated 1 eader who woul d di rect the team.A
complete training program in spill response for this team would
be essential.
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4.To contain a small section on the project area environment.
This would include a map of major drainage areas,fish habitat
and seasonal description,and wildlife habitat and seasonal
descriptions.The environmental section is very important in
prioritiZing spill response actions (i .e.,most sensitive areas
fi rst),.and for devel opi ng an appreci at ion for the impact a
spi1l can have.
Response
Federal law requires that as part of the management proce-
dures there will be an oil spill contingency plan (40 CFR)
l02.F).This is discussed in Chapter 3,Section 2.4.3(c)
(i i ) •
C.Wastewater Treatment
Comment
The type of wastewater treatment plant to be used at each camp site
has to be described in greater detail to more adequately evaluate
its effectiveness.The di scharge from the Watana treatment facil-
ity may not meet fecal col iform standards because of inadequate
dilution.The discharge zone should be well defined for both
facilities.The Watana and Devil Canyon camp wastewater treatment
plants are to be functioning and approved before each camp is in
operat ion.
Response
All wastewater discharges from the treatment facil ities
will meet permit requirements.Chlorine will be utilized,
if deemed appropriate,to ensure discharge water will meet
fecal coliform standards.
D.Concrete Batching Plant
Potential impacts that may occur from the concrete production pro-
cess are not described in·enough detail.The discharge from this
process will also have,in addition to pH changes,problems with
siltation,turbidity,and possibly toxic additives used in the cur-
ing process.Siltation from concrete can form a mat over substrate
gravels.This could suffocate emerging salmon fry or other indi-
genous organi sms that requi re substrate habitat.Di scharges that
may have toxic concrete additives as a component may kill aquatic
organisms.The batching process may also have airborne particulate
problems.Specific control measures need to be described in detail
for each type of probl em that may be encountered.
Response
Potential impacts associated with concrete wastewater and
preliminary mitigative measures are discussed in Chapter
2.Sections 4.1.1(c)(vi).4.2.1(c)(vi).and 6.2.
E.Access Corridors
Comment
The access route {Plan 17)was determined.during the access route
selection process.to have greater potential for major environmen-
tal impact than the other route options.The major impacts of con-
cern were:
1.The Denal i Hi ghway to Watana damsite portion passes through
habitat that has historically been used by portions of the
Nelchina caribou herd.
2.Many native grayl ing streams can potentially be affected during
the construction of the Denali Highway to Watana damsite access
section.
3.Access along the south side of the Susitna River from the
Watana to Devil Canyon damsites passes through the Stephan Lake
region.This region is important habitat for moose.wintering
caribou.migrating waterfowl.and furbearers.
4.Wetlands habitat is crossed southwest of Devil Canyon.
Because of the greater potential for major impacts associated with
the Plan 17 access portion.more attention should be given to
defining the methods that will be implemented to mitigate these
impacts.For example:
1.How will the access route be designed to minimize disruption to
the caribou herd?
2.What technique will be implemented to prevent impacts to native
grayling streams from road construction?
3.How will impacts to Stephan Lake region be reduced?
4.How wjll project and post-project access be controlled to pr€-
v~nt secondary impacts related to access?
Response
1.The initial alignment of the access rou~-e has been
modified to avoid the major portion of the carinou
range.In addition.specific design features to be
utilized are discussed in Section 4~4 of Chapter 3.
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F.
2.Impacts to native grayling streams from road construc-
tion will be avoided or minimized by adhering to spe-
cific design and construction practice criteria.
These criteri a,when appl ied to stream crossi ng and
encroachments,give consideration to location of cros-
sing,type of crossing structure,flow regime,and
method of installation.In addition.continued moni-
tori ng of the constructi on facil ities and activit ies
will ensu re that impacts to g rayl i ng streams are
avoided or minimized.A detailed presentation of
these criteria is found -i n the text under Section
2.4.3.
3.The access road passes north between the damsites,
therefore avoiding the Stephan Lake region.
4.Project access will be restricted to the construction
work force.Post-project access is discussed in
Chapters 7.3.and 9.
Fishery Impact Assessment
Comment
The field data base is incomplete for an accurate prediction of the
impact the Susitna Hydroelectric Project will have on fishery
resources.A good set of data has been collected for only two
years.Fishery population and related water quality data can have
inherent fluctuations from year to year.Long-term,large-scale
programs need to be implemented in order to make a reasonably
accurate population estimate.Very specific detailed studies
designed to correlate physical and chemical aspects of the aquatic
habitat to population flucutations need to be part of the long term
program.This program should be continued throughout project con-
struction.
If impacts cannot be accurately predicted,a worst case (100%loss)
estimate of the fishery population should be assumed and the impli-
cations this impact would have to the aquatic community and related
resource use need to be discussed.By assuming a worst cast esti-
mate,a type of mitigation program can then be developed where com-
pensati on to the fi shery popul ati on can occur to result in an
acceptable loss.
A long-term,post-project aquatic monitoring program should be
developed as an integral part of the project.Funds shoul d be
allocated in advance to insure the continued existence of this pro-
gram.The monitoring program is essential to determine the effec-
tiveness of mitigation measures that are implemented.
Response
It is recognized that continued studies are needed to
refine impact predictions and develop appropriate mitiga-
tions.The data are considered adequate for evaluating
the magnitude of potential impacts to the selected evalua-
tion species.These potential impacts are assumed as
reasonable worst case scenarios in the revised document.
The Power Authority is continuing to support studies that
will refine these estimates.The mitigation monitoring
program is discussed in Chapter 3,Section 2.6.2
G.Interagency Review Board
Comment
It is strongly recommended that a formal interagency review board
be establ ished to work with the Al aska Power Authority in the
development of the Susitna Hydroelectric Project.This board will
identify and comment on socioeconomic and environmental issues and
regulatory requirements.It is suggested that the Formal Designa-
tion of the Susitna Technical Advisory Committee (see attached memo
to you dated November 17,1982)be implemented to aicommodate this
recommendation.
Once project construction begins,a similar interagency board
should be established to monitor the socioeconomic and environmen-
tal impacts and regulatory compliance.This board would make
recommendations to the Alaska Power Authority to correct associated
problems as necessary.
Response
The Power Authority bel ieves there is 1 ittle reason to
establ ish a formal interagency revi ew board at thi slate
date.Past agency and Su-Hydro Steering Committee coordi-
nation has identified environmental and socioeconomic
concerns in slJfficient detail to have allowed the Power
Authority to begin and,in some cases,complete studies
from which impacts in these areas can be quantified.
Future efforts will be directed towards development of
mit i gat i on measures,monitoring impacts,and assessing
efficacy of mitigation.
The Power Authority does bel ieve,however,that there
needs to be contil1uous,effective coordination between
itself and agencies.To accomplish this,the Power
Authority has designated a person from within itself and
its design consultant to take the responsibility for
insuring that agency concerns,suggestions,and questions
a re add ressed.
F"I
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The Power Authority has designated Mr.Thomas J.Arminski
as its Agency Coordinator and Mr.Jack Robinson,of Harza-
Ebasco,as the formal agency contact for the design con-
sultant.With this clear assignment of responsibility,it
is believed that working relationships among all parties
will be improved •
The Agency Coordinator will be responsible to the Susitna
Project Manager to insure that coordination channels
remain unobstructed,that agency comments and recommenda-
tions are provided to the appropriate members of the pro-
ject team (environmental,engineering,regulatory,etc.),
and that the Power Authority keeps agencies advised of how
their recommendations have been dealt with.
We foresee this well-defined effort as being superior to
the proposed Steeri ng Committee concept which,in the
past,has been less than effective,both from the
Agencies'and the Power Authority's perspective.
With respect to regul atory requi rements and permitti ng,
the Power Authority has al ready formally requested that
each agency wi th regul atory authority des ignate a contact
with whom the Power Authority can coordinate all pemitting
activities.This facet of agency coordination has been
underway for several months and is resulting in early
identification of permits.
As for monitoring,it is the intention of the Power
Authority to estab 1ish a monitori ng prog ram that responds
to and implements the articl es of any forthcomi ng Federal
Energy Regulatory Commission (FERC)license for the Pro-
ject.
We invite and also expect your agency,as well as other
regulatory entities,to playa major role in the formula-
tion of the specifics of the program.With respect to
moni tori ng the effectiveness of mit igat i on measures and
compliance with stipulations of the license application,
we see that as the licensee's responsibility.
Comment
The Alaska Department of Environmental Conservation appreciates
this opportunity to comment on the Susitna Hydroelectric Project,
Federal Energy Regulatory Commission License Application,Exhibit
E,and hopes that these comments wi 11 be useful to you.If you
have any questions,or if we can be of further assistance,do not
hesitate to contact Bob Martin or Steve Zrake in Anchorage.
Response
The Power Authority appreciates the input from the DEC and
will continue to pursue active coordination throughout the
FERC license review process •
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DEPARTMENT OF NATURAL RESOURCES
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COMMENTS CONTAINED IN THE DEPARTMENT OF NATURAL RESOURCES
LETTER OF JANUARY 13,1983
Comment 1
The Alaska Department of Natural Resources has reviewed the draft Ex-
hibit E application for the Susitna MYdroelectric Project.We are sub-
mitting comments on this document which in part satisfy the agency
coordination requirements established by the Federal Energy Regulatory
Commission,(FERC).The formal position of the Department of Natural
Resources regarding the Susitna project is contained in the Exhibit E
comments which follow;our April 16,1982 testimony.to the Alaska Power
Authority Board of Di rectors (copy attached)and the 1etter to Eri c
Youl d from Reed Stoops dated October 11,1982 (copy attached).We
request that an unabridged copy of these comments accompany the perfec-
ted application submitted to FERC.
Response
Receipt of the above comments is acknowledged.An unabridged copy
of these comments is included in Chapter 11 along with responses
prepared by the Power Authority.
Comment 2
ORGANIZATION AND PRESENTATION OF EXHIBIT E
In some cases the Exhibit E text,tables,and figures do not reference
the documents from which the material was taken.The consequence of
this inadequate documentation is that the reader cannot determine the
specificity,accuracy or sufficiency of the Exhibit E.We recommend
that the specific references to original documents be included in this
Exhibit E before the application is submitted to FERC.
Response
The accuracy and completeness of documentation has been improved
in the final license application.
Comment 3
WATER QUANTITY AND QUALITY
During the past two years the Department of Natural Resources has em-
phasized the great importance of acquiring a clear understanding of the
relationship of various flow-release rates from the proposed dams and
the corresponding impacts on downstream aquatic resources,habitats,
and uses.This information is vital to enable DNR to make informed
decisions with respect to instream flow reservations and water appro-
priations,both of which are required in order to facilitate the Susit-
na Hydro Project.The flow releases schedules presented in Exhibit E
for filling and operation of the Watana and Devil Canyon Dams have not
been developed in consultation with the Department of Natural Resources
or by a methodology approved by this Department which is charged by law
with authority to adjudicate all water appropriations and instream flow
reservations in the State.Indeed,Exhibit E does not explain the pro-
cess by which these release schedules flows were devised.We strongly
recommend that the license application contain a specjfic~detailed
flow release schedule developed through"a quantifiable stream flow
analysis program coordinated with DNR and with state and federal fish
and wildlife agencies.
Attached please find the enti re text of the review comments from our
Di vision of Land and Water Management.Pl ease consult that text for
additional specific comments relating to navigabil ity,thermal model-
ing,and nitrogen gas supersaturation.
Response
A discussion of the rational and process for selecting the opera-
tion scheme is contained in Chapter 2,Sections 3.2 and 3.8.
Alternatives are discussed in Chapter 10.
Comment 4
ACCESS
This department1s comments regarding the proposed route from the Denali
Highway to the project site should not be construed as support for that
project route as the preferred means of access.This agen.cy,along
with the other state and federal resources agencies,has consistently
favored road access to the project from the Parks Hi ghway.However,if
the route proposed in Exhibit E is selected,we recommend certain de-
sign modifications.
We recommend that the principal design criteria for the proposed route
be the enhancement of scenic values and public safety.We consider the
proposed hi gh-speed desi gn of the road i nappropri ate.The long-term
use of the road after dam construction will be primarily sightseeing
and recreation.The highway should,therefore,be designed to take
maximum advantage of the scenic potential of the area which traverses
some of the most dramatic in North America.
In addition to being an unattractive counterpoint to the natural land-
scape,the high-speed road proposed (55 miles per hour with 40 miles
per hour at difficult curves)may create serious safety problems.The
long braking distance for a vehicle traveling 55 miles per hour on a
gravel road endangers the stop and go driver and those who park and
stand along the side of the road to take photographs.Although a high-
speed road will ,yield cost savings during dam construction~it is ques-
t ionabl e whether these cost savi ngs outweigh the long term benefits of
a scenic road.The rationale for a high-speed access road design
should be based on explicit quantification of the cost saved by that
design.We believe the scenic and public safety benefits foregone by a
high-speed design ,when ,accumulated over theexpe£ted,tHe;of the road
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are almost certainly greater than the costs saved by such a design to
facilitate the brief construction phase of the dams.
Although design standards for upgrading the Denali Highway between
Cantwell and the proposed access road were not discussed in Exh i bit E,
the issue merHs comment because an upgrade wil 1 be necessary to accom-
modate project-related traffic.The portion of the Denali Highway
affected provides exceptional views of the Alaska Range,Reindeer HillS
and the Talkeetna Mountains.The Alaska National Interest Lands Con-
servation Act (ANILCA)of 1981 called for a joint state,federal and
Iprivatestudyofthescenic qualities of the Denali Highway.The in-
tent was to encourage cooperative land management of lands adjacent to
the highway to protect its important scenic values.The Denali Scenic
Hi ghway Study wi 11 be pub 1i shed in early 1983.DNR encourages APA to
consider carefully the recommendat i onsof that report and to support a
design which is consistent with the study recommendations.
F"ina11y,we reconmend re-rout ing of the proposed access road where
feasible to take advantage of the extraordinary vistas.Presently,the
road transects a large wet1 and in the upper Brushkana drainage.Con-
sultants responsible for the aesthetics portion of Exhibit E recon-
mended that this section of the road be re-routed to higher ground to
the west.We concur and support that recommendat i on,whi ch wi 11 also
protect the wetland from the impacts of road construction and should
result in lower long-term maintenance costs because of better soil con-
dit ions.
Respons,e
The extent and mode of post-construct ion pub1 ic access has not yet
been determined.The Power Authority sees this issue as one which
should be reviewed in the latter stages of project construction to
determine public preferences and then current resource tradeoffs •
The recreation plan and impact analysis assumes public access so
far as to not understate possible impacts.
While the ultimate use of the access road will probably not be
resolved for almost a decade,we agree that the road design cri-
teria and routing should consider eventual public use and there-
fore its scenic potential.It must be remembered,however,that
the first 15 years of its life will be dedicated primarily ,to con-
structionactivities.Therefore,its suitabil ity for construction
uses is a1 so very important.The tradeoff between construction
cost savings and long-term scenic values will be considered in an
i"nterdiscip1inary review of the access design during the first
half of 1983.This review w"ill also consider the recommendations
of the Denali Scenic Bighway Study.
Comment 5
RECREATION AND AESTHETICS
We agree with the consultant's conclusions that recreation plans be
focused on those opportunities occurring elsewhere in the project area
rather than those directly associated with the reservoirs.Because of
fluctuating water levels and steep shorelines,the reservoirs them-
selves will not present an attractive recreation environment except for
occasional use by speedboats.The greater recreation opportunities
will be associ ated with the access road and the many 1akes,streams,
and alpine hiking areas that can be reached from that road.The con-
sultants'identification of recreation resources on Cook Inlet Region,
Incorporated,(CIRI)1and rai ses the questi on as to how these recrea-
tion opportunities might be realized.We recommend that the Power
Authority consider some sort of leasing or concession arrangement with
CIRI to facilitate public recreation use on Stephan Lake.At least one
public use site of a suitable size (40 acres or more)should be pro-
vided at Stephan for camping,fishing,and as a staging area for those
people using the lake for float trips down the Talkeetna River.In ad-
dition,legal access across village and regional corporation lands
should be secured and a trail constructed from the reservoir to Stephan
Lake.In order to most effectively enhance the recreational potential
of the proposed projects,we would recommend that the recreational ele-
ment of Exhi bit E add three sites adj acent to the Al aska Rai 1 road.
These sites are Indian River,Gold Creek,and Curry.Each of these
sites would provide a destination point for recreation users of the
Alaska Railroad and would provide a greater diversity of recreation op-
portunities.We recommend that management of the off-site recreational
facil ities associated with the access road are best met through the
budgeting process of the Alaska Power Authority.If the Division of
Parks is expected to manage these sites,then we will have to work
closely with APA to identify priorities for project funding.
In summary,we feel that the consultant has done an excellent job in
identifying the recreation opportunities and resources available in the
project area and would request that the scope of the study be expanded
to look at the identified sites along the Alaska Railroad as described
above.
Response
The Alaska Power Authority will investigate the recreational
opportunities associated with poss"ible site development adjacent
to the railroad at Indian River,Gold Creek,and Curry.These
facilities and Stephan Lake would not be any more accessible as a
consequence of the Project,and thei r development must be as-
sessed with respect to thei r non-profit rel ated development as
opposed to their general and regional contribution,which would
more appropriately be undertaken by recreation agencies.
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comment 6
HISTORIC AND ARCHEOLOGICAL
The report on historic and archeological resources is well done and
addresses all the pertinent questions about mitigation.We concur with
the mitigation plan as presented in the draft document.
We concur with and support the proposed education program described on
Page E.4.114.We consider each program to be a necessary and effective
part of any large construction project.If project personnel are ade-
quately trained and sites are clearly marked,avoidance should be a
viable mitigative measure in many of the indirect and potential impact
cases.
Response
Comments noted.
Comment 7
TRANSMISSION LINE
The Access Pl an Recommendation Report dated August 1982 proposed rout.,.
ing a transmission line through a non.,.roaded area south of the proposed
road between the dam sites.The Hne was well sited taking advantage
of terrain and vegetation to minimize environmental and visual impacts
as well as minimizing construction costs.We support the route pro-
posed in the August report.We have since been informally advised that
APA has decided to route the transmission line along the road between
the dam sites to allow year-round access for maintenance (winter over-
land access via all terrain vehicle is feasible without a road).If
road access is determi ned to be absol utely necessary,we agree with
thi s deci si on;it woul d be i nappropri ate to have two east-west road
corridors through this area.However,presentation by consultants at
the APA sponsored workshop in Anchorage during the week of November 29
to December 3,1982,indicated that there may be excessive concern by
mai ntenance engi neers with year-round access.The consultants argued
persuasively that maintenance by helicopters is not only fea~Jble;-Dut
is cheaper than road maintenance andi s a common pl'~ac-tice in states
other than Alaska.Helicopter maintenance__bas--aTso proven itself in
more rugged terrainand--ex-treme1featfjer conditions of southeast
Alaska.
The need for road access in case of bad weather is a concern,but it is
important to clarify precisely what is gained in terms of minimizing
the risk of power outage by having road access.That gain should then
be compared with the costs.In this case,the major cost is a strong
negative visual impact on the road between the dam sites.In contrast,
the gain seems to be minimal.In short,the value of year-round access
is not infinite and in this case may be significantly less than the
costs •
Response
A reevaluation of the access road and transmission line arrange-
ment as proposed in the draft Exhibit E of November 15,1982,
indicated that the south bank alignment of the.transmission line
would require helicopter access unless a pioneer road was con-
structed as well.The terrain would require significant construc-
tion to provide ground access as a back-up alternative to helicop-
ter service of the line.Relocating the line onto the north bank
would permit emergency service of the transmission line without
any pri or constructi on of an access road.The requi rement for
hi gh rel i abil ity and qui ck response in any weather conditions
i ndi cates that the north bank route provides the best conngura-
tion with the least overall environmental impact.
Comment 8
SOCIOECONOMIC IMPACTS
The permanent townsite appe~rs to have been located in an exceptionally
wet area.Apparently,the major criterion for locating the townsite
was land status.A more appropriate location from the standpoint of
land capabil ity and general amenities for the inhabitants of the town-
site would be in the Fog Lakes area south of the Susitna River on.pri-
vately owned land.The townsite is particularly important because,as
indicated in the Exhibit E,the tendency for workers to resideon-site
depends on the quality of housi ng and other amenities.Exhi bi t E em-
phasizes that a high amenity site will minimize impacts on outlying
communities by encouraging a higher percentage of workers to live on-
site.We support this objective but do not think siting the townsite
as proposed will help achieve it.We strongly suggest finding a more
suitable location for the townsite.
Response
The permanent townsite location will be the subject of an inter-
disciplinary review conducted during the first half of 1983.The
review will consider the proposed alternative location in the Fog
Lakes area south of the Susitna River.
Comment 9
Exhibit E projects minimal project impacts Ofl local facilities an<i ser-
vices due principally to the provision of on-site housing for workers.
The total Mat-Su Borough population increase as a result of the project
is projected as 4.700 in 1990 (peak year).1.110 of whom are expected
to live off-site in rural communities.Should that projection be accu-
rate.the off-site impacts would,indeed.be limited.However,the
project assumes absolutely no in-migration by unsuccessful workers.
This is a misleading assumption.In fact.in-migration by unsuccessful
job seekers will probably be considerable.Such in-migration is a
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likely result of decreases in job bpportunities in the lower 48 and has
occurred in Alaska during construction of the oil pipeline.Current
economic conditions would stimulate extensive in-migration to a greater
extent than is predicted in Exhibit E.
If in-migration is seriously underestimated in Exhibit E,then a wide
range of socioeconomic impacts is underestimated as well.Past experi-
ence in the state shows that boom conditions,such as the proposed dam
construction would create,have led to rent increases,proliferation of
sub-standard housing and strain on public facilities and services.The
potent ial impact caused by unemployed i n-mi grants is parti cul arly si g-
nificant in light of their tendency to be more of a disruptive influ-
ence on small communities than employed in-migrants.Unemployed in-
migrants,for example,tend to require more services such as public
health and fami 1y assi stance of vari ous forms.·They pay fewer taxes
and may have little stake in the community,thus caring relatively less
about relatively minor issues such as yard maintenance and the appear-
ance of local parks.In the small,rustic conununities in the project
area,these problems could create considerable tension between current
residents and the new in-migrants.We consider the socioeconomic im-
pact assessment to be inadequate without an attempt to estimate·the
number and effects of unsuccessful job seekers and their dependents who
will move into the region.
Response
We agree that it is reasonable to expect an influx of persons
seeking Susitna construction and construction-related jobs.This
.i nfl ux of persons woul d probably create the types of impacts that
you mention,especially in the greater Anchorage area and,per-
haps,Fairbanks.
We did review the TAPS experience.We found no analysis of the
impact of unsuccessful job seekers on Fairbanks and the State;nor
could,we find any analysis of the degree to which "outside U labor
displaced Alaska labor.We cbuld not even find any data that
would allow such analysis to be done.
Aside from this lack of information,it should be noted that even
if appropriate studies had been done on TAPS,they would have been
of little help in trying to estimate the number of persons who
will be attracted to Alaska by the Susitna Project.This is be-
cause each project (e.g.TAPS,ANGTS,and Susitna)is unique,and
different economi c forces prevail indifferent years.For exam-
ple,the types and amounts of workers,and wage rates are differ-
ent for each proect.This will infl uence the attractiveness of
the project to workers living "ou tside".Also,economic condi-
tions "ou tside"relative to those in Alaska change and influence
the attractiveness of ~aska projects to outsiders.
For these reasons and several others it was not possible to esti-
mate how many persons woul d be attracted to Al aska by the Sus itna
Project.The monitoring and mitigation program discussed in Sec-
tion 4.5 is designed to detect the total project-induced increase
in population and to help appropriate institutions mitigate im-
pacts that might be caused by persons who come to the Rail belt
region in search of Susitna construction and construction-related
(secondary and induced)jobs.
Comment 10
It woul d be more accurate and useful to provide a range of projected
population increases in affected communities rather than a precise num-
ber such as 263 in Tal keetna by 1990 or 75 in Trapper Creek.These
numbers convey a precision not supported by the methodology or the
probability of error inherent in such projections.More useful infor-
mation for community planning purposes would be high-low range.A key
consideration in planning for public services is the population thresh-
hold which requires new capital expenditures.For example,if a popu-
lation increase of 300 would require anew community well in Talkeetna,
the city would be better off knowing that it faces a probable increase
of 250 to 350,rather than knowi ng that someone has di saggregated a
series of numbers to produce an estimate of 263.
Response
The purpose of the population increase projections in the FERC
1i cense appl i cat ion wes to provi de best poi nt estimates of the
increases in popul at i on that are expected to occur in affected
communities,where possible.In Cantwell,the level of uncertain-
ty about the ability of the community to provide housing for large
influx of people necessitated use of a range of high and low im-
pacts (see Section 3.4).
We agree with the Department of Natural Resources that a high-low
range of projected population impacts will be most useful to plan-
ners in the affected areas.During Phase II of the Susitna proj-
ect,the impact model will be updated to include new developments,
and the results will be shared with Mat-Su Borough and other rele-
vant planning agencies,in a high-low range form,where possible.
Comment 11
Exhibit E discusses generally the need for measures to ensure that the
1oca 1 unemployed get a chance at proj ect-re 1ated jobs.As sumi ng there
will be considerable competition for jobs by in-migrants and that the
state's objective is to encourage local hire,it will be necessary to
develop a clearly defined and legal program to achieve that objective.
The measures recommended by Exhibit E are vague and do not reflect the
significance of this issue to the state or the borough.We suggest
more attention be given to developing a more comprehensive approach to
address this issue in the Exhibit E application to FERC.
Response
The Power Authority·s approach to encouraging local hire will be
formulated during the design phase of the project in cooperation
with the Power Authority·s Construction Manager and legal advi-
sors.The formulation of a clearly defined and legally defensible
local hire program is a high priority of the Power Authority.
Comment 12
The Exhibit E devotes about four and one-half pages to the geothermal
energy alternative.This information is factual and provides general
background for the reader.The Exhibit E could be improved by noting
that the Department of Natural Resources has a geothermal lease in the
Mount Spurr·area pl anned for May,1983.The Exhi bit E shoul d ack-
nowledge that geothermal energy is immune to fuel price escalation as
is hydropower.We agree with the Exhibit E statement that little is
known about the geothermal properties.Until exploration of the geo-
thermal properties of Mt.Spurr has occurred the viability of geother-
mal power for the railbelt region is unknown.We recommend that the
Exhibit E be revised to include this information.
Response
This information has been incorporated into Chapter 10 of Exhibit
E.
DNR MEMORANDUM
From:V.R.(Mohan)Nayuda
Chief,Water Management Section
To:A.L.Carson,Acting Director
Division of Research and Development
as attached to the 1etter from DNR to the Al aska Power Autho rity dated
January 13,1982.
Paul Janke,Gary Prokosch and Mary Lu Harl e of my staff have reviewed
the Draft FERC License Application,Exhibit E,dated November 15,lQ82,
prepared by Acres American Inc.and provide the following comments.
Comment 1
General -Organization
The report lacks documentation.With few exceptions,much of the text-
ual material,tables and figures do not reference the documents from
which the material was taken,the specific page numhers in the original
documents,or where those origi nal documents resi de.These references
shoul d be incorporated into Exhi bit E before the fi nal i zed 1i cense
application is submitted to FERC.The organization of draft Exhibit E
is poor.Separation of Volumes I and II,Chapters 2 and 3 makes review
and evaluation of the Exhibit very difficult.Issues,impacts and mit-
igations should be combined in a more logical manner to allow easier
evaluation.
Many of the statements and concl usi ons presented in thi s document are
unquantified and speculative.The reviewer is continually confronted
by words such as II may ll,II pro bablyll and lIis expected ll •Statements which
are quantified should be so noted and referenced and speculative state-
ments and conclusions should be so noted.Speculative statements must
be quantified before effective evaluation of the document can be per-
formed.As such,the document does not present enough data and anal y-
sis to adequately evaluate the project at the present time.
Response
The draft Exhibit E submitterl for review on November 15,1982,was
indeed a draft.Significant revisions have occurred in producing
the final document.
Comment 2
Major Issues
The following are major issues concerned with the draft Exhibit Eo
They are not in prioritized order.
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A.flow Releases
The flow releases presented for both filling and operation of Watana
and Devil Ganyon Dams have not been developed with nor approved by the
Alaska Department of Natural Resources.The document does not,in
fact,explain the process by which these flows were developed,except
to say they were sel~cted to satisfy power production requirements and
fisheries concerns.Other water uses,including navigation,river
based recreation and wi 1dl i fe are assumed to be covered by these flows.
This may not be the case,and this conclusion should be quantified.
This department in its review comments on this project has continually
asked for a range flows and their associated impacts.This has not
been provided by thi s document,and shoul d be incl uded.
Further,the impacts from the sel ected flow rel eases are eval uated onl y
for individual parameters,such as temperature,river morphology and
ice,and are not well quantified.What is needed is the cumulative
effects from all the affected parameters and their impacts on issues of
concern,such as fisheries and navigation.Only then can mitiqation
measures be address~d.It appears from the data presented in thi s doc-
ument that the proposed flow releases are inadequate.
Response
Chapter 2 Section 3,entitled Project Operation and Flow Selec-
tion,has been added to the license document.This section
discusses the factors considered in the selection of downstream
flows.Alternative operati on scenari os are di scussed in Chapter
10•
B.Access Road
A final deci si OR shoul d be made now as to whether the access road to
the dam sites will be public .or private.Plans for road construction
indicate the road will be built as a private road to move personnel,
supplies and equipment to the construction sites.However,the recrea-
tion pl an seems to indicate that the access road will pr-ovide publ ic
access f-Or recreation to the area once the dams are operational.A
dec1sion should be made on this issue now to obtain public review and
comment on this issue during the formal FERC review process •
Response
We believe a final d~cision Of'!tllis issue at this time is prema-
ture.As stated i1l the text,the recreation plan is based on the
premjse of pub~ic access.If there is no public access a recrea-
ti~n plan is not needed.
Townsite
Further investigation into tbe townsite location should be conducted.
The presen~location is apparently located in a swampy area.Addition-
ally,the water supply :is iluestjonable.Ground water ispr:eferab~e to
surface water for the water supply source as drilled wells are of less
environmental consequence.However,a ground water source of adequate
quantity is questionable in the present planned location.
Response
The permanent townsite location will be the subject of an inter-
disciplinary review conducted during the first half of 1983.The
review will consider the alternative location in the Fog Lakes
area south of the Susitna River as proposed in Commissioner Wun-
nickels letter to the Power Authority of January 13,1983.
D.Land Status
The land status of the land invol ved in the dam site ,access roads and
transmissions corridors should be addressed now.Types of land acquis-
ition such as land exchanges,permitting,leasing and condemnation
should be investigated and action begun in order to prevent delay to
the project further down the line.
Response
This subject is being actively pursued by the Power Authority.
Comment 3
There are many sections in this report where inadequacies are recog-
nized by the authors.It would be a futile effort to reiterate all the
statements made in this report that say "further work is on-going"or
"documentation has not yet been made",etc.As a revieweing agency we
also recognize this and would expect that the work will be done and the
inadequacies addressed,without each statement having to be noted in
these comments.
Response
Comment noted.
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SPECIFIC COMMENTS
VOLUME I -CHAPTER 2 -WATER USE AND QUALITY
N-2-001 Pages E-2-26 and 27;E-2-49 and 50;E-2-66 and 67:
"Navigati onal diffi culti es between Devi 1 Canyon and the con-
fluence with the Chulitna Ri ver will be increased due to
shallower water and a somewhat constricted channel.Al though
there will be sufficient depth in the river to navigate it,
greater care will be required to avoid grounding".Since
"greater care will be required",this is a project impact and
therefore needs to be discussed ~ong with proposed mitigation
measures.This statement also differs from the following
report:Susitna Hydroelectric Project,Task 7-Environmental,
Subtask 7.04-Water Resources Analysis,A Preliminary Analysis
of Potential Navigational Problems Downstream of the Proposed
Hydroelectri c Dams on the Susitna Ri ver,March 1982.The
above statement does not indicate what depth is assumed to be
sufficient for navigation.The above March 198?report
studies 'ice-free navigation only and assumes a depth of 2.5
feet is required for the following reasons:(1)the cross-
sectional data used was obtained for purposes other than
studying project effects on navigation,and (2)the accuracy
of the predicted water surface profiles is,at best,approxi-
mately one foot.From an extrapolation of Figure 2 in this
report,to maintain a depth of 2.5 feet at cross-section 32,
located near Sherman,a di scharge of 6500 cfs is requi red.
Thus,from Table E.2.17,post-project navigational diffi-
culties may occur near Sherman during both filling and
operation during May,June,July 1-27,September 1Q-30,and
October.This is when the project flows are less than 6500
cfs.This conclusion differs from the no navigational
problems statement in Exhibit E.It is believed that the
March 1982 report provides the latest information available.
If a more recent report or di fferent criteri a are used,thi s
shoul d be stated and di scussed.
Response
We concur that the March 1982 report,A Prel imi nary
Analysis of Potential Navigational Problems Oownstream
of the Proposeq Hydroelectric Dams on the susitna River,
provides the latest information available,except that
suppl emental informati on was col1 ected during the summer
and fall of 1982 at Sherman and Al exander Slough.
A reconnai ssance made in September 1982 between Ri ver
Mile (RM)127.0 and RM 128.5,where the Susitna shifts
its main channel from the west side to the east side,
indicated that the central channel in this reach was
still navigable at flows of 6000 cfs at Gold Creek
(Butera 1982).
Chapter 2 of Exhi bit E has been mod ifi ed to refl ect the
navigation criteria used in the above mentioned report
and a quantitative analysis has been provided.Since
there could be a project impact near Sherman~mitigation
measures have been incorporated.
If navi gati on probl ems result at a di scharge of 6000
cfs~flow will be increased to 6500 cfs (the no naviga-
tion impact flow identified byADNR 1982)or the channel
elevation will be lowered.
A reconnaissance of Alexander Creek undertaken on August
18 and 19~1982~indicated that with a Susitna Station
discharge of approximately 90,00n cfs,the channel
depths at the inlet to the slough were of the order of 6
feet.
N-2-002 Additionally~it is stated that "the reach downstream of
Talkeetna is navigable under low flow condition but can be
treacherous at times".What flows are considered low flows?
Are the proposed releases from the project considered low flow
when considering navigation?What flow conditions should he
considered low flows in the areas above Tal keetna when con-
sidering the possible impacts on navigation?
Response
The intent of the statement "the reach downstream of
Talkeetna is navigable under low flow conditions but can
be treacherous at times"was meant to impl y that the
reach downstream of Tal keetna would be navigable under
the reduced post project flows.We agree that the
statement as worded is uncl ear.The document has been
modified to reflect a clearer understanding of the navi-
gability of this reach.
N-2-003 The impacts on navigation,including commercial boating,
recreational boating,float planes~and winter transportation
use of the Susitna River from dam sites to Cook Inlet is in-
adequatel y addressed.The impacts need to be quanti fi ed and
mitigation measures proposed.
Response
As menti oned in the response to comments N-2-001 and
N-2-002 above~navigation impacts have been quantified
and mitigation measures proposed in Chapter 2.
N-2-004 Pages E-2-27;E-2-50
These sections say that information on recreation and
recreational water uses are contained in Chapter 7 of the
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II
On1l.ft [Xih'fbit E.However,Chapter 7 addresses a recreation
plan for the Susitna Hydroel ectri c Project.It does not
address project impacts orJoownstre-am recreational uses of the
Susitna River by boats arnd float plaines for sport fishing and
hunting.This is a major use of the Susitna river in its
entirety.The impacts on th'is water use should be identified
and'quant ified and mit i gat ion measures proposed.
If a more recent report or ·d.ifferent criteri a 'lire used,thi s
should be stated and discussed
Response
Project impacts on downstream recreational uses of the
Susitna Rivell"by boats and floatplanes,for sport fishing
and hu:mi,ng has been incorporated in Section 4.1.2
(hHii i).
N~2-005 Page £-2-36
The avai labfl ity o·fgroundwater fo,r vil 1age and camp water
supply in the location of Ts,usena,Cr'eekis in question.
Before·construction begi ns on any water supply system a permit
to appropriate water and construct a dam must first be granted
by the Department of Natural Resource's per AS 46.15.
Response
We appredat,e that before construction begins on any
water su'pply system,a permi t to appropri ate water and
construct a dam must fi rst be granted by the Department
of Ncatural Resources per AS 46.15.This will be under-
taken during the detail design phase.It is unlikely
that ground water for village and camp water supply will
be necessary because of the potenti al water supply
available from Tsusena Cr\eek.However,ground water
well s arec.urrently being drilled at Watana camp.These
wells should provide information on the availability of
groundwater •
N-2-006 Fi gures E-2-18 thru 2-25
These fi gures do not i ncl ude low 0 I"hi gh flow frequency cu rves
for January -Apri l,November and December.These curves may
be useful when looking at the minimum flow releases for these
months.
Response
Hi gh and low f1 ow frequency curves for January -Apri 1,
November and December have now been i ncl uded in Chapter
2 as FiguresE.2.43-E.2.62 •
N-2-007 Pages E-2-14,E-2-47,E-2-51,E-2-56,E-2-66.and E-2-72 thru
75;E-2-83:
Sloughs and side channels are very important fish and wildlife
habitat.The effects on this habitat due to ~l phases of the
project should be well documented.Some of the basic
questions not answered are as follows:
Regarding ice.what will the effects on slough and side
channel wi nter habitat be with minimum fl ows of 1000 cfs
during filling of the Watana reservoir?Taking into account
the increased temperature and associated lack of ice formation
in the reach above Talkeetna.without the normal ice formation
ri ver stagi ng will be lower.What are the effect s of the
lower staging on slough upwelling and water temperature?If
water upwelling in the sloughs will be decreased.what effect
will this have on all life stages of fish which use the
sloughs.
Response
The fi 11 i ng regime from November through Apri 1 has been
modified so that natural flows are passed through
Watana.Therefore,there will be essentially no impact
on slough and si de channel wi nter habitat from ice-
rel ated effects.
In reaches above Tal keetna where an ice cover wi 11 not
form.the ice formation river staging will be lower.
The effects of the lower staging on slough upwelling and
water temperature are di scussed in Secti ons 2.4.4 and
4.1.2 (f)(ii).Upwelling rates in the sloughs will
essentially be unchanged.although an area at the upper
end of the slough may be dewatered as the result of a
lowering of the ground water table;this is discussed in
Section 4.1.2(f)(ii).Because there is a minimal up-
welling decrease in the slol1ghs.no effects on any life
stage of fish which use the sloughs are anticipated.
N-2-008 With the predicted flows of 10,000 cfs during operation of
Watana Dam,what effects wi 11 thi s have on the slough and si de
channel s above Tal keetna and below Tal keetna?With increased
flows and water temperature at O°C below Tal keetna.increased
ice fo rmati on wi 11 cause hi gher water stage than normal.What
effect will these higher water stages have on sloughs and side
channel habitat?Will the slough heads he overtopped?What
effect would ice formation in the slough due to poss"ible over-
topping have on overwintering fish,out-migration,slough
water temperatures,etc.?If the sloughs below Tal keetna are
overtopped due to increased ice formation and associated
higher river staging and ice does form in the sloughs,beside
the effect on overwintering fish and possible delays in out-
mi grati on due to cool er than normal water temperature,how
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wi 11 thi s ice and other debri s be removed from thse sloughs
without the annual spring flooding?If artificial flooding by
scheduled release from the dam is tried,how will timing of
flooding be determined?
Response
The effects of the winter flows of 10,000 cfs during
operati on of Watana Dam on the slough and si de channel s
above Tal keetna are di scussed in Secti on 4.2.3.At
present there is insufficient information to evaluate
the effect on sloughs and si de channel s below
Tal keetna.
Fish utilization of habitats downstream from Talkeetna
is not well understood since most effort was expended in
the Devil Canyon to Tal keetna reach;thus the rol e of
sloughs as fish habitat is preliminary.Further data
are forthcoming in the June 3n,1983,analytical
reports.If these studies indicate that sloughs down-
stream from Talkeetna represent significant fish habi-
tat,then impacts to these habitats wi 11 be further
anal yzed and your recommendations wi 11 be consi dered in
the development of futher studies •
CHAPTE-R 3 -SECTION 2 -OEPARTMENT OF NATURAL RESOURCES
Comment 1
Page E-3-55:The fishery resource in some specific streams in the
transmission line corridor is discussed.Also stated is:"Little is
known about the other streams that will he crossed in this segment."
Is it possible that valuable resources in other streams may be impacted
by the transmission line?It appears more study is needed here.
Response
The information available on some of the streams transversed by
the transmission line is limited and your suggestion that addi-
tional study is needed will be considered in future study
p rog rams.
Comment 2
Page E-3-58:The di scussion of the Watana dam construction states the
following:"The mr)Vement of fill materials and the actual process of
construction of the fill dam are potential contributions to turbidity
and siltation."Acceptable level s of turhidity and siltation should he
specified,and these should be written into the construction specifica-
tions.This is not discussed in mitigation of construct.ion impacts,
pages E-3-120 to 127.
Response
As indicated in the mitigation section of the text under water
quality,effluents will comply with I1EC effluent standards speci-
fied under 18 AAC 70.020.
Comment 3
Page E-3-73:The statefllent "The entire canyon is expected to be pass-
able by chinook salmon,allowing them to enter Tsusena anrl Fog Creeks"
is found in the discussion of potential impacts from Talkeetna to
Watana dam during filling of the Watana reservoir.What are the
impacts of dam construction and operation on chinook salmon movement
into these creeks?If there are impacts,what are the proposed mitiga-
tion measures?This is not discussed in the mitigation on pages
E-3-128 to £-3-144.
Response
IJuringconstruction of 14atana nam,fl ows which fnr average years
are too high to allow for passage of adults,will Tollow the
-natural regime.Flows during operati on of the dam wi Tl he
~ignif4cantly reduced,allowing for passage of adult chinook
-salmon through the canyon and entra{lce into Tsusena and Fog
Creeks.
Comment 4
Pages E-3-74 to 76:In di scussion of potenti al impacts from Tal keetna
toWatana dam during fill ing of the Watana reservoir,the following
statements are made:
a."'Many of the physical changes identified for mainstem habitat~
wa:uldalso,occur in side-channel habitats.Since side-channels are
generally characterized byt:t,i gher streambed elevations,the fa re-
casted changes in streamflow may cause greater effects in side-
channel habi tats.II
b.IIMany side channels that normally convey water in May,June and the
first three weeks of Jul y,waul d Ii kel y be dewatered under fill i ng
f~ows •••H
c.
r-d.
e.
f.
g.
"In other side-channels,flow may be reduced to an extent that the
outmi,gration of salmon fry would be delayed.1I
"Somesfd.e-channe1 s above Talkeetna would be campI etel y dewatered
under the propose'd fill i ng flows •••II
"Reduced flows in the spring may inhibit emergence and outmigration
in some side-channel spawning area •••11
IIForecasted August and September flows under the fil ling schedul e
may adversely affect spawning habitat in side-channels."
"It is unlikely that new spawning areas would become available
under the filling flows."
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It is understood that with reduced flow rates in s10ughs and
channel s,beaver may become more active in these areas •Thus ~
possible that the beaver dams may block the outmigration of fry.
are the impacts from this?Miti gation measures associated
side-channel s are not discussed on pages E-3-128 to 144.
side-
it is
What
with
-I
The pre-proJect spawning habitat in the side channels is limited
such that these areas pI ay a minor raJ e in sal mon producti on.
Efforts,therefore ,have concentrated onassessi ng the impacts to
the habitat in the more productive slough areas.Similarly,miti-
gation measures have focused on maintaining the slough habitats,
which incl ude passibl e impacts from beavers.
Comment 5
Pages E-3-75 through E-3-77:The foll owing statements are made with
regard to the problems related to flow re1 eases during the different
times of the year,"reduced flows in spring may inhibit emergence and
outmigration in some side-channel spawning area","August and September
flows may adversely affect spawning habitat in side-channels","16,000
to 1R,000 cfs is needed at Gold Creek to insure easy fish passage into
sloughs",and "the stage of the mainstem at flows of approximately
12,000 cfs did not create backwater effects at the mouths of some
sloughs great enough to allow free passage by adul t sal mon".--
The total effect of 1 ow flows on the fi sheries cannot be eval uated
until the total number of sloughs and side-channels both below and
above Tal keetna that wi 11 be affected,and to what extent they wi 11 he
affected,is known.What percent of the total salmon population are
using the slough or side-channel habitats that are expected to be
impacted,and at what time of the year these impacts wi 11 be most
severe.
Response
The total number of sloughs and si de-channel s both below and above
Tal keetna that wi 11 be affected by low flows and to what extent
they wi 11 be affected are the subj ects of ongoi ng studi es by the
Aquatic Studies Program.The number of adult salmon using the
slough habitats that are potentially impacted during spawning is
presented in the revised text.Emphasis in studies to date has
focused on the extent to which habitat is affected by flow
alterations.An attempt to estimate the percentage of the total
salmon population that is impacted on a speciesjlife stage and
seasonal basis is being addressed by the AEIOC instream flow
analysis.
Comment 6
Page E-3-80 through E-3-85;E-3-95 through E-3-97:The impacts on the
Cook Inlet to Ta"lkeetna reach during both filling and operation are
extremely generalized and lack documentation.Impacts on the main-
stream,side-channels,sloughs and tributaries must be investigated and
quantified.This includes impacts resulting from changes in discharge
and stage,water temperature,water quality,sediment transport,ice
and river morphology.While this reach of the river will be impacted
less than the Tal keetna to Devil Canyon reach,the possibil ity remains
that sm~l project changes may result in significant impacts.Of par-
ticular importance in this reach is the determination of the cumulative
effect of the individual impacts noted above.Mitigation measures
associ ated with these impacts are not addressed in pages E-3-128 to
144.
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Response
Available data regarding changes downstream from Talkeetna
certainly indicate minimal impacts.The sufficiency of the data
base will be considered in formulating the future study program
for FY 1984.
Comment 7
Page E-3-129:The list of reasons for providing suitable flows should
include the following additions:
1.All ow adult salmon access to slough and side-channel spawning
habitat.
2.Maintain flow through the spawning gravel during the incubation and
rearing periods.
3.Maintain suitable flows to preserve slough upwelling waters.
4.Maintain flows to control proper water temperature needed in the
mainstem,sloughs and side-channels.
Response
The side-channels support only limited spawning activity and
providing access to these areas was not considered a primary
fi shery concern.The sloughs are si gnifi cantl y more productive
areas and efforts have been directed on maintaining these habi-
tats.The flows provided to allow access to sloughs are expected
to maintain access to most side-channel habitats.
Comment 8
Page E-3-133:Regarding winter flows,"Minima1 impacts are expected".
The possible impacts addressed on Page E-3-94 seem to be major.
The only rectification of impacts on sloughs that is presented is
slough modification.This is an untested mitigation measure in this
river system.What are the costs involved with design,testing,con-
struction and operation and maintenance of slough modifications?How
many sloughs will need to be modified?This section should include
other alternatives besides slough modification to rectify impacts on
sloughs.
Response
The actual impacts to slough habitats resulting from post-project
winter flows are not fully defined at this point.Establishment
of a mainstem discharge-slough habitat relationship is required
for both ice-covered and open-water winter flow conditions.These
relationships are the subject of the AEIOC instream flow study and
the ongoing Aquatic Studies Program.Nevertheless,the text has
been revised and mitigative measures are presented to minimize
adverse impacts.
Additional details are provided in the text on rectification of
impacts for the sloughs.
Comment 9
Page E-3-136:On thi s page and el sewhere,the document predicts water
temperatures in the reservoirs and downstream of the dams.No informa-
tion,however,is given describing how these temperatures were pre-
dicted.The model used should be given or referenced,along with the
detail s describing its verification for use on this system.The val id-
ity and hence the accuracy of the temperatures predi cted,therefore,
must be questioned.
Response
Water temperature predictions are addressed in detail in
Chapter 2.
Comment 10
Page E~3-137:"The impacts associated with alteration of the tempera-
ture regime during reservoir operation can be minimized by incorporated
multiple level gates in the power intake."Not discussed are water
qual ity parameters other than temperature associ ated wi th each reser-
voir level.A monthly schedule should be given that quantifies the
water level s to be used and the associated water qual ity parameters of
the release water.Of specific concern is the dissolved oxygen content
of water released from Devil Canyon if the intake is drawing water from
the hypolimnion.
Response
The effects of the project on water quality parameters·are
discussed in detail in Chapter 2.
Comment 11
Page E-3-140:
"Gas supersaturation will be avoided by including fixed-cone valves in
the outlet facilities •••A prototype test of Howell-Bunger valves showed
them to be effective in preventing gas supersaturation (Ecological
Analysts Inc.1982)."Since this reference is an unpublished report,
it cannot be easily obtained.The bibl iography leads one to bel ieve
that thi s val ve was tested at one site.If thi sis true,it is i nade-
quate.Due to the potenti al negati veimpacts from nitrogen supersatu-
ration,the valves to be employed here should be well tested for this
application.It appears that this in not the case for these
Howell-Bunger valves.
Response
Acres'analysis of the physical and geometric characteristics of
freely discharging,diffused Jets and the aeration efficiency of
simil ar fi xed-cone val ves indicated that no serious supersatura-
ti on of nitrogen 'is 1 ikel y to occur with spi 11 s up to the 1:50
.year recurrence interval.The resul ts of the fiel d tests cited
support this conclusion.This subject is discussed further in
Chapter 2,Section 6.4.3 -Gas Supersaturation.
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Comment IV
Summary
In summary,this draft Exhibit E is a start at answering questions
regarding issues and resources to be affected by this project and their
impacts and possible mitigation.However,a great deal more data
coll ecti on and analysi sis needed in order to answer st ill unanswered
questions before this project can be effectively evaluated.
Response
See response to Comment 6 in the U.S.Fish and Wildlife Service
covering letter of January 14,1982 to the Power Authority •
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DEPARTMENT OF FISH AND GAME
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ALASKA DEPARTMENT 'OF FISH AND GAME (.,AD:F&G)
COMMENTS CONTAINED I~LETTER OF JANUARY 13,1983
GENERAL COMMENTS
The Al aska Department of Fi sh and Game (ADF&G)has reviewed the Draft
Exhibit E,dated November 15,1982,that was ,prepared for inclusion in
the license application for the SusitnaHydroelectric Project that the
Alaska Power Authority (APA)intends to submit to the Federal Energy
Regulatory Commission (FERC).
The Department's review of the Draft is based on the adequacy with
which the fish and wildlife resources affected by the project"the im-
pacts to those resources attributable to the project,and specific
mitigation proposals to offset impacts are identified and quantified.
The types of information required for an adequate assessment of feasi-
bility,with respect to fish and wildlife resources were originally
i dentifi ed for the APA in November 1979 through correspondence rel ati ve
to the Plan of Study and were most recently identified in Commissioner
Ronald Skoog's statement to the APA Board of Directors on April 16,
1982.
Our review comments 0,(1 the following chapters are appended to this
letter:
Appendix A -Chapter 2
Appendix B Chapter 3
Appendix C -Chapter 5
Appendix 0 -Chapter 7
Appendix E -Chapter 9
-Water Use and Quality;
Fish,Wildlife,and Botanical
-Soci oeconomi c Impacts;
-Recreat lonal Resources;and
-Land Use.
Resources;
The time afforded the ADF&G to review the Draft Exhibit E has not been
sufficient to allow a detailed review of all the chapters,nor has it
enab 1ed illS to present our comments in as thorough and refi ned ,a .rnanner
as we would have liked.We do,however,expect to take advantage of
future review opportunities to further address these issues.
The appended revi ews (Appendices A-E)contai n general statements re-
garding the overall adequacy of each chapter.Following these are spe-
cific comments addressing the techni cal content of t,ne r;eport.In the
specific comment section,we have on occasion clarified the Depa.rt-
mentis policies and positions with respect to the proposed Susitna Hy-
droelectric Project.
Response
The above info,rmation has assisted the Power Authority in re-
viewing the ADF&G comments.
Comment
Throughout the chapters of the Draft Exhi bit E that we reviewed,both
the information presented and the assessment of impacts are generally
insufficient for the kind of a planning and source document needed for
preparation of an ElS.We are concerned that the benefits and cost as-
pects of the project have not been presented completely and clearly.
The general problems with the Draft Exhibit E chapters that were re-
viewed by the ADF&G are as follows:
1.Data and information contained in the Exhibit E are,in many cases,
incomplete or not properly interpreted.
2.Many potential impacts and issues attributed to the Susitna Hydro-
el ectri c Project are not addressed.Impacts to fi sh and wildl ife
resources and users that are addressed are not adequately quanti-
fied and proposals to mitigate impacts are not sufficiently devel-
oped.
3.Not all source materials,other Draft Exhibit E chapters,or the
results of other study disciplines that are pertinent to the proj-
ect are referenced.
4.Throughout the document there is a failure to discriminate between
fact and speculation.
Response
These comments have resulted in modifications to the Draft
Exhibit E.Specific comments relating to these problems are
addressed in Chapter 11.
Our comments,recommendations,and suggestions to strengthen the ma-
terial contained in Draft Exhibit E in relation to the problem areas
identified above are as follows:
Comment 1
The APA should examine the specific comments appended to this let-
ter and clarify or expand sections in the Draft Exhibit E chapters
where inadequate treatment of the data or i nformat i on is sug-
gested.The suggestion here is that while some interpretations by
the authors are not necessari ly inaccurate,they are i ncompl ete.
This type of problem in the Draft Exhibit E may be either editor-
ial or a function of the short time frame allotted to assemble,
assess and analyze the information available.The Draft Exhibit E
chapters should utilize currently available and relevant informa-
tion and data sources.
Response
Appropriate sections of the Draft Exhibit E have been clari-
fied or expanded to address the specific corrments.
Comment 2
The Draft Exhibit E chapters should accurately reflect the current
state of resource knowl edge andinformati on on impacts whi ch are
understood and those which are still undetermined.Consequently,
the mitigation plans cannot be considered adequate unless the in-
formation and analysis of impacts is current and comprehensive.
The mitigation ~ans should clearly indicate how impacts are con-
sidered in the design of the project;what measures will be taken
to avoid,minimize or rectify impacts;and how effective these
measures will be in mitigating losses.
Response
We have made attempts to ensure that our data base and impact
assessment is as current and comprehensive as possible.How-
ever,as must be appreciated by your department;there is of
ten a considerable lag between the collection,analysis ann
availability of baseline data.In our opinion Exhibit E
accuratel y refl ects the current state of resource knowl edge
as based on available data.As more information becomes
available,our understanding will become more detailed.Con-
sequently,our mitigation planning is considered adequate to
date with the understanding that refinement will occur during
the licensing and final design phases.
Comment 3
Source material in the Draft Exhibit E is not adequately refer-
enced.Furthermore,data and information reported in chapters of
the document should be consistent with other chapters.The lack
of coordination between the resource groups and the engineering
and construction groups is evident;conflicts have not been clear-
ly identified between uses and disciplines.To remedy this defi-
ciency all confl icts between engineering and construction groups
is evident;conflicts have not been clearly identified between
uses and disciplines.To remedy this deficiency all conflicts be-
tween engi neeri ng and economi c factors and envi ronmental al terna-
tives should be identified and the consequences of altering those
factors shoul d be 1i sted.The envi ronmental concerns shoul d be
weighed equally with engineering and economic constraints.
Response
Referenc i ng and documentation has been improved in the fi na 1
Exhibit E.Di scr~pancies between chapters have been cor-
rected.Throughout the planning process,environmental con-
cerns have been given equal consideration.
Comment 4
Throughout the document,there is not al ways adequate di sc rimina-
tion between fact and speculation about resource values,concerns,
issues,impacts and mitigation alternatives.
Response
Most assessments are on a continuant somewhere between fact
and speculation.However,efforts have been made to identify
for the reader the degree of speculation or data base support
associated with various statements.
Comment
In some cases adequate referencing and reporting of data in the chap-
ters may resolve this.Where baseline data collection is required to
remove speculation it should be done,or if relevant data and informa-
tion are available elsewhere they should be collected and evaluated.
Response
Adequate referencing and reporting of data has resol ved many
of the above concerns.Data collection and analysis is on-
going to further refine many of the impact predictions and
mitigation plans.
Comment
The Department of Fish and Game recognizes the general character of the
above recommendations.These recommendations are made based on an
overview of the ADF&G comments for the chapters we have examined.We
invite further consul tation by the APA with our agency to discuss the
specifics of the chapters we reviewed and our general recommendations.
Response
The character of the above recommendations is understood.
The more specific comments attached augment these general
comments.Further consul tation will be pursued throughout
the FERC license review process.
Comment
The fish and widlife resources of the Susitna River basin are of high
value.Construction and operation of the proposed Susitna Hydroelec-
tric Project can have wide ranging implications for these resources and
their users.It is the objective of this Department to help Governor
Sheffield insure that fish and wildlife resources are considered along
with other project features during all stages of project planning,con-
struction and operation.
Response
Fi sh and wil dl ife resources have been and will continue to
be,considered along with other project features during the
planning,constructi~n,and operation of the Susitna project.
It is anticipated tflat most,if not all,impacts will be mi-
tigated.
.-
Comment
Based on the above overview of the Draft Exhibit E and the chapter-
specific comments containe_d in the enclosed Appendices,the ADF&G does
not believe that this planning document is sufficiently complete.Fur-
thermore"we believe that the APA,can best insure expeditious review
a,nd approval by FERC if it does as much as possible to resolve agency
ccmcerns or establ ishes the mechanism to resolve those concerns.
Respons,e
Refer to the response to Comment 6 of the tJSFWS 1etter dated
January 14,1983 •
Comment
We hope our revi'ew assi sts the APA in addressing the concerns expressed
herein and consider that this review represents only part of the pro-
cess needed to reach the objective we wish to attain.It is highly im-
portant from our perspective that the FERC License Appl ication sched-
uled for submission in February and the process of consideration of the
Exhli::b,tt E will positi vely;contribute to the equiitahle consi de rat ton of
fish and wildlife concerns.
Response
The AOF&G ' s timely review'was appreciated by,the Power Au-
thority.
Comment
Thank you,for the,opportuni ty to revi ew and comment on thi s do,cument.
We would appreciate your providing an explanation of how you eventually
respond to the comments we have made.
Response
A 1 etter dated January 21,1983 was forwarded to ADf&G ex-
plaining our response procedure.
COMMENTS CONTAINED IN ALASKA DEPARTMENT OF FISH AND GAME
LETTER OF JANUARY 13,1983
GENERAL COMMENTS -WATER USE AND QUALITY
Comment 1
This document generally fail s to cite supporting ev idence for the
statements made or for potential impacts considered to be of major
importance to this agency.ki example can be found in the discussion
of ice processes in the lower river.The ice formation processes are
simply stated as causing staging of 4 feet at Talkeetna to3 feet at
Sherman (E-2-59).The method used to determine this estimate has not
been defined.Also,no references have been provided that evaluate
whether ice processes are or are not a problem below other hydro pro-
jects.If this is a purely speculative scenario,it should be so
noted.Otherwise,a scenario assuming that the staging would be 6 to 8
feet at Talkeetna during the winter months and annual floods would
occur is just as supportable as the statements provided.
Response
Referencing has been expanded where appropriate.These include
references to field observation reports,such as the R&M Consul-
tants reports of 1982(a)and (d)which documented the 2-to 4-foot
average water level change observed during the 1980 freezeup,
methodology reports which outl ine the analytical or forecast tech-
niques employed,and support documents which provide evidence of
similar scenarios occurring elsewhere.
Considerable effort has been involved in model ing both pre-and
post-operational ice processes.It has been assumed that
reviewers would know that changes in ice process can and have been
a probl em below other hydro projects.None of the scenarios dis-
cussed are purely specul ativ e.Estimated changes are based on a
sound technical understanding of the physical processes associated
with ice formation,a mathematical model that has been tested on
other hydro projects,and direct observations and measurements on
the Susitna River.The degree of uncertainty associated with
forecasted changes is provided.
Comment 2
The failure to provide a separation of the speculative comments from
the segments of the text supported by documentation creates severe
problems in assessing the overall credibility of the report.
-Response
In all sections of Exhibit E,efforts.have been made to identify
the extent of judgment associated with the various predictions.
However,it is not always possible to provide an absolute separa-
tion between speculation and fact.Most,if not all,statements
addressing impact predictions or sui tabil ity of mitigation pl an-
ning.are based on a combination of basel ine data (with an asso-
ciated degree of error),predictive methodologies (with an asso-
ciated degree of error,assumptions,and subjective evaluation),
and professi onal judgment.
Comment 3
This document also needs a preface on how the flow scenario and access
route were selected for the license submittal and a discussion of other
available options.The Exhibit A document referenced on page E-2-86 on
access routes was not provided for our review.
Response
Di scussion of al ternatives is contained in Chapter 10.Section
2.3 addresses Access Alternatives and Section 3 addresses Alterna-
tive Operating Scenarios.
SPECIFIC COMMENTS
G-2-001 E-2-3/4
The source of the 40 percent stream flow stati st ic shoul d be
identi fied.
Comparison of Table E2.3 indicates that for the 32 year
filled in record,mean annual flow at Denali,Maclaren
and Gold Creek were 2850,980,and 9650 cfs respec-
tively.From this,it can readily be determined that
Denal i and Maclaren provide 39 percent of the Gold Creek
flow.
G-2-002 E-2-3/5
State that all the nows listed other than upper Susitna River
are also mean annual flows.
The text has been modified to state that all fl ows
1 i sted are mean ann ua 1 flows.
G-2-003 E-2-4/1-4
References are needed to support the flood information dis-
cussed.
References are provided where appropriate.
G-2-004 ~eferences are needed to support the statement that the shape
of the listed duration curves is indicative of flow from
northern glacial rivers.
Reference is provided in text.
G-2-005 E-2-5/3
Reference{s}are required to support the discussion r.egarding
Susitna River morphology.
Much of the discussion on river morphology is contained
in the report River Morphology,R&M Consultants 1982.
References are prov ided in the document where appropri-
ate.
G-2-006 E-2-10/1'
The description of sloughs as having a steeper gradient than
the mainstem is misleading.The gradient wUhin the sloughs
is generally variable,with a steep upper section and a lesser
slope in the lower end.In up1 and sloughs,those without
scour channels,the gradient appears to be even less.CNer-
all,the sloughs have a steeper gradient,but the variabil ity
of their gradient is important to their fisheries production.
We ag ree with thi s comment.Section 2.1.2 has been
modifi ed to inc1 ude the ADF&G comments.
G-2-007 E-2-11/2
There is a need to cite specific references in the water qual-
ity text even though a general reference section was provided
in the preface for the water quality section.
The specific references cited in the preface to the
water qual ity section were for criteria purposes.Spe-
cific criteria levels for each parameter are provided in
the water quality data summary Figures E.2.lI,E.2.78,
£.2.81 and E.2.83 through £.2.119.The sources of water
qual ity data (USGS,R&M consul tants and/or ADF&G)are
cited in the figures and the text,where appropriate.
G-2-008 £-2-12/3&4
The months that are inc1 uded in the "winter,spring and.sun-
mer"time frames need to be i denti fi ed.
The winter months normally inc1 ude the months of October
through April when the flow is predominantly base flow
and water temperatures are approximately O°C,whereas
the summer months include the period after breakUp
through the high runoff period,(September).Paragraphs
2 and 3 have been clarified to reflect the intended
meaning.A descr"j ption of the monthly breakdown of the
three seasons,as defined for water qual ity data comp1 l-
ations,is provided in Section 2.3,paragraph 3.
....
....
G-2-009 E-2-12/5
C1 arificati on needs to be prov ide<!as to whether the 601 d
Creek.temperature data presented in Fi gure E.2.30 were cor-
ree:V.The location of this station was determined to be in-
fluenced by 'GCilJd Creel<fl ows in 1981 and the station location
was changed itl'198Z)to the northwest bank as a consequence.
The data presented~in Figure E.2.30 (revised nlJ1lber
Eo 2.71),are USGS spot measurements>at all gag ing sta-
tions.Data from continuously recording thermographs
were not available at all stations,50 spot measurenents
were compiled to maintain consistency.It is not
bel ieved that the spot data collections at Gold Creek
would be influenced by the Gold Creek tributary contri-
butions since a cross-sectional sampling technique is
used by the USGS.
G-2-01O E-2-14/1
A reference is needed for the Portage Creek temperature data •
The reference for the Portage Creek temperature data is
the Alaska Department of Fi sh and Game.The reference
has been noted in the document •
....
....
G-2-011 E-2-14/3
It should be noted here that under natural conditions,staging
during freezeup reportedly causes flood ing of portions of the
town of Talkeetna near the downtown airport.There is a need
to reference the material presented in thi 5 paragraph.
The 2 to 4 foot increase in water 1 evel noted in the
document was the average water level change observed
during the 1980 freezeup as reported by R&M Consul tants
(1982a,1'9'82d).These val ues were not intended to pro-
vide the maximum water level increase,but rather the
average change.Near RM 96 and the town of Talkeetna,
ice advance has resulted in local ized flooding'of side"
c,hannels and sloughs.Daily stage readings during
freeze up 1982 have revealed overnight water 1 evel
increases of 4 to 5 feet in the slOUgh adjacent to RM 97
on the left bank.This flood condition persists only as
loog as it takes the leading edge of the ice front to
pass •
G-2-01.\Z~H,..2·~I4'J.&~&6
The'term fraziT ice -should be defined for't:hee'readers.Al so
it cannot tH~overstated,that ite jam.s could)have Se\l·,ere conse-
quences to portions of t.he:.community of Talkeetna.
Frazil ice 1S sl ush ice formed bY'ice crysta~Tization at
the water sur face when the water temperature is at aoc
and the air temperatur.e is below freezing.Photograph
E.2.1 illustrates frazi··l ice OR!the Susitna River.
Wi thout the impl ementati on of f1 ood control features or
measures,staging due to the freeze up process could
have consequences to portions of the community of
Ta lkeetn a.
G-2-013 E-2-17-5
In order to properly assess the effects of the project on the
downstream fisheries and fisheries'potentials of the impound-
ments,a relationship of suspended sediment and associated
particle size to vertical illumination is desirable.This
does not appear to have been done,in that no quantitative
measurements of vertical ill umination have been obtained.
Vertical illumination for photosynthesis in the environ-
ment downstream from the project site varies widely
through the year.Estimation of the depth to which
light is available for photosynthesis may be made by
direct measurement,or by inference from other para-
meters,such as turbidity.Depth of the euphotic zone
is taken as the depth of penetration of 1 percent of the
ill umination avail abl e at the surface (St.John et al.
1976)•
Direct measurement of light available for photosynthesis
was attempted in overfl ow water in slough 21 using a
LiCor rvbdel LI-1925B Underwater quantum Sensor,on
September 9,1982.The euphotic zone depth as defined
above was cal cul ated to be 1.1 meters from the 1 imited
sampling data.Visual observations at the time of samp-
1 ing,however,indicated mainstem turbidity was much
greater than in slough 21.Consequently,the euphotic
zone in the mainstem could be inferred to be signifi-
cantly less than 1.1 meters on this date.
Vertical illumination has been successfully related to
turbidity at the surface in studies at Eklutna Lake.
Application of this relationship to turbidities in the
Susjtna River downstream from the project would yield a
minimum euphotic zone depth of about 0.1 meter for the
1982 season peak turbidity (1060 NTU)from a sample from
the Susitna River at Sunshine (RM 84)on August 18,
1982.By this relationship the euphotic zone would
extend beyond 10 meters in depth when turbidity in the
stream drops below 10 NTU,as is typical throug h the
wi n ter.
While the relationship between turbidity and vertical
illumination is quite good for the range of turbidity
apparent in Eklutna Lake,the complex relationship be-
tween optical properties such as turbidity,and the
physical and mineral og ical properties of the suspended
sediment is not fully understood.It is 1 ikely that a
--,
!""'"
!
water sampl e contain ing a greater suspended sed iment
surface area will reflect or scatter more incident
light,resulting in a higher turbidity value and a cor-
responding decrease in light penetration.This would be
the case if water of a given sediment concentration con-
tained sediment with a smaller mean particle size,
elongated or flake-shaped particles,or lighter-colored
mineral s.
The lake environment features sediment concentrations
much lower than the summer stream values and particle
si zes much small er than those might be expected in pre-
project downstream conditions.(Typical mean particle
size by weight for 27 lake samples was 3-4 microns
equivalent diameter versus 16.67 microns equivalent di-
ameter for a depth-integrated river sample taken August
18,1982 from the Susitna River near Chase (RM 103).
Sediment concentrations ranged from 0.14 to 63.5 mg/l in
the lake compared to typical values of 156 mg/l to 769
mg/l in the river near Chase dur"ing the 1982 summer sea-
son).
Because of this difference in suspended sediment regime
between stream and lake,some caution should be used in"
obtaining values of vertical illumination from available
turbidity and sediment data.It is likely that illumi-
nation in the river is somewhat greater during the sum-
mer than might be inferred from turbidity alone.
G-2-014 E-2-20/5
The dissolved gas concentrations above the Devil Creek rapids
were not supersaturated and were recorded as approximately 100
percent.The 105 percent val ue was recorded cibove the Dev il
Canyon damsite.
Refer to Chapter 2,Section 2.3.6(b)for incorporation
of thi s correction to our document.
G-2-015 E-2-24/2
These sloughs also contain important anadromous and resident
fish rearing habitat.
We disagree that power generation could be considered an
instream flow use undef'only unusual circumstances;
hydroel ectric power generation is a use of the water in
the stream.
G-2-017 £-2-26/3
Fry emergence occurs at different times within and among
species.Emergence is most closely correlated with accum-
ulated thermal units and has I ittle to do with the hydrograph.
Also burbot and Dolly Varden should be added to the list of
important resident species.
We agree that fry emergence occurs at different times
within and among species and that emergence is most
closely correlated with accumulated thermal units.The
statement should have read that fry out-migration occurs
on the ascending I imb of the hydrograph.The importance
of burbot and Dolly Varden as important resident spec ies
has been noted in Chapter 2 Section 2.6.2.
G-2-018 £-2-28/6 &£-2-29/1
Seasonal salinity measurements should be collected and correl-
ated to a wide range of flow I evels and tide conditions in-
stead of to a few selected fiow lev~s.
The recommendation that seasonal salin i ty measurements
should be collected and correlated to a wide range of
flow level s and tide conditions instead of a few
selected flow levels will be considered in the planning
of future studies.
A planned winter collection trip will attempt to gather
data at a low tide range throughout a tidal cycle.This
data wi 11 hel p defi ne the max imum extent of sal twater
instrusion during low flows.If saltwater intrusion is
not appreciable at existing winter flows,additional
data collection on salinity would not be warranted.
G-2-019 E-2-29/2
The location of the sampling site and a definition of the
mouth of the Susitna River should be provided to give credence
to this statement.Saltwater intrusion would be expected to
be dependent upon tidal action,so this must also be taken
into account when describing sal twater mixing and intrusion.
The mouth of the Susitna River has been defined as the
point where the coastl ine of Cook Inlet is extended
across the Susitna River,i.e.,Susitna River enters
Cook Inlet.This is at a point just below Delta Island.
The location of the furthest downstream sampl ing site is
at RM 0.5.
-
.-
[
r
Saltwater intrusion is related to tidal action.The
larger the tide,the greater the mixing and the less the
salinity intrusion.At the time of the August 18 and
19,1982 salinity measurements,spring tides (i.e.large
tide range)were occurring in Cook Inl et.Thi s would
have the effect of reduc ing the sal twater intrusion.
However,even with neap tides (Le.small tide range)
and the approximate 90,000 cfs discharge at the mouth of
the Susitna River,sufficient mixing would exist to pre-
vent sal inity intrusion upstream from the mouth.
G-2-020 E-2-29/4-5
The use of regression equations to calculate the peak and low
flows without data on actual discharge of the tributary
streams to be crossed by the access road is inappropriate and
should not be used as a substitute for collection of discharge
information.This is particularly important to the design of
bridges or culverts for engineering integrity or for fish pas-
sage.The si zes of many drainage strr.Jctu:--es pl aced in the
North Slope haul road and pi pel ine workpad were underestimated
when these methods were applied.This resulted in hydraulic
erosion and structure fail ures that were unnecessary.
We disagree that regression equations are inappropriate
for a prel iminary estimate of the discharge of the trib-
utary streams to be crossed by the access road.During
final design of the access road,culverts will be sized
to maintain fish passage according to the criteria
established by the Alaska Department of Fish and Game.
The recommendati on that actual di scharge data be col-
lected will be considered in the developnent of future
field studies.However,the value of regression equa-
tions should not be underestimated.
G-2-021 E-2-29/6
It is stated that liThe 1 ine between the dam and the intertie
has yet to be designed,sited or constructed."The Exhibit E
should include information on the siting (corridors)of the
transmission lines,baseline information on resources which
may be impacted,an assessment of the impacts,and the methods
proposed to offset impacts.
The transmission corridor from the damsites to the
intertie has been rerouted.Both the transmission 1 ine
and access road now share a common corridor.Further
information can be found in Chapters 3 and 10,Section
2.4,Exhibit A Sections 4 and 10,and Exhibit B Section
2.7.
G-2-022 E-2-30/1-5
Oi sc harg e measurements shoul d be c 011 ec ted at any stream c ros-
sings associated with the transmission lines if road access is
to be dev eloped.These measurements shoul d be used in deter-
mining the size of bridges or culverts for fish passage and
engineering integrity.If any other transmission 1 ine routes
were considered they should be listed.
The recommendati on that disc harg e measurements be made
at stream crossings associated with road access to the
transmission 1 ine will be considered in pl anning future
studies.While these measurements would be useful this
would not be suffic ient to si ze the culverts because of
the 1 imited number of years of data that woul d be avail-
able before construction is scheduled to commence.
G-2-023 E-2-31/General Comment on Section 3,Project
Impact on Water Quality and Quantity
It is essential to present a discussion of the rationale and
process for selecting the operational schemes on which the
impact discussions were based.In other words,it needs to be
made clear why this specific operational scheme was selected
above other alternatives,what the eng ineering rati onal e is
and how considerations of environmental values,concerns or
needs were incorporated into the judgment that this is a
satisfactory operation scheme.
A discussion of the rational and process for selecting
the operation schemes on which the impact discussions
were based is contained in Chapter 2 Sections 3.2 to
3.8.
G-2-024 E-3-32/1
The statement that dewatering a I-mile section of the Susitna
River will not resul t in any serious impacts is incorrect.
This area is used by grayling for wintering,and dewatering
will result in a permanent barrier to migrating fish in the
system.Data collected by the ADF&G in 1981 on intrasystem
movements of grayl ing between Deadman and Tsusena Creek indi-
cated migration between these systems.
The significance of the loss of the I-mile reach due to
construction is assessed in Chapter 3,Section 2.3.1(a)
(i).Note that once the dam is completed this section
of river will be permanently lost.
G-2-025 E-2-33/4
The statement does not address the large amount of spoil that
will be generated and the large amount of grading and washing
that will be necessary to obtain proper si zed material s for
the construction of the dam.This will generate an enormous
water quality and spoil disposal problem that has not been
addressed.Spoil disposal sites should be located in a manner
to preclude introduction of sediments into the Susitna River
and fish-bearing tributaries.
The disposal of spoil materials and the extent of grad-
ing and washing are addressed in Chapter 2,Sections
4.1.4(c)(iii)and 6.2.
G-2-026 E-2-34/4
Petroleum and petro lelJJ1 product spills i nthe smaller g rayl ing
streams can have significant impacts on these fisheries.An
oil spill contingency plan is essential to provide proper di-
rection to prevent or mitigate spill events.
G-2-027
Federal law requires that as part of the management pro-
cedures there will be an oil spill contingency pl an (40
CFR 102.7).This is discussed in Chapter 3 Section
2.4.3(c)(i i ) •
E-2-34/5
The description of the treatment of the wastewater is totally
inadequate.The discussion of wastewater treatment should
describe the volume of the wastewater,the nature of the con-
taminant,a documented system for appropriate water treatment,
the anticipated quality and the volume of the effluent,and an
analysi s of the instream concentrations of the effl uent.
Refer to Chapter 2,Sections 4.1.1(c)(vi)and 4.2.1(c)
(vi)for discussions of the concrete wastewater,its
treatment and potential impacts.A wastewater control
contingency pl an,in coopl iance with state and federal
regulations will be developed.Additional information
is provided in Chapter 2,Section 6.2
G-2-028 E-2-35/1
Ground water can be impacted by polluted surface water drained
into a well.
r-We ag ree that g round water can be impac ted by poll uted
surface water drained into a well.The greatest oppor-
tunity for this to occur will be in the construction
area.However,safeguards such as an oil spill contin-
gency pl an will minimize the risk of this occurrence.
G-2-029 E-2-35/2
The term minor impacts,to describe the effects of excavation
of borrow material,appears to be a mis-statement.If borrow
material is taken from streams or 1 akes in the impoundment
area,the impacts could have serious consequenes on these fish
populations.The types and volume of borrow materials to be
-
-
removed,and the availability of materials need to be identi-
fied.hi inventory of the fisheries in these areas needs to
be made and basel ine water qual ity conditions need to be docu-
mented.hi analysis of the effects of borrow removal and mit-
igative actions to reduce the impacts by al tering site loca-
tions or construction and operation techniques should be pre-
sented.This is a major oversight in this document.
At present,Tsusena Creek is the only stream sc hedul ed
for borrow material removal (Borrow Si te C).No si tes
are proposed adjacent to any lakes.
A description of the types and volumes of borrow
material,the availability of material and the potential
impacts are discussed in Section 4.1.1(c)(iii).A pre-
liminary description of proposed mitigative measures is
provided in Section 6.2.Additional information is pre-
sented in Chapter 3.Potential impacts to the fi sheries
resources are discussed in Chapter 3,Section 2.4.3(d).
G-2-030 E-2-35/5
Structural measures to prevent downstream movement of fi sh
through the tunnels is a necessary mitigative action that is:
not addressed.Downstream movement of fi sh without passage
upstream essentially means these fish are lost to the popula-
tion.
An expanded discussion of the impacts of the diversion
tunnel s on fi sh is contained in Chapter 3,Section
2.3.1(a)(i)and 2.4.3(h).
While it is valid to assume that individual fish will
not necessarily be lost by filling the reservoir,the
lost tributary and main stem habitat and the low habitat
value in the reservoir subsequent to filling is expected
to significantly reduce the popul ations of fi sh suscept-
ible to passage through the diversion tunnels.The tem-
porary mitigative measure of structural protection from
passage through the tunnel will provide only short lived
benefits.It woul d be more appropriate to prov ide miti-
gations that will provide long-term benefits.
G-2-031 E-2-35/6
upstream migration of fish will be completely blocked by the
velocity barrier in the diversion gates.
We concur that upstream migration of fi sh will be com-
pletely blocked by the velocity barrier in the diversion
gates.
/"""
I
-
G-2-032 E-2-36/5
As with earl ier comments (E-2-29/4,..5),the regression ana1ysi s
of peak and minimum discharges should not be substituted for
the collection of discharge information.
Refer to response to question G-2-020 (ADF&G comment
E-2-29/4-5)•
G-2-033 E-2-37/3
The 1 eve1 of ana1ysi s presented here and detail of mitigation
of the effl uent shoul d be prov ided for all effl uents rel ated
to the project,not just sewage.
Additional detail sand analysi s of borrow material
removal,concrete wastewater,and accidental petroleum
spills have been provided in appropriate sections.
G-2-034 E-2-38/6
Reference to this information as a personal communication is
inappropriate.The outmigration of salmon in the spring is as
likely related to photoperiod and deve10Jll1ent as the other
factors listed.Very low flows in the spring could Cause many
of the juv enil es to remain trapped in backwater pool s that are
normally flooded by the mainstem under pre-project conditions.
Reference as a personal canmunication has been del eted
from the document as per the Al aska Department of Fi sh
and Game request.
We concur that the out-migration of salmon is as likely
rel ated to photoperiod and deve10jl1lent as stage,di s-
charge and temperature.We disagree that very low flows
in the spring could cause many of the juveniles to re-
main in backwater pools that are normally flooded by the
main stem under pre-proj ect c ond iti on s.Local runoff
from the spring melt and/or rainfall in combination with
ground water inflow will provide sufficient flow for
out-migration.For exampl€in slough 9 there is a back-
water pool that extends about 700 feet upstream from the
slough mouth at a discharge of 12-16000 cfs (Fi gure ).
The berm which controls the pool elevation is approxi-
mately 400 feet downstream from the mouth.From this
berm to the mainstem,there would be a reach 400 feet in
1 ength that woul d be dewatered if the mainstem flow were
reduced to 6000 cfs and no sl oug h flow.Usi ng the very
conservative assumptions that local runoff during spring
plus ground water flow is only 1 cfs,the flow spreads
laterally over a 10n foot width (i.e.no unevenness in
the topograePhy which woul d concentrate flow an<l increase
depth over less width),the depth of flow can be calcu-
lated to be one half inch by Mal'lning f s equation (Man-
ning's n=0.035,slope =.0038).This would be suffi-
cient to ~ermit out-migration of 5a1mon fry.
G-2-035 E-2-39/2
The proposed flows of 12,000 cfs have not been demonstrated to
maintain the character of sloughs and provide the flushing
flows needed to clean fines out of the gravel.Also the cycle
of vegetation succession will be altered if flows do not wash
away old vegetative growth.Consequently,what is now aquatic
habitat may become terrestrial habitat over time.
While the proposed flows of 12,000 cfs will not provide
the flushing flows to clean fines out of the gravel or
maintain the integrity of the slough morphology,during
wet years flows will often be sufficiently high to over-
top many of the upstream berms of those sloughs which
have not been increased in elevation for fishery mitiga-
tion.(In sloughs where the upstream berm elevation
will be increased,the sloughs will be maintained on a
5-year rotating schedule.)If,during filling,the
flood vol ume storage criteria are exceeded,Watana fl ows
will be increased as high as 30,000 cfs (Section
4.1.2(b)[iiJ).During project operation,once the
Watana reservoir is filled to the normal maximum operat-
ing 1 ev el,out flow will be inc reased to equal in flow up
to the operating capacity of the release facilities.
From the weekly reservoir simulations,flushing flows of
20,000 cfs will occur once every seven years on the
average with "Watana only."When Devil Canyon comes on
line there is a 50 percent chance annually that a flush-
ing flow of at least 20,000 cfs will occur.As energy
demand inc reases,fl ushing flows of 20,000 c fs wi 11
occur about once every five years.
G-2-036 E-2-39/3
Mi n imum flows for the wi nter peri od shoul d be estab 1 i shed ac-
cording to fi shery resource requi rements.Thi sis a c ri ti cal
period for the popul ations of overwintering fi sh and even
minor dewatering may have significant del eterious effects.
We agree with the importance of ensuring adequate flows
for fisheries in the mainstream during the winter
months.Adequate main stem flows are most cri tical dur-
ing thi s period when cl imatic conditions are harsh and
the mainstem is being utilized for overwinter rearing.
Hence,during Watana reservoir filling,instream flows
will be maintained at natural level s for the period
November through April.Chapter 2,Section 4.1.2 has
been modified accordingly.
G-2-037 E-2-39/5 &E-2-40
There needs to be an analysis of longer fi 11 ing periods and
associated consequences.The short filling period evaluated
(3 years)may produce unacceptable consequences to fisheries
resources.ftn extended schedule for filling may provide for a
G-2-038
higher and more preferable mitigation option for fisheries
throug h the 3-year schedu1 e.
By maintaining the proposed 3-year filling period,ad-
verse temperature impacts can be avoided.With the pre-
sent design the~e is,at most,one year of impact (refer
to Chapter 2,Section 4.1.2[e][iJ).With an extended
filling regime,downstream flows would continue to be
discharged through the low-level outlet for a longer
period.Alternative options will continue to be invest-
igated.
E-2-42/5
The potential negative impacts to slough areas downstream from
Talkeetna resulting from decreasing the recurrence interval s
of what are now mean annual bankfull floods is not addressed.
Insufficient information exists to predict the negative
impacts to slough areas downstream from Talkeetna re-
su1 ting from decreasing the recurrence interval of what
are now mean annual bankfull floods.
.-..
-
......
G-2-039 E-2-43/2-5
The timing and the consequences of the thermal regimes created
within the reserv oi r during fi 11 ing to down stream water temp-
eratures must be better defined.
After the initial summer of filling,the Watana reser-
voir will necessarily cool to 4°C.From this point un-
til water can be passed throug h the re1 ease fac il iti es,
the Watana outlet temperature will be 4°C.This is be-
cause the out1 et .wi 11 be approximately 400 feet below
the water surface at the end of the fi rst summer of
filling,and there is no mechanism for any significant
heat tran sfer to the water at thi s depth I The vol ume of
water stored in the reservoir after October of the first
summer of filling will be about 2.2 million acre-feet.
From November through April ,500,000 acre-feet of 4°C
water will be evacuated from the reservoir and be re-
p1 aced by O°C water whic h was contributed as in flow dur-
ing this time.The O°C water,because it is less dense
than 4°C water,w·ill tend to float on top of the 4°C
water.Althoug h t here will be some mixing of DoC and
4°C water,this w·ill be confined to the upper layers.
Even with cooling before the ice cover forms,only in-
significant cooling will occur at a depth of 175 feet.
It is the 500,000 acre-feet stored below this depth
which will be discharged during winter.
In spring the ice on the reservoir surface will mel t and
the reservoir will warm to 4°C,probably by about the
end of May.Then the surface will continue to warm
above 4°C and slowly this warmer water will penetrate
more deeply.Also,warm Susitna River water will be
contributed to the reservoir.Although there will be
some mixing,the warmer surface water,because it is
less dense,will float on the denser 4°C water.Through
mid-September,approximately 1.8 mill ion acre-feet of
4°C bottom water would be released from the reservoir if
the low-level outlet was continuously used.This would
still leave a reserve of 4°C water.However,it is an-
ticipated that sometime in late July or August the re-
servoir will be sufficiently full to allow discharge
through the release facil ity.
G-2-040 E-2-43/5
The water temperatures
fined more accurately.
should be identified.
downstream from Watana need to be de-
The cause of these low temperatures
Using the 4°C outl et temperature as a boundary condi-
tion,the downstream water temperatures have been mod-
eled for the first winter of f"illing and the second
spring through August (using both mean-monthly flows and
low-monthly flows,and assuming release facilities are
not operational).In the second winter of filling,the
release facilities will be operating and water close to
aoc wi 11 be drwn from the surface and rel eased.In the
event a low flow year occurs during filling and the
water level is not high enough for the release facili-
ties to be operational,the resultant temperatures for a
reduced discharge of 6000 cfs were examined.The re-
sulting temperature profiles from this discharge and
selected filling discharges are illustrated.
G-2-041 E-2-44/4
What are the predicted depths at which photoshynthesis will
occur and how will the quality of water discharged downstream
compare with the pre-project conditions with regard to photo-
synthetic processes?Data or discussion regarding this ques-
tion should be presented.
Vertical illumination in the reservoir is 1 imited byab-
sorption and scattering of 1 ight by suspended particu-
late matter.Data from glacially fed Eklutna Lake re-
veal a close carrel ation between the rate of decay of
illumination with depth and surface turbidity levels,
which will vary seasonally (R&M Consultants 1983).Qui-
escen t settl ing of part i cul ate matter in wi nter allows
relatively low turbidities in early summer and a corres-
ponding maximum depth of vertical illumination.If the
depth of the euphotic zone is taken as the depth of pen-
etration of 1 percent of illumination available at the
surface,photosynthetic activity in the reservoir may
~-,"'~""-'"~"-'~~~-.,-.~~.~-.'.~..'"-~----~~~~
--
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extend from the surface to as much as 17 meters depth.
Suspended sediment introduced by summer streamfl ow wi 11
quickly increase-surfa,c:e turbidity levels and reduce the
depth of the eupnotk zone accordingly.Mi d to 1 ate
summer euphotic zone depths may be as low as 2 meters.
W·ith reduced surface turbidities "in the fall,an in-
crease in vertical illumination is expected.However,
during the breakdown of density stratification in the
fall,turbulent mixing of turbid strata in the water
col umnwi 11 increase turbidities once again,red'uc ing
illumin;ationsomewhat until inverse temperature strati-
fication and ice cover formation oc·cur.
The nature and concentration of suspended sediment in
HIe powerhouse intake will control turbidity and verti-
.cal illumination in the rliver downstream between Watana
and Talkeetna.Tbe ,reduction in summer turbidity levels
fromp1re-projectconditions will cause an increase in
vertical illumination and hence photosynthesis.In fall
and wi n'ter ,relative post-project increases "in down-
stream turbidities will reduce illumination intensity,
although 1 percent light penetration depths are likely
to be greater than 2.4 meters in open water areas with a
gradual increa'se in light penetration through the win-
ter.
G-2-042 E-2-45/3
The method used to estimate the 30-50 NTU val ues should be de-
fined and better described,.The reasons why winter turbidity
levels are neither quanttfiable nor subject to estimation
should be clarified.
Data gathered from 0utsidesources,and analysis of sed-
iment concentration/turbidity data from 'the Susitna
River,indicate that Watana reserv oi r turb id ity 1 evel s
will be in the rang e of 10-50 NTU.Th is rang e ha s been
determined from the regression equation developed be-
tween turb id ity and suspended sed iment concentrati on
using existing USGS data for the Susitna River.
To estab 1i sh seasonal trends in turb idity at the reser-
voir outlet,information on inflowing sediment concen-
trations,settling characteristics of fine sediments,
and water travel time through the reservoir were com-
piled.
Sediment inflow is at a peak in mid-summer with concen-
trations as high as 1000 mg/l.Data from the USGS shows
that approximately 20 percent of this sediment is in the
4 micron or finer size range.Using the turbidity-
suspended sediment regression 1 ine,200 mg/l of sediment
concentration corresponds to 30-40 NTU.
Travel time of summer inflow in the live storage zone is
approximately 150 days.Given the settl ing character-
istics of glacial sediment,particles larger than 4 mi-
crons will settle out of the active zone before reaching
the reservoir outl et.Therefore,shortly after ice
cover formation,expected turbidity in the surface lay-
ers would be on the order of 40 NTU.
The rate of settlement under ice will be accel erated due
to reduced wind-induced and thermal currents that tend
to keep sediment in suspension.We have assumed that
once an ice cover forms,sediment less than 2 microns
will settle out from the active zone.The 2 micron size
constitutes an average of 12 percent of the total incom-
ing sediment.During the summer months this is equiva-
lent to approximately 120 mg/l which corresponds,in
turn,to 20 NTU.Sediment inflow drops off in the fall
as contribution from the basin glaciers decl ines:The
average sediment input is 300 mg/l with approximately 36
mg/l in the 2 micron and finer range.This corresponds
to approximately 7 NTU.
Based on this analysis of seasonal trends,it appears
1 ikely that winter turbidity val ues at the outl et after
formation of an ice cover on the reservoir will be in
the 10-20 IHU range,summer values will be in the 20-50
NTU range,and maximum expected values at freezeup would
be 40-50 NTU.Again,it shoul d be stated that these
values are based on the turbidity-suspended sed"iment
concentration relationship developed from the existing
USGS data for the Susitna River.Also,the analysis
assumes that water will move through the reservoir as a
pl ug with no accounting for significant 1 ateral or lon-
gitudinal mixing.
Turbidity data collected in Ekl utna Lake in summer of
1982 consistently indicated that maximum turbidity lev-
el s were 30-50 NTU at Station 11,a point 5 mil es down
the lake from its inlet.Surface turbidity values were
in the 20-40 IHU range.
Turbidity values at Eklutna Lake become more uniform as
the fall overturn period caused convection currents.
This was observed in mid-October 1982 with near-uniform
turbidity values of 30-35 NTUs.By November 4,1983,
turbidities had decreased to 25-30 NTUs,with no ice
cover on the lake.Turbidity values in mid-January
showed a sl ightly decreasing trend with depth at two
sites,with values near 20 NTU at the surface.
Additional information on the sampling data at Eklutna
Lake is included in Chapter 2,Section 4.1.3(c)(iii),
and in the report Glacial Lakes Studies -Interim Re-
port,R&M 1982.
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G-2-043 E-2-47/6
The section regarding impacts to slough habitats is not ade-
quately presented.Basically,the rel ationshi p of mainstem
discharge to slough discharge should be illustrated graph-
ically.The response of the ground water-wells to changes in
the mainstem at the various locations (for those wells that
were not silted in)should be plotted;a gradient profile of
the ground water,rather than just the thalweg of the slough,
shoul d be ill ustrated;and a map of the locations of upwell ing
in the sloughs should be presented.The text as written does
not present data and·many spec ul ativ e comments are prov ided
without appropriate qualifications.
The section describing the impacts on slough habitats
during fi 11 ing ha.s been expanded.Once the heads of the
sloughs are overtopped there is a unique relationship
between the mainstem discharge and slough discharge be-
cause mainstemdischarge dOOlinates the contributions
from the ground water and local surface runoff.This
information has been collected by the Alaska Department
of Fish and Game and will be available in the supple-
mental June 30,1983 report.However,when the heads of
the sloughs are not overtopped there is not a unique re-
1ati onshi p between mainstem di sc harge and sl oug h di s-
c ha rg e.
The response of ground water wells to changes in the
mainstem discharge has been presented in Chapter 2,Sec-
t ion 2.4.4.Groun d wa te r con tour s have also been pre-
sented.The 1 ocati ons of upwell ing in the sl oug hs is
not avail abl e.Further in fonnation can be found in the
report on Ground Water Studies (Acres 1983).
G-2-044 E-2-49/2
The statements suggesting that there will be no changes in the
temperature of upwelling ground water and consequently,no im-
pacts to incubating salmon eggs are not supported by data or
citation.The reduction of flows through these sloughs is not
quantitatively defined and could easily be major as well as
minor.The loss of scouring flows that remove sediment in
these sloughs as well as beaver dams and removal of spring ice
buildups could easily cause a senesence process to begin which
may ultimately destroy the sloughs,are not addressed.
Support for these statements is found in Cha pter 2,Sec-
tion 4.1.3(c)(i)~The upwelling temperatures reflect
the long term averag e water temperature of the Susi tna
River.Since this averge temperature is not expectd to
change significantly,the upwell ing temperatures should
remain the same (Acres 1983).
G-2-045 E-49/4-5
There are no c itati ons,references or data to support these
statements.
This section has been revised.
G-2-046 E-2-50/1
There is no reference to the commercial boat launch at Sun-
shine located immediately below the Parks Highway bridge on
the east bank,nor is there acknowledgement of the boat launch
at the Talkeetna Village airstrip which is becoming more
heavily used due to bank degradation and channel erosion at
the "new"Talkeetna boat landing.If the mainstream of the
Chulitna River moves west from its present position as defined'
in the Draft Exhibit E (E-2-42/4),access to the Chul itna
River and Susitna River north of Talkeetna River confluence
could be considerably more difficult than at present.The
source of the data,analysi s or other documentation to support
the comment that minor restriction on upstream access to
Al exander Slough may occur during years of low stream flow
needs to be provided.
The commercial boat launch at Sunshine located immedi-
ately below the Parks Highway bridge on the east bank is
located on a constricted segment of the river.This
site was not specifically investigated as water depths
immediately offshore are sufficiently deep for launching
even at existing low flows.
There is no boat ramp at the end of the Tal keetna ai r-
strip.However,the river bank is low in that area,and
some people do 1 aunch boats by backing down the river
bank.This site has rel atively deep water.
The data available and presented in A Preliminary Analy-
sis of Potential Navigation Problems Downstream of the
Pro osed Hydroelectric Dams on the Susitna River,
A as a Department 0 Natura Resources,1982 was suf-
ficient to define the flow at Susitna Station required
to keep upstream access to Al exander Sl oug h open.How-
ever,discussions with Paul Gabbert,owner and operator
of Gabbert's Fi sh Camp in Al exander Creek,indicated
that there are access problems throug h that route every
year at low flow (Gabbert,October 1982).Furthermore,
the channel morphology changes every year due to hig'h
flows ,maki ng se 1ecti on of a flow requi red to keep ac-
cess open highly variable.
G-2-047 E-2-51/1
Down stream flow requi rements have not yet been det.ermined or
ag reed upon.
We acknowledge that downstream flow'requ'i rementshave'
not been agreed upoo.
r'--'·
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G-2-048 E-2-51/2
The criteria used to develop the 5000 cfs mlnlmum flow as well
as any of the other IItarget li flows should be presented.There
must be some documentation of the rationale,review or selec-
tion process by which these IItarget flows"weredevel oped and
justified.
The 5000 cfs minimum flow from October through April
represents the approximate average flow that would be
available for this period if a flow as low as the
droug ht of WY 1969 were to occur •Under normal ci rcum-
stances flow would be much greater than the 5000 cfs
minimum.However,there is only a finite storage volume
available in the reservoir and without use of the low
level outlet it would not be possible to provide more
than 5000 cfs,during a severe drought such as occurred
in WY 1969.Once power generation commences it is
expected that a different fishery regime will establish
itself.Therefore,if a power outage were to occur,
rather than provide natural flows of 1000 to 2000 cfs
which could be detrimental,it was determined that pro-
viding flows of 5000 cfs,during the power outage,
would be preferable.
G-2-049 E-2-52/1
Optimally operated reservoir scenarios should be examined for
other target flows downstream using the new synthesized flows.
Optimally operated reserv oir scenarios have been
examined for other target flows downstream.This is
discussed in Chapter 2,Section 3.2 through 3.8.
G-2-050 E-2-52/3
A scenario wherein Devil Canyon is not constructed in the pro-
jected time frame shoul d be presented.
If Devil Canyon Dam is not constructed in the projected
time frame,Watana will continue to operate as dis-
cussed in Chapter 2,Section 4.1.3(a).
G-2-051 £-2-56/2
A detailed discussion on ice processes should be presented.
An eKpanded discussion on ice processes is presented in
Chapter 1,Sectiun 2.1.2.
G-2-052 £-2-5715
To evaluate the effectiveness of the multiple level intake
structures,their-efhc iency at removal of a 1 ayer of water at
a particul ardepth must be analyzed hydraulically.The veloc-
tty at the {lort ~of the intaKe structure must be low -e-noug h to
prevent iJpwell ing cat the face of the dam.This i sa :common
occurrence that effectiv-ely ~]imtnates the functionality of
these "types of structlJres •
These comments will be considered during the develollTIent
of further design studies.
G-2-053 E-2-58/1
The strata modelled for the reservoirs during the winter under
alternative operational scenarios must be presented.The
abil ity of the structures to control temperature during the
winter needs further documentation.
An expanded discussion of the winter reservoir modeling
is presented in Chapter 2,Section 4.1.3[c][i]).
G-2-054 E-2-59/2
The process by which stag ing el ev ations were estimated shoul d
be documented.Under pre-project conditions with lesser
flows,staging is often much higher than these levels.Local
flooding in November reportedly affects the town of Talkeetna.
Staging evaluations were computed through the use of an
ice model.This is further discussed in Chapter 2,Sec-
tion 4.1.3(c)(ii).For a discussion of local flooding
in November at Talkeetna refer to response to comment
G-2-011.
G-2-055 E-2-61/1
There should be an explanation why turbidity in the top 100
feet of the reservoir is the main interest.
Sediment near the surface would have the most impact in
scattering or absorbing radiation,thus having the most
significant impact on the depth of the photosynthetic
zone in the reservoir.The 100 foot designation for
turbidity was somewhat arbitrarily assigned to reflect
this.In fact,turbidity at greater depths is import-
ant,depending on where water is being withdrawn from
the reservoir.The statement on the top 100 feet of the
reservoir being of primary interest has been modified in
Chapter 2,Section 4.1.3(c)(iv).
G-2-056 E-2-63/5
Other potential sources of wastewater need to be 1 isted.
The discussion provided in Chapter 2,Section 4.1.3(c)
(v)refers to dissolved oxygen levels.It is antici-
pated that human wastes generated by the residents of
the town,recreational visitors to the area,and the
inhabitants of new camps that may be developed in the
project area will be the primary sources of oxygen
demanding wastewater in the proj ect area.Thi sin forma-
tion is referenced in Chapter 2,Section 4.1.3 (c)(v).
G-2-057 E-2-64/3
We recognize that this section refers to the operation phases;
however,there is no explanation how the valves will be oper-
.-
.-
,~
~,
ated during the initial fill ing and startup procedure.M
explanation of the thermal effects of using these valves is
also needed,since the valves will facilitate discharge of
waters from the hypolimnion.
The operation of fixed-cone valves during initial fill-
ing and during startup has been incorporated in Section
4.1.2(c).
The release facil ities will be drawing water from be-
tween El 2025 and El 2085.Thi s corresponds to an aver-
age depth of 135 feet when the reservoir water surface
is at El 2190.Since flow releases occur only after the
reservoir is full and since this occurs in August or
September,then,if it is assumed that the calculated
temperature profiles are appropriate and water is draw-
ingun i formly over the·intake,the water temperature
will be about 8°C.Hence,through the Watana release
fac il ities most water wi 11 be withdrawn from the Watana
epil imnion.
G-2-058 E-2-66/1-3
Data to support this presentation should be provided.
Support data has been incl uded in Chapter 2,Section
4.1.3(d)(i i).
G-2-059 E-2-66/5-6
We disagree that navigation and .transportation will not be
si gnificantl y impacted.These are somewhat contrad ic tory to
the statements in E-2-66/5-6.Information to substantiate
this conclusion should be presented.
In·the continuation of paragraph 6 on the next page it is
stated that E-27/2 refers to the winter season and the fact
that winter travel by snownachine and dog sled will be im-
peded.
Navigation and transportation impacts in the Watana to
Talkeetna reach have been quantified and expanded in
Chapter 2,Section 4.1.3(f)(ii).The seemingly contra-
dictory statements have been modified in Chapter 2,
Section 4.1.3(f)(ii)to reflect the intended meaning.
.During winter,after a solid ice cover forms,travel
across the reservoir will be possible by dogsled and
snow machine.However,thi s use wi 11 occur 1 ater in the
year than under natural condi ti ons.Down stream from
Watana,the river will remain open all winter through
Dev il Canyon..
G-2-060 E-27-67/1
Reduction of fl oating debri s will not benefit navigation sig-
nificantly,in our opinion.Low water flows are expected to
be the most significant hazard in the downstream reach.The
source or data to support statements in this paragraph should
be provided.
We concur that on the Susitna,low water could be poten-
tially more dangerous than floating debris because a
boat operator cannot necessarily see the river bottom.
Additional information can be found in Chapter 2,
Section 4.1.3(f)(ii).
G-2-061 E-2-60/2
This paragraph confl icts with Page E-3-137,second paragraph,
wherein it states the dam construction will adversely impact
temperature from a fisheries perspective.
We disagree that thi s paragraph confl icts with page
E-3-137.There will be no detectable difference in
water temperature at Devil Canyon or points downstream
resulting from construc ti on of Devil Canyon.Tempera-
tures wi 11 be the same as during the operation of
Watana.The paragraph on Page E-3-137 discusses filling
of Devil Canyon reservoir.Here,there will be temper-
ature differences.
G-2-062 E-2-70/3
See earlier review comments for E-34/5 concerning the analysis
needed to determine the water quality hazard from the dis-
charge of concrete wastewater.
Refer to Chapter 2,Sections 4.2.1(c)(vi)and
4.1.1(c)(vi)for discussions on concrete wastewater,its
treatment and potential impacts.A wastewater control
contingency pl an wi 11 be developed in compl iance wi th
state and federal regulations as discussed in Chapter 2,
Section 6.2
G-2-063 E-2-76/4
Documentation of the statement that,liAs Devil Canyon reser-
voir is filled,additional fishery habitat will become avail-
able in the reservoir"should be provided.
A discussion on the additional fishery habitat that will
become available in the reservoir is provided in Chapter
3,Sections 2.3.2(c)(i).
G-2-064 E-2-87/1
Accurate discharge information on the creeks is needed to in-
sure proper culvert sizing and fish passage.This information
is needed to insure proper mitigation of potential impacts.
See response to comment G-2-020.
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G-2-065 E-2-90/2
The minimum flow to maintain fi sheries should be refined be-
cause 12,000 cfs may not be adequate.
A discussion on the minimum flow to maintain fisheries
is presented in Chapter 2,Sections 3.4 and 3.6.It is
our opinion that the fisheries impacts associated with
a flow of 12,000 cfs are mitigatable and thus the loss
in net benefits associated with higher flows is not
warranted.
G-2-066 E-2-90/3
The seasonal timing of the construction has not been add-
ressed.This is an important factor in address"ing fish and
wildlife impacts.
The seasonal timing of construction is illustrated in
Exhibit C.The impacts on fish and wildlife can be
found in Chapter 3.
G-2-067 [-2-91/2
Twelve thousand cfs for a flow at Gold Creek will not afford
adequate access to 50 percent of available sloug'hSpawning
habitat.A higher flow is required to mainta"in adequate ac-
cess.This flow must be determined by an analytical process.
Al so,other 1 ife phases of fish in the downstream reaches be-
low Devil Canyon are not addressed.All of the statements re-
garding the effects of 12,000 cfs flows are purely speculative
and are not supported by data or measurements yet avail able.
Th~release of water through the valves may present downstream
thermal problems by releasing cold water in mid-summer.
.....
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We have seen no data to confi rm the ADF&G statement that
12,000 cfs will not afford adequate access to 50 percent
of available slough spawning habitat.However,we are
confident that with a relatively stable 12,000 cfs and
incorporation of the mitigation measures discussed in
Chapter 3,access will be provided to the sloughs.As
discussed in Chapter 3,Sections 2.3.1(a)(ii)and
2.4.4(a)(i),the analysis did consider other life
phases.The thermal impact of a rel ease through the
final cone valves in mid summer during filling is dis-
cussed 'in Chapter 2,Sections 4.1.3(c)(i)and
4.2.3(c)(i).
G-2-068 E-2-91/4
'Changes in downstream river morphology have not been fully
assessed.To state that no mitigation is necessary to main-
tain slough habitats is premature.The lack of ice scour and
flood fl owsmay cause an aggradation of sediment in sloughs
and may reduce natural cl eaning processes necessary to main-
tain productive spaWning substrate and rearing areas.
As discussed in the fishery mitigation section in Chap-
ter 3,sloughs that will be adjacent to ice-covered sec-
tions of the main stem and berms constructed at their up-
stream ends will be maintained on a five-year,rotating
basi s.At sloughs located upstream from the ice front,
excess flow will be rel eased from the damsites during
the wet years;this will provide flushing flows.Refer
to Chapter 3,Sections 4.1.3(a)and 4.2.3(a).
G-2-069 E-2-91/5 Line 8
Mitigation should be required and should be borne by the proj-
ec t dev eloper as a standard proj ec t cost.
Methods of mitigating the potential thermal effects an-
tic i pated during the second year of fi 11 ing wi 11 con-
tinue to be investigated during the detailed design pro-
cess.One potential mitigation is a shorter filling
reg ime.Thi s woul d enabl e a flow rel ease throug h the
outlet facilities early in the second summer of filling.
G-2-070 E-2-92/1
Data to support statements in this paragraph should be pro-
vi ded.
We are uncertain as to the parag raph referred to.If it
is in regard to the minimum downstream flow selection,
thi sis discussed in Sections 3.2 to 3.7.If the com-
ment refers to the operation of Watana as primarily a
baseloaded plant,this is discussed in Section 4.1.3(a).
G-2-071 E-2-92/3
Thermal control by withdrawing water close to the surface can
result in vortices causing air entrainment and supersaturation
which is detrimental to fisheries.This subject should be ad-
dressed with supporting analysis to ensure that surface with-
drawal of water can occur without detrimental impacts to fish-
eries.
There are as many engineering reasons as there are envi-
ronmental reasons for avoiding vortices that cause air
entrainment.This subject will be deal t with during de-
ta il ed desi gn.
G-2-072 E-2-92/4
The report cited did not demonstrate supersaturati on because
of faulty analytical techniques.The sample of water was not
pressurized before gas chromatographic analysis as is required
by standard methods.Therefore,any supersaturation would
have probably di ssi patedbefore the sampl e was an alyzed.The
study did show,however,that the thermal conditions will not
be affected by the valve and that the temperature downstream
will essentially be the same as the temperature at the with-
drawal layer in the dam.
,...
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i,
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I
The accuracy of these results is being investigated.
G-2-073 Tables
E-2-1 through E-2-20
References to data sources for tabular material should be made
where they are missing.
Re ferences to data sources fo r tabul ar materi al have
been made where appropriate.
G-2-074 Figures
E-2-1 through E-2-39
Reference to data sources for figures should be made where
they are missing.
References to data sources for figures have been incor-
porated where appropriate.
SUSITNA HYDROELECTRIC PROJECT,DRAFT EXHIBIT E
FISH,WILDLIFE AND BOTANICAL RESOURCES
DEPARTMENT OF FISH AND GAME
GENERAL COMMENTS -FISH
Comment 1
This report lacks sufficient data to support most of the statements on
project impacts,whether adverse or beneficial.It does not reference
or use the literature or experience obtained from other hydro projects.
Many of the statements regarding populations of fishes do not adequate-
ly reflect consideration of the instream flow requirements necessary to
sustain those populations.It does not separate opinion from state-
ments supported by correlative data regarding responses of the fishery
to ri ver regu 1at ion and impoundment.It al so does not refer to or cite
in the text the economic consequences of the flow regime presented.
The document does not provide information relative to Alaska or other
locations as to the success or failure of proposed mitigation measures.
In short,the data base presented is i nsuffici ent to support most
statements of impacts or the quantitative effects that the project will
have on downstream fisheries.
Additional difficulties in reading the report are encountered due to
lack of literature references,processes by which conclusions or
assumptions were developed,and an absence of lists of technical docu-
ments and their locations.Sources of tabular or figure material often
are not cited.In general,mistakes are common,many errors are ap-
parent,and the report is neither well organized nor edited.
Response
Most of these general comments are presented in a more detailed
and constructive manner under the heading of specific comments.
Deta il ed responses to the s pecifi c comments have been prepared.
In the finalization of Exhibit E these comments have been taken
into account,to the extent possible.
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DEPARTMENT OF FISH AND GAME
GENERAL COMMENTS -WILDLIFE AND BOTANICAL RESOURCES
Comment 1
There are numerous typographical errors,incomplete sentences,and in-
consistent or contradictory statements.The format is frequently
violated with impacts of one project feature incorporated into the dis-
cussion under the heading of another feature.Terminology is at times
inconsistent or vague.The level of detail varies greatly from one
subsection to another with "minor"impacts often treated more compre-
hensively than "major"impacts.There are numerous examples of incom-
pletely thought out ideas,some of which will not stand up to close
scrutiny.These are all indications that the terrestrial portions of
Draft Exhibit E,especially the impact sections,were written too
quickly before information was organized and had received very little
proofing.The draft is in such poor shape that a meaningful,detailed
review is very difficult if not impossible.However,some major prob-
lem areas that require extensive modification of the impact and mitiga-
tion sections can be identified and specific examples of types of defi-
ciencies can be cited •
Response
The text of Exhibit E was circulated for review in draft
form.Si nce that time,substantial revi s ions have been made
to content and format.Your constructive criticism is appre-
ciated,and we are confident that the final text will repre-
sent a major improvement over the draft.
Comment 2
Quantification of impacts:Magnitude of impacts are rarely indicated
except in terms such as "minimal"or "moderate."Even those terms are
rarely supported by a rationale.Most judgments of the significance of
impacts appear to be subjective.While studies are incomplete,and
some data (such as available vegetation maps)are of marginal value,it
should be possible to place outer 1 imits on many impacts,at least
indicating the order of magnitude.Indication of the general propor-
tion of a population1s range subjected to a particular impact would be
useful as a crude i nd i cator of magn i tude that coul d be refi ned at a
later date.As written,the reader does not know if a species will
lose 10 percent or 90 percent of its habitat.
Response
The text has been rewritten to incorporate available data.
Where quantification is reasonable and available,such data
have been provided.Where possible,we have provided a de-
fensible analysis of anticipated impacts.Habitat is,for
most species,a nebulous and poorly-defined term.We have
indicated the importance of identified vegetation types to
each species as i ndi cated in ADF&G Phase 1 Reports and the
literature,and we have provided data on areal extent of var-
ious vegetation types lost and proportions of basin totals
these represent.
Comment 3
Impacts based on current populations:Current populations are almost
always used as the basis for impact assessment.Impacts are judged
under current management plans and management strategies.This
approach is not adequate for assessing many of the impacts of the
Susitna Hydroelectric Project.Impacts should be assessed in terms of
the range of population levels that could reasonably be expected to
occur during the life of the impact.Current populations might be ade-
quate for short-term impacts,as the population would not change great-
ly during that period.However for long-tenn impacts,such as those
resulting from inundation of habitat,a full range of population levels
that could be supported by the habitat (carrying capacity)and the
range of management objectives that could be supported by those popula-
tion levels should be presented.
It should be recognized that carrying capacity as well as population
levels may vary over time.Consequently,likely changes in carrying
capacity during the life of an impact should be considered.Any action
that maintains carrying capacity at a generally higher or lower level
than expected in the absence of the project woul d have a posi ti ve or
negative impact respectively.
Carrying capacity cannot always be measured.Where current populations
are near carrying capacity,they are an appropriate measure even for
long-term impacts.Where current populations are believed to be below
carrying capacity,some estimate of carrying capacity is required.In
some cases,historical population data may suffice.In other cases,
measures of habitat quality may be used as direct or indirect indica-
tors of carrying capacity.
There are numerous examples where the Draft Exhibit E completely
ignores these concepts.Prime examples are caribou and wolf.Both
populations are currently at levels below carrying capacity,caribou
because of current management goals and wolves because of high harvest,
much of which is illegal.Exhibit E concludes that project impacts
would be minimal under current harvest levels and avoids discussing
impacts that would occur if these goals and actions were altered and
the populations were allowed to increase.Wildlife populations,user
demand,and management goals have changed dramatically over the last 50
years and can be expected to continue to change over the life of the
Susitna project.For example,increased hunter demand is 1 ikely to
result in an upward adjustment of the caribou population and harvest
goals,perhaps even before construction begins.If the Susitna project
precludes attainment of goals that could have been attained without the
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,...
project,there will be a negative impact that has not been adequately
addressed by the Draft Exhibit E.
Response
The impacts sections have been 1 argely rewritten to address
these problems.We agree that carrying capacity cannot al-
ways be measured.Its ut il ity as a management tool or for as-
sessing impacts is therefore questionable in those cases.
Species'priorities and conflicts between species·management
strategies indicate that carrying capacity is seldom used by
the ADF&G in managing harvest levels'of most species --
wolves,bears and wolverine in particular.Where carrying
capacity data are not available in ADF&G Phase I reports
which are the basis of this docum~nt,it is obviously imposs-
ible to assess the magnitude of attenuation of potential
management goals.
Comment 4
Fa i 1 ure to di scuss cumu1 at ive impacts:Imp'acts are usua 11y di scussed
one at a time,with little discussion of the potential cumulative
effects on the population.Often each impact is sufficiently isolated
that its effect on the population is judged "minimal."However the
cumulative effect of all habitat alteration and all mortality factors
may significantly affect the popu1ation 's abil ity to sustain major
impacts such as habitat loss.For example,inundation of moose winter
range may reduce carrying capacity,increasing the impact of severe
winters on the population.Project induced mortality could slow or
even prevent recovery duri ng subsequent years of mi 1 der wi nters.At
the very least,there would be an impact on the amount of hunter use
the population could sustain •
Response
Cumulative impacts are discussed in the revised Impacts Sum-
mary,Section 4.3.5,where appropriate.When quantitative
data are not avail able,no assessment of the magnitude of
cumu 1ati ve impacts is poss"ib1 e•
Comment 5
Ranking of impacts:When impacts are ranked,the most significant
impact listed is often one that is easily mitigated.For example,
increased hunter harvest resulting from improved access is often
suggested to overwhelm all other impacts.In such cases,the discus-
sion of other impacts is often cursory.However,hunting can be regu-
1atedand it is certain that the Board of Game will take measures to
minimize adverse effects of hunting on wildilfe populations,usually
shifting the impact to the users.This treatment is inconsistent with
that of other easily mitigated impacts such as borrow pits where the
impact after rectification (revegetation)is discussed.
By suggesting that the greatest impact will be unregulated hunting,a
distorted view of total impacts is created.Less easily mitigated
impacts such as loss of critical foods tend to be obscured and are
discussed only superficially.
Response
Some populations,which ADF&G has apparently given low man-
agement priority,may not be sufficiently protected from the
adverse effects of hunting.We find this comment somewhat
i nconsi stent with others emphas i zi ng our poor treatment of
the impact of reduced sustainable yield.However,we have
rewri tten impacts assessment sections to cl ari fy our concerns
for all severe impacts and to reevaluate our assessment of
increased mortality from hunting for those high-profile spe-
cies for which hunted take may be adequately regulated.Im-
pacts were never ranked according to ease of mitigation.
Comment 6
Incomplete and inconsistent treatment of impacts of improved access:
Some of the greatest and ,ongest term impacts of the Su sitna project
will be secondary effects of improved access and attraction of people
to the area.This will likely precipitate development and increased
recreational use of the area that might not occur for decades without
the project.Impacts of improved access through hunting,including
direct mortality,disturbance,and ORV use,are discussed repeatedly,
often to the exclusion of less controllable impacts.But impacts of
improved access through individuals other than the hunters are almost
completely ignored.This is inconsistent and ignores a significant
source of impacts.
Response
Secondary deve10p11ent is an indirect impact which cannot be
predicted or controll ed by the Al aska Power Authority (see
Section 4.3 paragraph 1).and it is excluded from this dis-
cussion.Impacts to wil dl ife popul ations by recreational
users other than hunters are nearly always of minor signifi-
cance relative to hunting.In specific instances,where sen-
sitive wildlife areas may be affected,this impact is
thoroughly treated.
Comment 7
Inadequate treatment of habitat alteration:Habitat alteration is con-
sistently treated superficially.As noted above,this is sometimes
done through failure to even roughly quantify the impact or consider
cumulative effects.There are other examples where alteration is dis-
missed without adequate rational e.The most serious example is down-
stream impacts to moose habitat.
=-1
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It is conc1 uded that habitat may be enhanced between Devil Ca nyon and
Talkeetna during the license period.However it fails to consider that
areas of current early successional stages may become mature more
rapidly than new areas will become vegetated,resulting in an immediate
loss of habitat quality.
Changes in frequency of flooding are dismissed because bank full floods
wi 11 st ill occur every 5 to 10 years.However thi s cou1 d reduce the
rate of cutting and filling to 20 percent of current levels with a
correspondi ng reduction in habitat created by that mechani sm.Effects
of peak floods and ice scouring below Talkeetna are dismissed even
thoug h changes in stage will exceed 4 feet in some areas.
This is an example where conclusions were presented without supporting
rationale.Close,scrutiny of the problem shows that the underlying
rationale was either faulty or that alternative conclusions are
possible.
The problems listed above,singly or in combination,work to systema-
tically minimize potential impacts that might require mitigation.This
appears to stem from a tendency to seek a rationale that nullifies the
need to fully discuss impacts.However,if an underlying assumption is
rejected (e.g.,downstream effects on moose habitat),the entire sec-
tion of the impact becomes inadequate.Virtually every section of the
wildl ife impact assessment suffers from at least one of the problems
listed.
Response
Downstream impacts on moose have been reassessed with the
provision of a scenario provided through consultation with
project hydrologists and engineers.We consider our analysis
defensible and our mitigation plan flexible enough to allow
modifications if the current predicted impacts are erroneous.
We have indicated when impacts are difficult to predict and
monitoring is necessary.
We have never intended to systemat ica11y de-emphas i ze i m-
pacts.Impacts are treated to the extent that available
information from ADF&G Phase 1 reports allows analysis.
Impacts are ranked according to 1)the magnitude of their ef-
fect on population levels,and 2)their ability to be pre-
dicted.We sincerely hope the revisions we have made clarify
our interest in adequately addressing the anticipated and
hypothes i zed impacts to wil d1 ife result i ng f rom this project.
Comment 8
Mitigation Plan:The wildlife mitigation plan is too incomplete to
warrant detailed comments.Measures to avoid,minimize,or reCtify
impacts are scattered.Some are included in the vegetation section,
but there is little indication of how effective these measures will be
for wildlife.It also is not clear which measures have been incorpora-
ted into the project design and which are merely recommendations from
environmental consultants.The mitigation plan should clearly indicate
how wildlife impacts are considered in the design of the project;what
measures will be taken to avoid,minimize,or rectify impacts;and how
effective these measures will be in mitigating losses.This is neces-
sary to demonstrate that the option analysis the Susitna Hydroelectric
Project Fish and Wildlife Mitigation Policy has been followed and so
that residual impacts can be estimated for compensation planning.
The inadequacies of the impact assessment are evident in the mitigation
plan.There is no mention of compensation for impacts to species other
than moose.It is suggested that mitigation measures for moose will
partially mitigate for losses to bears and wolves,but that will depend
on what acti~ns are taken and where.No mention of options for out-of-
kind compensation is made.
Response
The mitigation plan has been entirely rewritten.This docu-
ment is the description of project design;it is provided by
the Alaska Power Authority and is not composed of mere recom-
mendations for environmental consultants.Measures presented
herein are guaranteed incorporation into project design and
construction.
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CHAPTER 3,SECTION 2 -FISH
G-3-001 E-3-2/5:In this paragraph it is stated,"•••cr iteria for
assessing the relative importance of biological impact issues
have been provided by •••(2)comments and testimony by the
Alaska Department of Fish and Game (Skoog,1982;•••)".We
have reviewed the text of Skoog,1982 and,we do not believe
this statement can be construed as establishing "•••criteria
for assessing relative importance of biological impact
issues ...II The context of the comments by ADF&G were specific
to three alternative access plans,Numbers 13,16 and 17,and
provided qualitative assessment of impacts for each of those
plans.It was cle,arly noted in several areas of the letter
that ADF&G's assessment was subjective and qual itat ive.We
would 1 ike to state that the criteria by which project impacts
are judged should lead to a quantifiable determination of
impacts.These criteria for project access routes to our
knowledge have not been established.Programs which will
collect quantifiable information to ensure equal consideration
of fish and wildlife and their habitats and mitigation of
those impacts in access corridors have not been performed.
A reference to Commissioner Skoog's April 1982 testimony to
the APA Board of Directors would be appropriate.Also,refer-
ences to comments and testimony provided by Schneider (1979,
1982 a.b.c.)are not cited in the bibliography.
Response
The reference has been revi sed to correctly reference
Commissioner Skoog's testimony on April 11,1982,and
not the August 20,1982,1etter regardi ng the access
road.The Schneider references have been added to the
bibliography.
G-3-002 E-3-3/1:The ADF&G disagrees that its policy implies "•••that
project impacts on fish and game species will be of greater
concern than changes in the distribution and abundance of non-
game wil dl ife and invertebrate species."Fi rst,the terms
"fi sh and game"and "fi sh and wil dl He"are used i nterchange-
ably throughout our policy document,and secondly,the ADF&G's
greatest concern is fish and wildlife habitat and its ability
to maintain productive populations.As stated in ADF&G pol-
icy,liThe overall mitigative goal of the Department of Fish
and Game is to maintajn or establish an ecosystem with the
project in place that is as nearly desirable as the ecosystem
that would have been there in the absence of that project.II
We are primarily interested in maintaining the quality,quan-
tity and diversity of the habitat for fish and wildlife with
the project that is similar to that existing without the
proj ect.
Response
It is recognized that the goal of the various mitigation
policies is to maintain habitat that will allow the
entire ecosystem productivity to be maintained.It is,
nevertheless,true that ADF&G policy places priority
concern on certain species or groups of species.The
term "fish and game species"is incorrect and the con-
cept of eval uation species has been substituted.As
evidence of this prioritization,the ADF&G mitigation
policy document contains reference to AS 16.05.840,
which provides for free passage of fish.The draft
Habitat Regul ations (Edfelt 1981)define "fish"by pre-
senting a list of 17 species and species groups that
does not include all species of Alaskan fish.Two spe-
cies common in the Susitna Basin,sculpin and stickle-
back,are not included.There obviously has been a spe-
cies prioriti zation.Under AS 16.05.870,there are spe-
cial protections for anadromous fish streams.Again,
anadromous fish have been prioritized over resident
fish.In AS 16.20.185,endangered species are priori-
t i zed over nonendangered speci es.Whi 1e in theory all
species should be given equal consideration,in prac-
tice,available time and resources must be concentrated
on the most sensitive species.Sensitivity is often
defined as high human use value,ecological value or
sensitivity to impacts.By avoiding or minimizing
impacts to the habitat of these sensitive species (i .e.,
evaluation species),the habitat of many,or most,other
species can also be maintained.This evaluation species
concept has been used in Exhibit E.
G-3-003 E-3-3/2:The general tone of statements in this paragraph
indicates a process of rationalization rather than of a clear
sense of direction and logic.It is stated in this paragraph,
"Where there is a hi gh degree of confi dence that an impact
will actually occur,it has been ranked above impacts predic-
ted with less certainty."For this thesis to have any validi-
ty,one must also specify the vulnerability of the resource to
be evaluated.The same appl ies to assessing the process for
eval uating the probabil ity that an impact will occur.It is
equally important,if not more so,to specify the magnitude of
the impact that will occur.
Response
The statement has been revised to clarify the intended
meaning.
G-3-004 E-3-3/3-4:The priority sequence for ADF&G mitigation policy
is not only for mitigation option analysis in a planning sense
but also for mitigation option implementation.We have 5 po-
tential options for implementation as listed,and require an
assessment whi ch quantifies project impacts,and determi nes
the parameters under which the project must operate to
....
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implement each option.The highest priority mitigation option
which is feasible is the one which this Department will re-
quire for direct implementation.Quantifiable information
sufficient to determine whether an option is feasible must be
available to enable the ADF&G and others to select the appro-
priate mitigation option.As stated in the ADF&G mitigation
policy,liThe burden of proof to justify lower estimates of
damage to fish and wildlife habitat lies with the developer.II
Response
This comment does not conflict with the concepts discus-
sed in the referenced paragraphs and is in agreement
with Power Authority policy.
G-3-005 E-3-5/3:We suggest that management strategies will requi re
the concurrence of resource management boards and agencies.
Response
The Power Authority will be seeking such concurrence.
G-3-006 E-3-7/2:Chinook,pink,chum and coho salmon mill at the en-
trance to Devil Canyon.Chinook salmon spawn in Devil Canyon
in CheechakoCreek (RM 152.5)and Chinook Creek (RM 156.8).
The lower limit of Devil Canyon is defined as RM 152.It
wou1 d therefore be correct to state th at liThe Su s itna Ri ver is
a migrational corridor,spawning area and juvenile rearing
area for five species of salmon from its point of discharge
into Cook Inlet to upstream within Devil Canyon."
Response
The fact that chi nook,pi nk,chum and coho mi 11 at the
downstream entrance to Devil Canyon has been incorpor-
ated.A discussion of spawning chinook at Cheechako and
Chinook creeks is included in the baseline section.
G-3-007 E-3-S/1:Impacts to less sensitive species with similar habi-
tat requirements would be mitigated;however,species with a
lower eva1 uation priority may be highly sensitive to change
and may not be miti gated.For examp1 e,speci es that are adap-
ted to turbid waters may be adversely affected if a project
creates substantial decreases in turbidity.Burbot are an
example of a species which may be so affected.
Response
It is true that some sp'ecies w:Lth,cr:1iowen evaluation
priority may be more s::ems.:ftiwEt to dtange.In the
Susitna River,however"the"four P'acific salmon species
se1 ected as eva1 uat i on species (chum!,.,ch,i nook,coho,and
pink.)uti'l!i'ze almost all available habitats at some
point in their life cycle and are considered to be high-
ly sensitive to change.Mitigations that prove effec-
tive at reducing impacts to the various salmon life
stages should mitigate most impacts to the other spe-
ci es.
G-3-008 E-3-8/3:
(a)Ch i nook and coho do not have a greater commerci al value
than chums,although they do have a greater sport fishing
value.
(b)The proj ected change in conditions in the mai nstem are
not necessarily beneficial to rearing juveniles as suggested
in this paragraph.The conditions (parameters)referred to
should be identified.Further,mainstream habitat will not
necessarily be improved in winter months;higher turbidity is
an example.Juveniles are also consistently present in
sloughs.There are no data or literature cited to support the
last two statements in this paragraph.
Response
(a)The text has been revised.The discussion of
conrnerical val ue properly belongs in Chapter 5 and has
been removed from Chapter 3.
(b)Further discussion on how these conclusions were
derived is contained in Sections 3.2.1(b)(ii)and
3.2.1(c)(ii).
G-3-009 E-3-8/4:Arctic grayling also utilize mainstem habitats,not
only clearwater tributaries as implied.
Response
The text has been revised to remove the implication that
grayl i ng do not util i ze the mai nstem.Detail ed
discussions of grayling habitat utilization are included
in Section 2.2.1(b)(iii).
G-3-010 E-3-9/1 :
Talkeetna?
What are the resident evaluation
None are indicated in the listing.
species below
Rainbow and burbot should be included in the 1 ist of evalua-
tion species because of their importance to the sport fishery
and because of thei r abundance and adaptation to the turbid
conditions.There may be a particular sensitivity to possible
changes in the case of burbot.
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G-3-011
Response
The four species of salmon listed in the response to
questi on G-3-007 a re the eva 1uati on speci es downstream
from Devil Canyon.As previously discussed,these spe-
cies are considered more sensitive to change than other
species within the basin.Rainbow trout and burbot are
not considered to be more sensitive to the identified
habitat changes than the various sal monl ife stages;
thus,mitigation of impacts to all salmon life stages
should mitigate impacts to rainbow trout and burbot.
For example,rainbow trout primarily spawn,incubate and
rear in tributaries during the summer and overwinter in
the mainstem or lower portions of tributaries.A simi-
lar pattern is followed by chinook and coho salmon.The
available data to not indicate that significant impacts
to burbot are likely to occur.
E-3-10/3:Table E.3.3 does not reflect the 1.2 million figure
discussed in text.
Response
The table has been appropriately revised.
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G-3-012 E-3-10/4:Table E.3.4 reflects different figures than the
text with regard to chum salmon escapement.The chum salmon
escapement was 20,800 and 49,100 in 1981 and 1982,
respectively.
Response
There was a typographical error in the draft table.
This has been corrected.
G-3-013 E-3-11/1:Value (ex-vessel)on coho salmon is not presented.
Response
All commercial discussions now occur in Chapter 5.
G-3-014 E-3-11/5:If Mill s (1980)data are to be used to indicate
significance of recreational use,the 1981 information should
be included.
Response
The comparable data from 1978 through 1981 have been
incorporated.
G-3-015 E-3-12/1:The harvest figures reported here reflect primarily
Susitna River harvest.Additional harvest occurs on some of
the anadromous species (chinook for example)outside the
Susitna drainage,i.e.,in Lower Cook Inlet saltwater fish-
eries.The statement that the sport fishing harvest is from
an area larger than that which may be impacted is incorrect.
Response
The harvest figures solely reflect Susitna Basin har-
vest.Major impacts a re expected in the impoundment
zone and between Watana Dam and Talkeetna.Mi nor im-
pacts a re expected downstream from Ta 1keetna.The ha r-
vest figures include data from basin-wide tributaries
(such as the Tal achul itna)and 1 ake systems (Lake
Louise/Susitna Lake)that are not expected to be impac-
i:ed (see Table E.3.6).Thus the data are from an area
1 arger than that whi ch coul d be affected by the pro-
j ect.
G-3-016 E-3-12/3:The Tyonek Village subsistence fishery is princi-
pally supported by Susitna River chinook salmon stocks,not
"at least in part"as stated in the text.The Department not
only recognizes the subsistence harvest of fish by Tyonek,but
is responsible to ensure the continuation of this stock of
fish.
Response
The text has been revised;the subsistence discussion
primarily occurs in Chapter 5.
G-3-017 E-3-13/1:Throughout the discussion,the escapement year is
uni dent i fi ed.
Response
The appropriate revision has been made.
G-3-018 E-3-13/4:Types of individuals or species of fish should be
i dent ified.
Response
The fact that chinook salmon are being discussed has
been re-emphasized.
G-3-019 E-3-16/1:The statement that,"Out-migration in the reach
from Talkeetna to Devil Canyon peaks prior to early June and
terminates by the end of July throughout the drainage."
requires documentation.
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Response
As noted at the begi nni ng of the statement,the i nforma-
tion came from ADF&G (1981d).
G-3-020 E-3-18/2:There are 1akes with sockeye in the Susitna Ri ver
(Talkeetna to Devil Canyon reach).The potential for sockeye
enhancement in the middle Susitna Basin should also be men-
tioned.
Response
The text has been revi sed to indicate that Chase Lake
contai ns sockeye.The potenti al for salmon enhancement
in the middle Susitna Basin was the subject of an ADF&G
study funded by the state legislature.It is our under-
standi ng that the report wi 11 be fi na 1 i zed in February
1983.The study apparently concl uded that there is a
potential for salmon enhancement in the middle Susitna
drai nage by either construct ion of a fish passage facil-
ity to provide for migration to the middle basin or by
establishment of a hatchery.While technically feas-
ible,the fish passage facility is not cost effective •
G-3-021 E-3-19/3-4:Based on the 1982 evaluation of sonar versus tag/
recapture Petersen estimates,the 1 atter has been determined
to be more representative of escapements than sonar estimates.
Therefore,it is recommended that Petersen population estima-
tes be used where available.
Response
The document now uses Petersen popul ati on estimates in
lieu of sonar estimates,except at Yentna Station,where
side-scan sonar counts are considered to be the best
estimate of escapement (ADF&G 1983).
G-3-022 E-3-22/1-5:We suggest Petersen population estimates would be
more meaningful in lieu of sonar counts for the stations at
Sunshine,Talkeetna and Curry.The 1982 evaluation of sonar
versus tag/recaptu re Petersen estimates indicates that the
1 atter are more rel i abl e.Therefore,escapement shoul d be
defined on Petersen estimates when available.
Response
See previous response.
G-3-023 E-3-24/1-7:The year the data represent is not stated in the
text.
Response
The year of the data has been added.
G-3-024 E-3-26/4:Eulachon are known to extend as far upstream as
RM 58 based on 1981 observations by Su Hydro Aquatic Studies
staff.The RM 48 fi gure provi ded by Trent (1982)was for 1982
ob se rvat ions.
Response
The text has been revised to incorporate this informa-
ti on.
G-3-025 E-3-28/2:Principal study areas were located in the first
mile of the tributaries upstream of their confluence with the
Susitna.The reference to upper stream reaches in the fourth
sentence should be removed.
Response
The text has been appropriately revised.
G-3-026 E-3-29/1:These statements are specul at i ve and cannot be
supported by existing data.
Response
The statements have been removed and will be reeva 1 ua-
ted as mor:e i nformat i on becomes avail abl e.
G-3-027 E-3-29/2:A much larger number of grayl ing depend upon the
area to be inundated over and above those included in this
est imate.
Response
The text has been revised to incorporate 1982 data that
were received subsequent to release of the draft Exhibit
E and to indicate that this is a minimum estimate.
G-3-028 E-3-29/3:
(a)Grayling fry were captured at Watana Creek area in 1981,
indicating spawning in the immediate vicinity.
(b)The final sentence concludes that if other unidentified
conditions are suitable,spawning habitat will not be a limit-
ing factor for grayling.This needs proper referencing and
eval uation.
Response
(a)The new information pertaining to the grayling
spawni ng area at Watana Creek in 1981 has been i ncor-
porated.
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(b)The text has been revised to include proper refer-
encing.
G-3-029 E-3-30/1:Burbort also inhabit SusitnaRiver tributaries,not
just the mainstem.
Response
The discussion as presented indicates that burbot uti-
lize a wide variety of habitats and does not preclude
use of tributary habitat.
G-3-030 E-3-30/2:Areas downstream from Tal keetna of importance to
burbot were identified specifically.The four mainstem sites
upstream from Talkeetna should also be specifically identi-
fied.
Response
The areas of highest burbot catches upstream from
Talkeetna have been added.
G-3-031 E-3-31/3:The discussion of whitefish occurrence in the im-
poundment is not clear.
Response
The text has been revised to clarify the occurrence of
round whitefish in the impoundment ~rea~
G-3-032 E-3-32/4:The juvenile longnose sucker collection effort was
not sufficiently uniform to conclude changes in distribution
from the catch per unit effort data.
Response
The discussion of juvenile longnose sucker has been
deleted.
G-3-033 E-3-37/3:Chinook salmon extend to RM 156.8 (Chinook Creek)
not RM 158.2.
Response
The correction has been incorporated.
G-3-034 E-3-37/4:Resident species of scul pin also occur in the
Susitna rnai nstem.The text shoul d therefore report 7 speci es.
Response
The correction has been made.
G-3-035 E-3-40/1:Timing for respective salmon use based on 1981 data
would be more accurate if changed to:
Coho -30 July through mid-September
Pink -27 July through 20 August.
Response
The new data have been incorporated.
G-3-036 E-3-41/1:The Arctic lamprey also occurs in the Susitna River
above the Chulitna confluence.
Response
The text has been revised.
G-3-037 E-3-41/5:Based on set net and electrofishing catches in
1982,pink salmon mill in the Susitna mainstem immediately
below Devil Canyon.
Response
The new data have been incorporated.
G-3-038 E-3-43/1:Not all sloughs are overtopped by flows of 20,000
to 24,000 cfs.Examples are Sloughs 10,11,14,and 15.
Response
The appropriate revision has been made.
G-3-039 E-3-44/4:Holding areas at the mouth of sloughs are not con-
sidered a critical factor any more than "holding areas"at the
confluence of many of the chum salmon producing streams.The
fact that there are hol di ng areas does not necessarily make
the sloughs more productive.
Response
The text has been appropriately revised.
G-3-040 E-3-44/8:In the last sentence,are the authors speaking of a
tributary mouth or tributary?In either case,importance of
the habitat type for rearing cannot be measured simply by
number of fish captured at a site.This is particularly true
for tributary mouths because they are part of the downstream
and out-migratory pathway where fish may be seasonally
concentrated.
Response
The text has been appropri ately revised to focus the
discussion on slough habitats.
-
--
I~-
-
.....
G-3-041 E-3-46/4:These are not static populations.The populations
of individuals becomes redistributed to favorable rearing
habitat locations,including tributary mouths.
Response
The comment has been incorporated.
G-3-042 E-3-46/7:Chum salmon preference to slough habitat over tri-
butary streams is unsupported.Only index surveys were con-
ducted on tributaries whereas sloughs have been surveyed in
total.The 1974 investigations and 1982 ADF&G surveys indi-
cate that tri butari es may be equally as important to overall
chum salmon spawning in the Talkeetna to Devil Canyon reach as
slough habitats.
Response
The text has been revised to indicate the relative
importance of tributaries,sloughs and mainstem as chum
spawning habitat.A preliminary estimate of the number
of.chum sal mon mi grati ng past Curry that spawned in
sloughs indicated that 27 percent in 1981 and 12 percent
in 1982 utilized slough spawning habitat.
G-3-043 E-3-47 /1/1:.Indi an Ri ver is a maj or chum sal mon spawn i ng
stream.Based on 1974,1981 and 1982 escapement surveys,this
stream supported higher numbers of chum salmon than chinook
and coho salmon.
Response
The revision has been incorporated.
G-3-044 E-3-49/4:Eul achon were found upstream to RM 58 in 1981,and
to RM 48 in 1982.
Response
Th~new data have been incorporated.
G-3-045 [-3-51j7:Based on 1981 and 1982 ADF&G spawning surveys,
sloughs do serve as chum,sockeye and pink spawning habitat.
Response
Available project documents do not ;dentify sluugh
spawnin9 areas downstream from Talkeetna.If the data
become available,they will be inc{)rporated into the
June 36,1983.,report.
G-3-46 E-3-52/3:Yes,all species of salmon were recorded in tribu-
taries in 1981,but sockeye were not found in notable numbers.
We do know that the Chase Creek system supports a "sma ll"
sockeye run.ADF&G surveys are conducted in the half mile
reach of tributaries upstream from the confluence with the
Susitna River.The balance of the tributaries are not sur-
veyed.If the report is to reflect that all species utilized
tri butaries,then it waul d be appropri ate to modi fy Page
E-3-46,Paragraph 2,which presently excludes sockeye as being
present in tributaries.
Response
The section under discussion concerns the reach down-
stream from Talkeetna.Chase Creek and the ADF&G sur-
veys are in the Devil Canyon to Talkeetna reach.
Page £-3-46 has been appropriately revised.Downstream
from Talkeetna,sockeye are found in notable numbers in
some tributaries.
G-3-047 £-3-55/3:Fish Creek in the Big Lake drainage supports a sig-
nificant rainbow trout population and also pink salmon.
Response
The information has been incorporated.
G-3-048 E-3-62/4:
(a)Cheechako Creek is a chinook salmon spawning stream.
Chinook salmon spawn both in the creek and the mixing area at
its confluence with the Susitna River.
Gravel removal/dam construction will destroy this production
area,which is a long-tenn impact.The Cheechako Creek plume
area is a spawning site.Will project impacts be mitigated
here at least until Devil Canyon is built?
(b)If Tsusena Creek will have the long-term and degree of
impacts stated,it seems contradictory and optimistic to say
it will or can be rehabilitated.
Response
(a)The reference to the Cheechakd Creek material site
correctly belongs in the Devil Canyon Dam discussion.
Cheechako Creek will only be mined when Devil Canyon Dam
is built,at which time the habitat will be lost to
c hi nook.
(b)Rehabil itation plans for the Tsusena Creek borrow
site will be developed during detailed design.
",...
-
-
-
-
G-3-049 E-3-65/4:Investi gat ions shoul d be conducted to determine the
presence or absence of fish in the referenced lake.
Response
The recommendat ion for further study will be consi dered
during the development of future study programs.
G-3-050 E..3-67/3:This is a mid-summer estimate of only those gray-
1 ing inhabiting the impoundment area and is not an accurate
reflection upon the number of grayling that depend upon that
same area for spawning,rearing or wintering.
Response
The number is indicated as a mlnlmum number of grayling
residing within the impoundment area and is based on the
best avail ab 1e estimate of grayl i ng in t he a rea.The
text has been revised with the 1982 estimate,which was
obtained subsequent to the previous draft.
G-3-051 E-3-68/3:Data are requi red to support the suggestion that
the reservoir may provide additional wintering habitat.
Response
The increase in reservoir volume is documented in
Chapter 2,as are the expected ice cover and the water
qual i ty and physi cal characteri sti cs of the reservoi r.
These data indicate that the reservoir will be suitable
as overwintering habitat.
G-3-052 E-3-71/3:The ADF&G studies document juvenile salmon occur-
rence in mai nstem habitats all summer.Catch rates were
rel at i vely low,however,and 1arge numbers of fi sh coul d be
present in low densities over a large area at any time.
Response
The comment is noted.
clarify the role of
rearing areas.
Analysis of the 1982 data should
mainstem habitats as juvenile
-
G-3-053 E-3-73/4:Water temperatures of 5°to 6°C at Talkeetna during
open water period may have major impact on returning adults.
If higher flows will reduce temperature,it may be better to
reduce flows or fi nd ways to tap warmer 1 ayers of water for
discharge.
Response
The potential impacts of reduced mai nstem temperature
during the second year of filling are recognized.The
model used to predict these impacts was not able to in-
corporate the buffering affects of tributary inflow.As
the AEIDC habitat modeling evolves,the temperature
model ing capabil itites will improve and these results
wi 11 be used to develop a flow rel ease strategy to mi n-
imi ze the downstream temperature impacts.If flows are
reduced to increase the downstream temperature,it will
be difficult to extend the filling period which was
identified as being desirable in Comment E-2-39/5 and
E-2-40.
G-3-054 E-3-74/2:The statements in this paragraph are speculative
and reflect the need for further study and analysts.
Response
The discussion has been expanded to include additional
i nformat i on.
G-3-055 E-3-75/2:Same comment as E-3-74,Paragraph 2.
Response
The text has been appropriately revised.
G-3-056 E-3-78/1:The statements here are speculative and not suppor-
ted by data or references.
Response
It is anticipated that a refined understanding of the
habitat requirements of juvenile salmon will be estab-
lished by the ongoing Aquatic Studies program and the
results will veri fy these statements.
G-3-057 E-3-78/3:Beaver dams in Sloughs 9B and 19 did not inhibit
use by adult salmon in August of 1982.Slough 9B had a peak
survey count in 1982 of five chum and one sockeye salmon on
September 19.Low water condit ion in mid-August generally
precluded adult salmon access to Slough 9 which is the access
corridor for salmon using Slough 9B.Slough 19 was essential-
ly void of adult salmon spawning in 1982.Only one pink sal-
mon was observed in this slough and this fish was recorded on
August 4,1982.No beaver dams were present in Slough 19
which would have precluded fish access.
Response
The text has been appropriately revised.
....
-
-
-
G-3-058 [':'3-7974:Deadhorse Creek (RM 121.0)is not an established
anadromous fish stream.Occasionally,one or two adults enter
this stream,usually pink salmon.However,no successful
spawning has been documented.
Annually,Deadhorse Creek flows go below the surface in the
lower one-third mile during the late fall and winter period.
It is questionable whether successful salmon production occurs
in Sherman Creek~About 25 pink salmon entered Sherman Creek
on or about August 12,1982,presumably for spawning,it has
not been established that the eggs will successfully incubate.
The creek flows subsurface in the wi nter and eggs may be
frozen.
Skull Creek (RM 124.7)is another stream which probably will
be perched with flow changes in the Susitna mainstem.This
creek supports a small chum salmon population •
Response
The text has been revised and additional data incorpora-
ted.
G-3-059 E-3-80/1:Devil Creek (RM 161.0)wou-ld be equally accessible
to salmon as Tsusena or Fog creeks.Devil Creek appears to
have potential chinook salmon spawning habitat.
Response
The additional data have been incorporated into the
text.
G-3-060 a)E-3-80/2:Data regarding flow characteristics are insuffi-
cient to substantiate minimal impacts into Susitna River
reaches downstream from Talkeetna.A greater proportion of
the 5usitna River fishery resources utilize this downstream
reach.A small change may affect a proportionately larger
resources base.
Response
Available data regarding flow characteristics from
Tal keetna certai nly indicate mi nimal impacts.The
suffi ci ency of thi s data base wi 11 be cons i dered in
formulating the future study program for FY 1984.
G-3-060 b)E-3-80/3:See comments for E-3-80/2.
Response
See response for E-3-80/2 (G-3-060).
G.;,.3-061 E-3-80/4:In addition to salmon util ization,the Susitna
River reach from approximately RM 4.5 to RM 29 is almost
entirely eulachon spawning habitat,sustaining a spawning
adult population ranging in the millions of fish.
Response
The addit i ona 1 data have been incorporated into the
text.
G-3-062 E-3-81/1:All resident species occupy mainstem habitats dur-
ing ice free months.not "mayll occupy.
Response
The text has been appropriately revised.
G-3-063 E-3-82/1:Eul achon spawning 1 imits extend from approximately
RM 4.5 to RM 58.
Response
The text has been appropriately revised.
G-3-064 E-3-82/3:Eu 1achon do not spawn in backwater or semi -pl aci d
areas.Principle spawning areas are adjacent to cut banks
where the swbstrate included deposits of unconsolidated sands
and gravels,and riffle zones or bars with relatively moderate
velocity and ·unconsolidated sands and gravels.
Response
The text has been revised and the new information on
eulachon spawning habitat has been incorporated.
G-3-065 E-3-88/4:The statement on sediment in this paragraph contra-
dicts the statement on Page E-3-90,Paragraph 2,Sentence 3.
Response
The text has been appropriately revised.
G-3-066 E-3-90/1:These statements are not supported by data.
Respon se
We feel that this is a reasonable interpretation of the
avai 1 able data.The text has been revi sed to cl ari fy
our assessment of this issue.
.....
"""
....
G-3-067 E-3-90/3:Ice cover woul d probably form at RM 114 not RM 14
as presented.
Response
The typographical error was corrected to read RM 149.
G-3-068 E-3-90/4:The impacts to fish habitat due to backwater and
stagi ng processes caused by increased post-project wi nter
flows are not defined •
The text has been revised to clarify and better define
the impacts to fish habitats.
G-3-069 E-3-90/5:These statements are not supported by data and are
speculative.
Response
We feel that this is a reasonable interpretation of the
available data.The text has been revised to clarify
our assessment of this issue.
G-3-070 E-3-95/6:Eul achon do not spawn in backwaters.See comment
on E-3-82,Paragraph 3.
Response
The text has been revised and additional data incorpor-
ated.
G-3-071 E-3-98/6:Other species are known to be present.A relative-
ly small population of Dolly Varden inhabits the subject areas
along with at least one sculpin species.
Response
The new data have been incorporated into the text •
G-3-072 E-3-100/3:Additionally,Jack Long Creek supports adult coho
salmon.Portage Creek also has spawning populations of chum
a rtd pin k sal mon •
Response
The additional data have been incorporated into the
text.
G-3-073 E-3~103/3:Changes in streamflow d.uri ng open-water seasons
will affect slough habitats depending on the flow released.
The potential for destroyi n9 these aquatic habitats appears
high.
Response
The change in stream flow refers to change in relation
to the Watana-only scenario~not change from pre-project
conditions.The discussion has been expanded based on
newly acquired data.
G-3-074 E-3-122/5:Does restri cting unauthori zed traffic mean that
project personnel will be allowed to fish and the general
public will not be allowed access to the fisheries?This may
not be an acceptable form of mitigation during a construction
phase that may span 20 years.The Board of Fisheries manage-
ment decisions will also supercede the stated policy of APA on
catch and rel ease fi sheri es by project personnel.It does not
seem likely that the public will be barred from the area while
project personnel have exclusive access and use of the fish-
eri es.
Response
The Power Authority will be propos i ng pol i ci es as part
of their 1 icense appl ication.We accept the authority
of the Board of Fisheries and~in fact,solicit specific
mitigation policies that would be acceptable to them.
G-3-075 E-3-126/4:The lakes for water withdrawal should be identi-
fied and their resources inventoried.
Response
The recommendat i on for conducti ng a resource inventory
of the water bodies used for miscellaneous water with-
drawal is acknowledged and will be considered in devel-
opment of the future study programs.
G-3-076 E-3-127/2:Individual fish will not necessarily be lost by
filling of the reservoir.Fish do not have to be moved
through the diversion tunnel.Structural protection from
passage through the tunnel is a potential mitigative measure.
Response
While it is valid to assume that individual fish will
not necessarily be lost by filling the reservoir~the
lost tributary and majnstem habitat and low habitat
value in the reservoir subsequent to fill ing is expected
to significantly re~uce the populations of fish suscept-
ible to passage through the diversion tunnel.The tem-
p-Orary mitigative measure of structural protection from
passage through the t-unnel will provide only short-]ived
r
-
benefits.It is more appropriate to provide mitigations
that provide long-term benefits.Mitigation for these
losses is discussed under Mitigation for Inundation Im-
pacts in Section 2.4.4(c).
G-3-077 E-3-130/3:A 10 percent reduction of flows during a critical
and stressful period for fish does not constitute a minor
reduction.The potential effect of reducing the November flow
have on the recharge of groundwater reserves which will be
needed throughout wi nter shoul d be eval uated.lei ng may take
place much sooner with reduced flows and be much more severe.
Response
The fl ow schedul e for fi 11 i ng Watana has been revi sed;
the flow regime from November 1 through April 30 is now
proposed to reflect the inflow to the reservoir.Thus
no impacts wi 11 occur as a resul t of flow schedul e
during these months.If,in the question,icing refers
to the ice format ion process,then that process wi 11 be
delayed slightly by the warmer temperatures coming out
of the reservoir and the process should be less severe.
If the question refers to icings (aufeis),it is
anticipated that these will be less severe under reduced
fall flows because of decreased hydraulic pressures.
November to April are unchanged during filling.
G-3-078 E-3-130/4:There are no data presented to support the state-
ments regarding fisheries impacts at the referenced flows.
Response
See response to comment G-3-066.
G-3-079 E-3-131/5:Pink salmon fry moved out primarily during the ice
breakup period.Chums out-migrated primarily following the
early runoff peri ode
Response
The additional data have been incorporated into the
text.
G-3-080 E-3-134/2:There are no assurances that responses,i.e.,
releases of water,will happen quickly enough to keep from
losing one year class of fish.By the time the problem
appears to be sufficiently severe to warrant correction,it is
most probably too 1 ate to act.This probl em to be further
examined.
Response
Response time for water releases is rapid;flows will be
monitored at Gold Creek and adjusted immediately at the
damsite if it reaches a designated minimum.Minimum
flow levels are being investigated during the ongoing
mitigation design efforts.
G-3-081 E-3-134/4:We are not aware of testing of this procedure in
this area of Alaska,or that the technique is feasible.Addi-
tional research needs to be conducted to evaluate the feasi-
bility of the concept of introducing spawning substrate.
Response
Additional documentation has been provided to substanti-
ate the statements.The concept of introducing spawning
substrate has proved successful in Washington and as a
mitigative measure needs to be evaluated for site spe-
cific situations on the Susitna River.
G-3-082 E-3-135/4:Data have not been presented to suggest this pro-
cedure will work for chinook salmon.It is as likely that
suitably sized gravels placed in side channels,given mainte-
nance flow,may attract chum salmon.
Response
Additional documentation has been provided to substanti-
ate the statements.
G-3-083 E-3-136/3:There is no definition of species to be produced,
nor a managelnent scenario.In addition,a suitable location
for the proposed hatchery facil ity has not been identified.
To be considered a feasible mitigation alternative,these con-
siderations must be included.
Response
A hatchery siting study has been completed (Kramer,
Chin,and Mayo,Inc.1983).A salmon hatchery is a low
priority compensation alternative.It is anticipated
that onsite mitigation will be effective at maintaining
production of slough and mainstem spawning salmon.
G-3-084 E-3-138/3:There are no data or references presented to docu-
ment the feasib"il ity of this mitigation approach.Altered
thermal regimes in the mainstem and side-channels would cause
potential pre-emergence of salmon fry in these areas.How-
ever,early emergence of salmon fry spawned in sloughs may not
result as a consequence of higher mainstem temperatures.
..-
-
-,
-
Therefore,the proposed feedi ng and reari ng of pre-emergent
salmon fry would not be resolved by the proposed spawning
channel and rearing ponds (E-3-143 and 144)as mainstem fish
would have no access to them.
Response
The section on slough mitigations has been substantially
revised and the spawning channel/rearing pond alterna-
tive has been removed.It is anticipated that full
mitigation can be achieved by habitat enhancement tech-
niques rather than compensatory techniques.
G-3-085 E-3-138/4:A much larger number of grayling than included in
this estimate depend on the area to be inundated.Also,this
is not a wintering population estimate.
Response
Refer to response to Comment E-3-67/3.
On a more general basis,the attitude implicit in the mitiga-
tion plan is that losses are inevitable but unquantifiable,
and that some mitigation measures will be implemented but may
not work.It is also implied that if monitoring demonstrates
inadequacy of a mitigation measure other steps will be taken.
Response
Wi th the development of the Su si tna proj ect 1 oca 1i zed
losses would be inevitable;however,no net loss or en-
hancement in many areas is possible.All losses have
not been quantified.Although considerable efforts have
and continue to be expended for this purpose,as ADF&G
has stated,the detenni nati on of the degree of impact
(loss of habitat and fish)is very difficult to quanti-
fy.No guarantee can be provided that any proposed
·mitigation measure will achieve 100 percent of its
goals.Thus,the committment has been made by the Power
Authority to monitor the success of its mitigation pro-
gram and to implement modifications as required.This
is considered a rational and responsible approach to
mitigation.
How and by whom will the effectiveness of mitigation measures
be determined?Under natural conditions small sub-portions of
salmon undergo extreme variations in survival.This will con-
found evaluation of the mitigation measures and could be a
source of conti nui ng confl ict between the operators and the
resource agencies.The frequent references to al ternat i ves
and operations which could be implemented if a mitigation mea-
sure proves inadequate puts the burden on the wrong parties.
The mitigation aspects of this document are too tentative and
too speculative.Substantially more detail and information is
required before ADF&G can mqke a reasonable decision on
mitigation methods.
Response
It is assumed that the FERC,who has the responsibility
of regulating hydroelectric projects,will be the
arbitrator in these matters.
Other additional comments specific to the mitigation section
are as follows:
G-3-086 E-3-136 and E-3-140/1:Reference the foll owi ng statement from
the Exhi bi t E document:"Si nce the effecti ve miti gat ion mea-
sures to avoid,minimize,rectify or reduce impacts to the
grayling population in the impoundment area are not available,
it will be necessary to compensate for the loss of these gray-
1 ing.Compensation is proposed to be in the form of hatchery
propatation of grayling •••Sufficient grayl ing will be planted
such the number [sic]of catchable grayling will be similar to
the n um be r los t . "
The FRED Division of ADF&G has been experimenting with gray-
ling culture for several years,first at Fire Lake,then Ft.
Richardson,and not at Clear Hatchery.We are continuing to
work with grayl ing and intend to develop techniques that some-
day will support a grayling production program.At this time
and for the foreseeable future,grayling production in Alaska
must be considered experimental.In brief,several factors
impact hatchery grayling production:
1.It is difficult to find egg sources that are sufficient in
number.Whereas salmon egg takes in the tens of mi 11 ions
are common,a one million grayling egg take is a major un-
dertaking.
2.The eggs and fry are extremely small and from a cultur-
ist's standpoint,very difficult to work with.Grayling
fry hatch at 30,000 per pound as compared with salmon
which are ten times that size at emergence.Marking and
therefore eval uati on of survival after stocking are not
possible with existing technology.
3.Survival from green egg to fry have generally been low -
50 percent as compared to 80 to 95 percent for salmon pro-
ducti on.
-
r
G-3-087
4.Attempts to rear fry in hatcheri es have been 1argely un-
successful.The obvious survival advantage that could be
gained by releasing larger fish cannot be obtained until
techniques are developed which will permit holding and
feeding of fry.Grayling have been successfully reared in
the lower 48.However,those fish hatch at a larger size
(20,000 per pound)and behave differently in raceways.
We intend to overcome these problems as we learn more about
the performance of grayl i ng in our hatcheri es.However,the
idea that an irrevocable loss of grayling due to habitat inun-
dati on can be compensated by hatchery propagat i on mu st be
judged speculative at this point.
Response
It is recognized that grayling propagation is not well
developed.The mit i gat i on pl an p rovi des for a three-
year experimental phase to develop grayling propagation
technology that will have utilization beyond project
needs.Since ADF&G intends to develop grayling propaga-
tion techniques and the Power Authority has a need for
such technology,a cooperative experimental effort would
be desirable.
The develolJ1lent and operation of spawning channels and the
modifications of sloughs,that has been proposed as mitigation
warrants further discussion.
Reference the following seven excerpts from Chapter 3,of the
Draft Exhibit E document:
1."The slough habitat for the i ncubati ng salmon embryos may
be enhanced through increased intergravel flow associated
with 1arger flows,or it may be degraded if the hi gher
flows substantially alter the intergravel temperature
regime or ice conditions."
2."The [proposed]flows are of sufficient magnitude,how-
ever,to undertake to rectifying (SIC)impacts to salmon
spawning activity by modifying existing spawning habitat
to mai ntain natural spawning by salmon./I
3.If further impact reduction is required to maintain exist-
ing fish populations,additional mitigation measures will
be incorporated.Certain target mitigation issues will
receive priority in the monitoring program."[E-3-133]
4."The out-migration of salmon fry will be monitored to
evaluate if proper timing of out-migration is achieved.
The basis for such an evaluation will be the baseline
out-migration studies and within year comparison to
adj acent unregul ated systems."[E-3-134]
5."Success of a multi-level intake depends on the thennal
structure of the reservoi r,the exi stence of sufficient
water at the desired temperture and location with the re-
servoir •••Temperatures near this (8 to 12°C)range may
exist in the top 100 feet •••If this layer is present,it
can be accessed by the multi-level intake gates ••••"
[E-3-137,138J
6.liThe most significant adverse impact associ ated with the
altered thermal regime would be accelerated incubation and
early emergence of salmon fry •••The modified sloughs or
spawning channels designed to rectify or compensate for
lost spawning and incubating habitat will be provided with
a reari ng pond at thei r downst ream end •••Used to collect
early emergents and hold them to prevent thei r downstream
migration •••Until appropriate conditions,including tem-
peratures are reached in downstream habitats."[E-3-138J
7.The fry will be fed if natural food production is insuf-
fi ci ent to support the number of fry present.'TE-3-144J
In response to the above:The major problems appear to be
flow alteration with resulting affects on slough access,hy-
draulics and water temperature.As might be expected,the de-
termination of the degree of impact (loss of habitat and fish)
is very difficult to quantify and there is not specific infor-
mation provided.Instead,engineering solutions are proposed
for engineering problems.Modified sloughs aslo known as
spawning channels are addressed on a conceptual level.Some-
how it is proposed,that an unquantifiable loss of fish will
be rectified/compensated by a multi-purpose habitat modifica-
tion program which includes channelization,flow control
structures with day-to-day flow alteration,gravel cleaning,
gravel "introduction,enhancement of upwelling,rering ponds
with fry screens on the outlets and artificial feeding of fry.
The engineering,construction and operation of these channels
is totally lacking in detail.There are not operational
spawning channels for these species in Alaska.Canada has had
mixed success,but they are located in environments far more
temperate.
The cost of maintenance and operation of these channels should
be included in any determination of feasibility.The proposed
demonstration project should focus on fish production and sur-
vival as well as the physical properties of the modified
s 1 oug h.
~-
-.
-
....
The concern about changes in the thermal regime are i nade-
quately addressed.It is apparant that the impoundmant tem-
peratures and hence the utility of a multi-level intake are
not known.The reari ng ponds at the downstream end of the
channels may not be effective in accomplishing the desirec
objective.Emergence of fry will not occur within a short
time span but over a period of weeks.Therefore,at any given
time the fish in the slough or pond will cover a wide range of
develorxnental stages.A schedule of "release"of these fry
into the mainstream must be provided.Once emergence timing
is upset due to altered temperatures it is uinlikely that sur-
vival levels could be maintained by holding them in a pond.
Fry will not automatically feed on an artificial diet,there
is an aspect of "training"which is obviously successful in a
hatchery raceway.Washi ngton has had some success with pond
culture but the fish are generally hatchery lots of similar
size.
Assuming that the "operator"of these sloughs and the proposed
rearing ponds determines that artificial feeding is required,
how will this be accomplished through the ice cover that may
develop on the rearing ponds?
Response
These concerns are addressed in more detail in the final
Exhibit E and in the responses to the specific questions
received from ADF&G and FWS.It should be noted
however,that the emphasis of the slough mitigation
program is not to create a series of artificial spawning
channel s but rather to avoid habitat loss and mi nimi ze
habitat disruption within the sloughs by implementing
modifications to compensate for changes in the mainstem
flow regime.
SPECIFIC COMMENTS -WILDLIFE AND BOTANICAL RESOURCES
G-3-088 E-3-279:Rationale for considering alteration of habitat less
significant than hazards is not supported.
Increased predation is mentioned on page 284,with no indica-
tion of its significance to the populations but ignored in the
ran ki ng of impacts.The current moose popul at ion is hi ghly
impacted by predators.The project is likely to increase the
vulnerability of the moose population to predation in several
ways.Brown bear and wolf popu1 at ions are l"j ke ly to be 1ess
affected than moose in the early years of the project,causing
an alteration in predator/prey ratios.The project could re-
duce the availability of spring foods for bears and caribou
for certain wolf packs s causing a further increase in preda-
tion on moose.The drawdown zone and ice conditions are like-
ly to facilitate hunting of moose by wolves.The moose popu-
lation may have reduced productivity because of poorer habitat
qua1itys especially after severe winters s reducing its ability
to sustain predation.These factors could allow predation to
drive the moose population to very low levels and maintain it
there for long periods.Similar situations have occurred
throughout much of Interior Alaska.Ultimately predator popu-
lations would suffer and any habitat enhancement attempts
could fail.
Response
Rationale for the priorities assigned in this introduc-
tory passage are provi ded in foll owi ng text.Recruit-
ment in the moose population is currently highly af-
fected by predators.We appreciate the qualitative dis-
cussion of cumulative hypothesized impacts.We agree
that impacts on middle basin moose inhabiting the im-
poundment area will be severe.
Mortality to accidents s predation,and hunting will all
increase.The modeling approach outlined will allow as-
sessment of all level s of all mortal ity sources on the
population (see Section 4.3.1(a)(iii).The section has
been 1 argely rewritten to i ndi cate the above-mentioned
impacts (see Sect jon 4.3.1(a)(ii)-Mortality).
G-3-089 E-3-280:Sections relating to impoundment clearing are
inconsistent,illustrating poor editing and confusion about
the certainty of mitigative actions.Most sections assume the
impoundments will be cleared in a stepwise manner,but on page
306 it sayss "If portions of the impoundment are cleared •••"
On page 286 it suggests a bri ef increase in forages but on
page 287 it predicts a substantial reduction in value.
Moose are sometimes attracted to areas being logged by avail-
ability of branches of deciduous trees.
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Response
Th i ssect i on has been rewritten to clarify and i ncor-
porate these comments.
G-3-090 E-3-283:Overuse of winter range can lead to reduced natality
as well as mortal ity.Moose that never use impoundment areas
wi 11 be impacted by over ut i1 i zat i on of adjacent areas (see
page 287 also).This could expand the zone of impact for
several decades.
Response
This section has been rewritten to address these issues.
See Section 4.3.1(a)(i)-Habitat loss,paragraph 6.
G-3-091 E-3-284:No rationale for concluding that mortality factors
will have a negligible effect on the population.Mortality
along access routes should be considered along with dam
construction activities because they occur together.
Response
No such di scussi on occurred on page E-3-284.
corridor impacts are treated in Section 4.3.3.
are summarized in Section 4.3.5.
Access
Impacts
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I
G-3-092 E-3-288:It should be possible to quantify areas subject to
erosion (and other types of habitat alteration)and estimate
the proportion that will revegetate.This is an example of an
impact that is mentioned with potential negative and positive
effects then dropped.The reader has no idea how much a rea
will be affected and whether the net impact on moose will be
positive or negative.
Effects of drifted snow on vegetation,availability of vegeta-
tion and phenology are not addressed.
Response
This section has been rewritten to address these com-
ments.
G-3-093 E-3-289-290:see general comments on adequacy of assessment
of downstream effects on vegetati on.Frequency of f1 oodi ng
(290 first paragraph)is probably very important.No
rationale is provided for assessment of the effects of ice
scouring on vegetation.The potential effects of scouring
should be quantified.
Response
This section has been rewritten to address these com-
ments.
G-3-094 E-3-290:The effects of drifted snow on movements of moose
are not mentioned here,but are for caribou (page 298).
Response
Text has been revised,see Section 4.3.1(a)(ii)-Block-
age of movements.
G-3-095 Increased mortal ity resulting from increased predation should
be considered.Floating ice during latter stages of breakup
could have the same effect as floating debris.
Accidental kills will continue during operation of Watana.
Response
Text has been revised,see Section 4.3.1(a)(ii)-Mor-
tality.
G-3-096 E-3-294:The summary of impacts for Watana comes closest to
addressing cumulative impacts.However it is not systematic,
ignores some impacts mentioned earlier and contains many sub-
jective judgments that are not supported by quantitative
rationale.It also does not include impacts of access routes
and transmission lines which must accompany Watana.The unin-
formed reader is likely to be confused and have no real con-
cept of the range of potential changes in moose populations.
Response
Impacts of various project features are treated in
separate sections.Where sub-populations have been
identified many impacts from different project features
will not be cumulative.Those which are cumulative are
treated in Section 4.3.5.
G-3-097 £-3-297:There is no basis for the conclusion that the
Nelchina caribou herd will not use the area north of the
impoundments at its current population size.It is highly
likely that this area of high quality range will be used
heavily in the future even at moderate population levels.
Large movements of cari bou across the impoundment a reas have
only been observed once since 1973.Movements were not moni-
tored closely in most years.
It is highly likely that the management goal of 20,000 caribou
wi 11 be mod i fied,perhaps before Watana is constructed.
Therefore the concl usions about level of impact are i nval id
even if the assumptions about range use were correct.
Response
This section had been revised to treat these concerns.
"'"'
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G-3-098 E-3-298:Statements about drifting snow remaining in the im-
poundment confl i ct with statements made oj n the Feas i bil ity
Report.This needs to be clarified and documented.
Response
Disagreement represents reanalysis of available data.
Portions of the Feasibility Report dealing with environ-
mental matters are superseded by Exhi bit E of the FERC
license application.
G-3-099 E-3-298:The most significant mortal ity factor to caribou
could be floating ice.In many years the spring migration to
the calving grounds would coincide with breakup of the Watana
impoundment.During a period of northerly winds,caribou
could encounter open water when they reach the north shore.
Seeing no obvious barrier they would start to swim across and
would encounter a mass of broken floating ice.This would
create a problem silTrilar to floating debris.Mortality could
be substantial in some years.
Response
This section has been revised to address this comment.
G-3-100 E-3-299:
responses
responses
herd.
The impression is created that the four possible
are mutually exclusive.f>bre likely all four
will be exhibited by varying proportions of the
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Response
Text has been revised to clarify this concern.
G-3-101 E-3-300:The statement that the Mount Watana sheep population
does not occur near the impoundment is an example of a state-
ment bsed on a brief period of observation.Sheep have been
observed near the impoundment in the past.
Response
Sentence has been revised to indicate that the popula-
tion is not usually found near the impoundment.Con-
sidering the traditional nature of seasonal habitat use
by sheep (see ADF&G 1982d),several years·data should
be adequate to assess use patterns.
G-3-102 E-3-301:All·portions of exposed soil at the Jay Creek
mineral 1 ick are not used equally.Some of the most heavily
used areas are low on the bluff.Therefore the percentage of
the lick that would be inundated is misleading.This is also
an example of an "operation ll impact being discussed under
lIconstruction.1I
Response
Text has been altered to indicate this possibility.
However t no data are provided in ADF&G (1982d)to sup-
port this statement.
G-3-103 E-3-305:Carrion is not mentioned as a spring brown bear food
in the first paragraph.
The assumption that spring foods are not important to bears is
incorrect.Food intake du ri ng peri ods of stabl e wei ght or
even weight loss can be absolutely critical because it reduces
a negative energy balance.A prime example is the importance
of winter forage for moose.
The suggestion that loss of carrion is more important than
loss of green vegetation is questionable.A moderate qualitYt
but abundant t food may be more important to the population
than a high qualitYt but sparse t food.
The assumption that t because lactating female brown bear do
not use areas that would be inundated t other bears coul d do
well without those areas is not supportable.Females with
cubs probably have overridi ng reasons to avoi d these areas.
This includes the cub's ability to travel and the risk of
predation on cubs by males.Pregnant females develop heavier
fat deposits that probably help sustain them during this per-
iod.A female that was not able to coast through this period
would probably lose her cubs and move to riparian areas near
the river.Spring foods in the impoundments are probably most
important to yearlings which emerge from dens in poorer condi-
tion t particularly in years following poor berry cropst and
suffer the highest rate of mortality.It is unreasonable to
conclude that yearlings could survive as well as a lactating
female without spring foods.
Response
The text has been al tered to address the.se concerns.
G-3-104 E-3-303-304:Importance of spri ng foods to brown bears is
inconsistent among IIconstructiont""filling"and 1I0peration"
sect ions.
Response
These sections have been rewritten.Popul at i on effects
on brown bear because of the loss of spri ng foods wi 11
be much less severe because of the short time period (1
or 2 years after clearing)of the loss.
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G~3-105 E-3-308:While bears are capable of crossing the impoundments
and some will,there still may be a hi ndrance of movements
between seasonal food concentrations that could reduce produc-
tivity of the population.This section is inconsistent with a
similar section on black bears (page 310).This is another
example of where the potential significance of an impact to
the population is not discussed in even general terms.
The fact that healthy bear populations exist where salmon are
not available is not pertinent.Salmon are one of several
seasonal food concentrati ons.They are probably most impor-
tant during years when other summer foods,such as berries
fail.Bear productivity and survival are probably higher
because salmon are present and hence the population is gene-
rally higher.
The entire brown bear impacts section is filled with unsub-
stanti ated specu1 ati on.Most of it is bi ased towards mi nimi z-
ing potential impacts.It fails to consider how several im-
pact mechani sms may work in combi nat i on and how they mi ght
influence the population.The impact section should list im-
portant foods of bears by season,i ndi cate how the project
mi ght i nf1 uence the avail abil ity of each food to bears,and
indicate the possible effects of these changes in availability
on bear productivity and survival.
Response
Thi s section has been rewritten to address these com-
ments.Where quantification is provided in ADF&G
(1982f)such data are provided.Section 4.2.l{d)de-
scribes food habits and identifies potentially sensitive
periods •
G-3-106 E-3-310:The consequences of disturbance of denning black
bear during clearing are not emphasized.This is likely to
cause problems for both bears and crews.A number of bears
are 1i ke1y to be shot.Many of the di sturbed bears will not
be able to find new dens and mortality is likely to be high.
This can result in a more rapid,more violent and more visible
adjustment of the bear population to the project.
Response
This section has'been rewritten to give greater emphasis
to thi s impact.
G-3-107 E-3-310:There currently is no resident bl ack bear popul at ion
near the Tyone Ri ver conf1 uence and the Fog Lake area supports
low densities..Therefore it is unreasonable to expect these
areas to support viable populations during operation.
Response
This discussion has been eliminated.
G-3-108 E-3-310:Project facilities may block movements of bears from
the Devil Canyon impoundment area to berry areas adjacent to
Watana.
Response
This impact has been added to the discussion.
G-3-109 E-3-311-312:The entire wolf impact section is deficient in
that it fail s to adequately address impacts of reduced prey
densities.
Caribou populations may be reduced.Even if changes in cari-
bou numbers are minor the distribution is likely to be altered
in a way that reduces availability of caribou to specific
packs.There are data from the Susitna basin indicating that
moose densitieSl"nfluence wolf territory size,pack size and
pack stabil ity.Some current territories may be reduced to
the poi nt where soci al factors woul d cause loss of a pack.
Response
This section has been rewritten.Impacts to the Watana
pack are specifically treated.Anticipated changes in
moose density are unlikely to be severe enough to impact
most wolf packs at current exploitation rates of wolves.
If the wolf population is allowed to increase through
better management of harvest levels,prey availability
may then become a 1 imiting factor.No reduction in
caribou populations are anticipated to result from the
Susitna Hydroelectric Project.
G-3-110 E-3-313:The statement that the amount of habitat lost would
potentially affect only two wolverines is not completely
accurate.The habitat lost will remove portions of terri-
tories of a number of wolverines,not all of only two terri-
tories.
Response
The text has been altered to clarify this statement.
G-3-111 E-3-314:Impacts of prey loss on belukha whales is
inadequately addressed.This section appears to focus on
adult salmon only.Outmigrating salmon and eulachon are more
likely the foods attracting belukhas to the area.Eulachon in
particular may be important.Until effects of the project on
the availability of these foods are determined,no conclusions
on impacts on belukha can be drawn.
.....
Response
This discussion has been revised slightly to indicate a
degree of uncertainty which may be addressed in ongoing
research.Our predictions relative to a detectable im-
pact on be1ukhas remains and we consider it to be a de-
fensible discussion.
G-3-112 E-3-340:Statements of c1 imat ic effects shou1 d be documented
and quantified with regard to magnitude of impact.
Elimination of ice scouring is suggested as a benefit,yet ice
scouring may be the most important factor mantaining early
successi ona1 stages north of Talkeetna (on page 289 reduction
in ice scouring is seen as detrimental).Even the potential
short-term benefits may be offset by current shrub communities
advancing to more mature stages.
Response
Quantification is supplied where data are available.
The di scussi ons of downst ream vegetati on changes have
been rewri tten.
G-3-113
G-3-114
E-3-341:The flow regime would be used for fisheries manage-
ment and its affect on vegetation should be identified.It
could prevent vegetation of newly exposed substrate and fur-
ther offset the potential benefits suggested on page 340.
Response
Flow regimes following completion of the Devil Canyon
Dam are not expected to differ greatly from flow regimes
of the Watana project.Thus,no additional differences
to those described in Section 4.3.1(a)(ii)are expected
when Devil Canyon becomes operational.
E-3-340-342:The di scussi on of downstream effects of Devi 1
Canyon Dam are misleading.On page 340 it states "moose may
benefit from an increased avail abil ity of riparian habitat."
Then,on page 341 it poi nts'out that much of the habi tat wi 11
not be available in winter because of open water.(The
potential effects of ice fog on use of these areas by moose is
i gno red.)
Finally on page 342 it pulls the two statements together and
states that effects on moos'e coul d be II mo derate to severe."
Then on page 370 it says changes in vegetation will have a
"small population-level effect."
This is an example where the combined effects of several im-
pacts have not been clearly thought out.The full range of
possible changes in vegetation has not been discussed,only
the most optimistic possibilities.When one of several poten-
tial overriding factors is identified,the acreage affected is
not quantified.
A far more enlightening impact assessment should be possible
by building a simple model with existing data.The analysis
on page 172 takes a step in the right direction but does not
carry it to a useful conclusion.It crudely estimates the
maximum acreage that could become available for vegetation.
This should be refined to estimate the amount that would enter
productive successionaly stages annually during the life of
the project.Uncertainties about rates of colonization would
produce a broad range of estimates,but the order of magnitude
of change and more importantly the chronological patterns of
change shoul d become apparent.Similar estimates for cur-
rently productive habitat that will advance to mature stages
should be subtracted to provide an estimate of net change in
acreage of val ue to moose.The proporti ons of thi s acreage
that occurs on islands and would be inaccessible to moose dur-
ing winter should be subtracted to produce a crude estimate of
possible changes in available winter range.
A similar systematic approach should be applied to all areas
that might be subject to habitat loss or alteration.Impacts
that show a potential for serious effects can then be studied
in more detail to refine the estimates for mitigat ion pl an-
ning.
Response
Downstream impacts have been reassessed,and thi s sec-
tion has been largely rewritten.See Mitigation Plan
6.
G-3-115 E-3-342:Devil Canyon impoudment will primarily affect
di fferent moose than Watana.Therefore the statement that
moose popul ati on will have a 1 ready been greatly reduced is
misleading.The summary of impacts uses the word II minimal ll
fi ve times in reference to impacts on moose in the upper
basin,but completely fails to convey any impression of the
range of population changes that could occur during the life
of the project.
Response
This summary has been deleted and a more comprehensive
summary appears in Section 4.3.5(a}.
G-3-1l6 E-3-343:1\small proportion of acceptable black bear
habitat •••11 What proportion of what area?How important is
that proport ion?
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Response
The correct quote is:"•••small portion of acceptable
black bear habitat •••".The indication is that very
1 ittle habitat occurs.No measure of "habitat ll loss is
possible.Vegetation types lost are presented in Table
E.3.83 (Devil Canyon);a discussion of use of vegetation
types appears in Section 4.2.1(e).Based on information
presented in these sections,our analysis of impacts of
Devil Canyon development on black bear are considered
adequate.
G-3-117 E-3-350:The ori entat i on of access routes in rel at i on to
wildlife concentrations and movement patterns should be consi-
dered.Some subpopulations will be more heavily impacted than
others.Mortality and habitat loss from access routes should
be added to other impacts affecting the same subpopulations
during the same time periods.
Response
See Section 4.3.3(a)(ii).Data presented in ADF&G
(1982a)indicate no special use areas for moose which
will be rendered unusable by road access corridors.
Section 4.5 summarizes impacts.
G-3-118 E-3-351:Impacts of road and railroad traffic start at tide-
water.Increases in unscheduled traffic on existing roads,
particularly the Parks and Denali Highways are likely to be
substantial.Levels should be estimated and impacts asses-
sed.
Response
Our assessment of impacts on access ,road and rai 1 traf-
fic are based on'the best ava 11 able forecasts provided
by Frank Orth and Associates,Inc.as summarized in
Table E.3.167.These are for the peak constructi on
season.Assessment of actual mortality levels-is not
possible based on currently available information.
G-3-119 E-3-352:The timing of railroad and highway traffic is more
important than an average rate.Both seasonal and diurnal
pattern should be considered.Scheduling of traffic should be
considered as a mitigation measure.
Secondary impacts of access routes,other than hunting,should
be consi dered.
Combined effects of access potential of transmission corridors
and access routes should be considered.
Response
No data on seasonal or diurnal traffic patterns have
been provided.Mitigation measures are described in
Section 4.4.Secondary impacts of develop-nent are not
treated as we have discussed in response to initial com-
ments above.
G-3-120 E-3-355:Caribou calving north of the Susitna River is suffi-
ciently dispersed that no alignment of the Denali access road
will avoid calving areas completely.
Response
We have not indicated that complete avoidance of this
impact was accomplished by initial realignment of the
access road.We indicate avoidance of the areas where
most calving has recently occurred.
G-3-121 E-3-356:Frequency of traffic will be substantially higher
during construction unless unscheduled traffic is restricted.
Response
This sentence has been rewritten to clarify this point.
G-3-122 E-3-355-356:It is not always clear which "herd"is being
referred to.The Denal i access road runs throug h a central
part of the upper Susitna-Nenana subherd l s range.It al so
runs through one of the highest qual ity portions of the main
Nel chi na herd I s range.Use of the word "peri pheral"is highly
misleading.
Potential cumulative effects of the access routes and impound-
ments on caribou range use should be discussed.
Response
The discussion has been cl arified.Cumul ative impacts
are treated in Section 4.3.5.
G-3-123 E-3-359:Potential alterations of prey distribution,espe-
cially caribou,on specific wolf packs should be discussed.
Response
It is impossible to predict alterations of caribou range
use even without major disturbance.In any particular
year,individual wolf packs may suffer from reduced
avail abil ity of cari bou whil e other packs benefit.No
predictions on availability of caribou to individual
packs is possible.However,at current harvest levels,
availability of prey is unlikely to act as a limiting
factor for wolves.(See comment on carrying capacity
above.)
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G-3-124 E-3-360:The access routes will provide excellent access to
tundra habitats.Therefore,human use of areas important to
wolverine during summer will increase.
Response
We concur.The text has been altered to reflect this
eventua 1i ty.
G-3-125 E-3-366-368:Transmission corridors should be considered
along with other impacts.Fo r exampl e where they intersect
the range of a s ubpopul at i on the changes in habi tat qual i ty
shoul d be added to changes caused by other project features
within the range of the same subpopulation.
Placement and management of transmission lines in proximity to
roads and rail roads can i nfl uence animal movements and rates
of mortality.For example,moose train collisions could be
greatly increased if a transmission corridor attracted moose
in a manner that increased crossings of the railroad.
Response
Cumulative impacts are considered in Section 4.3.5.The
consequences of increased moose mortal ity to various
subpopulations are being explored throl1gh the use of
computer modeling.
G-3-126 E-3-370-371:The bi g game impact summary is compl etely i n-
adequate.It addresses only impacts on existing populations.
It ignores many impacts,including some judged substantial,
suggesting that these need not be mitigated.It conveys no
impression of the potential magnitude of change,even in cur-
rent populations.The one effort at quantification uses the
smallest possible number of moose that would be impacted by
one mechanism.Even those numbers are stated in a misleading
way.They are numbers estimated on one survey during a mild
winter.There is no basis for the statement that this repre-
sents "most years,II and it certai nly does not represent even a
minimum number of moose that would be eliminated by the
project.
Response
The section on impacts has been substantially rewritten
and the summary reflects this rewriting.Quantification
is provided where data are available.A defensible dis-
cussion of rel ative magnitude of impacts is provided
where this is possible.See Section 4.4 for mitigation
measures proposed.We hope we have clarified any mis-
leading presentation of data which might have occurred
inadvertently.The quantification of impacts on moose
in the rewrite is based on recently available informa-
tion and represents an improvement over the previously
attempted quantification.Additional information from
ongoing ADF&G studies may allow an improvement on
analysis of impacts.The modeling approach being devel-
oped will greatly increase our ability to predict the
effects of many different and cumu1 ative impacts on
moose.Any further information which ADF&G can provide
on carrying capacity for the Big Game species on which
they are conducting project-related research will great-
ly enhance the ability to quantify project impacts.
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DEPARTMENT OF FISH AND GAME
GENERAL COMMENTS -SOCIOECONOMIC
Comment 1
The ADF&G has continuously expressed concern regarding the adequacy of
socioeconomic studies relating to the determination and assessment of
potenti al impacts of the Susitna Hydroel ectric Proj ect to fi sh and
wildlife.Expression of these concerns dates back to initial meetings
with the Alaska Power Authority in 1979.The original study plan
developed by the ADF&G in 1979 contained an objective designed to
assess these very impacts.
Upon review of this chapter,these concerns remain.In our vew,little
substantial progress has been made to define project-related socioeco-
nomic impacts.
Impacts to fish and wildlife users have not been adequately addressed,
either in the areas most directly affected by construction or those
areas outside the immediate project area.Portions of the fish and
wildlife resources produced within the Susitna Project area are harves-
ted or utili zed in other more di stant regi ons.There needs to be an
assessment of these uses of fish and wildlife with regard to (1)iden-
tification of resources used;(2)quantification of use levels;(3)
description of use patterns including seasonality,its context within
the local communities,etc;and (4)description of geographic areas of
use.
Throughout this chapter,reference is made to current and/or planned
studies.These studies,however,are not described,objectives are not
presented,and time of implementation or completion is not defined.
Response
We agree that fish and wildlife users have been active in the
areas most directly affected by construction and in some
areas outs ide of the immedi ate project area.Both of these
areas were considered in Sections 3.5 and 3.7.We also agree
that portions of the fish and wil dl He resources produced
within the Susitna project area are harvested or utilized in
other more distant regions.This has also been considered in
Sections 3.5 and 3.7.
We have identified which fish,game,and furbearer resources
have been used (see Section 3.7),and have described use
levels and patterns to the extent allowed by available data.
Use patterns within the context of local communities is
available in Braund,1982.Some of Mr.Braund1s work has
been summarized and is presented in Section 3.7.
Based upon the fish and wildlife impact analyses,it is clear
that the biophysical impacts of the project,with mitigation,
will be negligible to most users.Changes in the distribu-
tions of caribou,moose,and salmon could disrupt the use
patterns of local users.This includes guides,transporta-
tion services and lodges,as well as local residents who use
the resources for food and ther consumptive purposes.A
study of the project's effects on the users,through project-
induced changes in resource distributions,will be considered
in future study plans if significant resource distribution
changes are identified.
The largest impact of the project on fish and wildlife users
will probably be from easier and,therefore,increased access
to fish and wildlife.Exisitng as well as potential users,
will have easier access.This will increase competition for
fish and wildlife among existing users and among existing and
new users.Areas of greatest potenti al confl i ct are des-
cribed in Sections 4.3.1 and 4.3.2 of Chapter 3.Potential
conflicts could be reduced through effective management.
Responses to your comment about current and/or pl anned stu-
dies are provided along with responses to your detailed
comments.
Comment 2
1.Organizationally,the section of FISH is not comparable to that of
GAME which make it deficient in the presentation of vital informa-
t ion.
a.It makes no mention of guided sport fishing activities which
are a major use of the Susitna River and its tributaries.
b.No mention is made of fishing lodge operations dependent on
Susitna River fisheries.
c.No category comparable to that of liThe Hunter",E-5-75,is made
for sport or subsistence fishermen.
d.The category "Resources"on E-5-75 el aborates on game resour-
ces,their characteristics,and the users of those resources.
Only limited information is currently available pertaining to
recreational and subsistence uses in the Susitna River Basin.
There is a need for additional data.
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e.In the Game section,no "Methodology"is presented as it is for
Fish.
Although it may be true that impacts to the fishery resource depend
upon loss of habitat and subsequent loss of fish,the issue in this
section (3.7)is also the impact upon user groups.In this case,
the methodology in this chapter should address both impacts to the
respective user groups,and to fish and wildlife resources.
Response
Businesses that depend upon fish and wildlife of the Susitna
River and its tributaries are discussed under Displacement of
Businesses in Section 3.5.This section has been revised to
recognize the dependence of guided sport fishing activities
and the partial dependence of lodges on Susitna River fish-
eries.
The organizational issue raised in comments c-e,have been
addressed.Please refer to Section 3.7 •
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CHAPTER 5 -SPECIFIC COMMENTS
G-5-001 E-5-6/1:Only cha racteri st i cs of personal monetary income
have been described.There should be some description (espe-
ci ally in the Local Impact Area)of rel ati ve importance of
natural resource harvests as part of the household income.
Any income determination need not necessarily be made in mone-
tary terms,but should be done (1)qualitatively by (a)
assi gning importance val ues to the harvest and u.se of each
resource;(b)assessing culturally significant practices;(c)
describing the type of economic organization of the area;and
(2)quantitatively by (a)assessing amounts of time spent har-
vesting resources;(b)assessing estimated proportions of
household food consumption;(c)determining amounts of money
spent in pursuit of wild resources;and (d)experessing the
overall output or consumption of a household unit.
Response
We agree that nonmonetary income might be more important
to residents of the local area than it is elsewhere.An
indication of the relative importance of natural
resource harvest to the local impact area will be deter-
mined during 1983 through interviews with residents of
selected communities •
G-5-002 E-6-12/4-6:This section on recreational facil ities rel ated
to fish and wildlife resources would be more appropriately
termed recreational opportunities.This area has an abundance
of opportunities but little development like trail systems,
shelters,and other man-made facilities.A full assessment of
the use of these opportunities and existing facilities would
be appropriate.Certainly,there is information available at
Mt.McKinley National Partk and the State Park recreation
a rea s.
Response
Baseline recreational use (including information on
McKinley National and State Park recreational areas)and
the impact of the project on recreation is covered fully
in Chapter 7,Recreational Resources.Section 3.1.3
(a)(i)of Chapter 5 has been changed to refer to
Chapter 7.
G-5-003 E-5-54/4:The indirect influences affecting commercial busi-
nesses dependent upon fish and wildlife resources as discussed
are undefined.
Response
Section 3.5.2 contains an amended text that accommodates
this concern.
G-5-004 E-5-54/5:The "partial short-term displacement"as discussed
is not defi ned.The statement made that with increased
access,business opportunities will increase is purely specu-
lative.One might also expect business opportunities to be
reduced as a result of increased access,particularly if the
business is associated with the commercial use of the limited
fish and wildlife resources.
Response
The text in Section 3.5.2 (a)addresses the concerns
raised in this comment.The displacement of businesses
due to the project impacts can only be discussed in the
context of the estimated direct project impacts on the
fish and wildlife resources.If the proposed mitigation
measures are successful,there will be little displace-
ment of business.However,in the event that these
measures do not achieve the desired results,a different
scenario will emerge.For that reason,all discussions
of impact estimates including impacts on businesses
should not be viewed as precise predictions.
G-5-005 E-5-54/7:This paragraph indicates similar factors are neces-
sary for both successful lodge and guide operations.This
statement is incorrect.
Commerci al lodges are most successful with improved access and
visitation by large numbers of visitors or customers.With
const ruct i on of new roads,ra i1roads and a i rst ri ps,the pro-
ject area would appear to best fit this category.
A big game guide,on the other hand,appreciates and can tole-
rate less competition from additional hunters and recreational
visitors.This type of business best functions at low levels
of human activity and participation.
Response
Clarification has been provided in Section 3.7.2 of
Chapter 5.The discussion of impacts on lodge and guide
business has also been expanded to reflect the differing
concerns of the two types of businesses.
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G-5-006 Loss of additional habitat,and the change in location and
amount of salmon harvested as stated requires definition.The
statement "l ong -term"impacts to Cook Inlet fishermen and
other fish and wildlife users will be small,is speculative.
Long term is not defined,nor are "other use groups",or
"recent activity level s.II No supportive data or study results
a re presented to support thi s statement.Types of on-goi ng
studies should also be clarified and referenced.
Response
Information on loss of habitat is provided in Chapter 3,
Section 2.3.Changes in the numbers of salmon available
for commerci al harvest are refl ected in the figures in
Chapter 3,Section 2.2.1(a).
Commercial fishing in Cook Inlet takes place on mixed
stocks of salmon.With the partial exception of sock-
eye,stock separation is not currently feasible.Thus,
the location of potential losses to the commercial
fishery in Cook Inlet is indeterminate.
From the data presented in the ADF&G Statewide Harvest
Survey,much of the recreational salmon fishing effort
occurs in the Deshka River,Lake Creek,Alexander River,
Willow Creek,Montana Creek,Sheep Creek,and a few
other creeks.
The location of the subsistence salmon harvest in Cook
Inlet is discussed in Section 3.7.1(c)(ii).Subsis-
tence fishing in the Susitna Basin is not a recognized
fishery by ADF&G.Data on location of harvest are
unavai 1able.
Given that the present data indicate little impact,it
is reasonable to assume that long-term impacts to the
salmon resource will be small.
G-5-007 E-5-68/1-3:Th i s secti on is 1abel ed "Methodol ogy",but pro-
vides no methods appropriate to the evaluation of impacts to
user groups.Implicit in this type of evaluation is the need
for a measure of existing lJ,se.The only statement defining
methods is included in Paragraph 2 which described data used
to determine impacts of the dam on the fishery resources.It
should be noted that pink salmon are more abundant on even
years than on odd numbered years.As such,1981 was a year of
low pink salmon occurrence.
Response
Section 3.7.1(a)has been expanded to more fully de-
scribe the methodology utilized.
G-5-008 E-5-68:A survey of community usage and wi 1d resources by
Cantwell would be useful in assessing levels of use and impor-
tance of the salmon,moose,and caribou and other resources.
The Cantwell area is likely to be affected by:
(1)Wildlife population fluctuations due to construction
activity;
(2)Population fluctuations because of increased hunting
pressure which could result from:
(a)Increased human population,and/or;
(b)Increased access to resources.
While local residents may not appear as a "significant"por-
tion of the overall harvest,those resources may very well be
important to the community in many ways.
Response
We concur that more data,which is not now available,
should be collected in future studies.A survey of
community usage of fish and wildlife will be included as
part of an already planned data collection effort in
Cantwell and other communiti es.Th is data will be
collected in 1983.
G-5-009 E-5-68/4:The assumpti on is made in the fi rst sentence that
"•••the commercial fishery for salmon produced in the Susitna
system occurs only in the Upper Cook Inlet."This assumption
is invalid since Susitna River salmon stocks are harvested
throughout Cook Inlet,including the lower district.Impacts
to Susitna River fish are indeterminable because it is not
possible to separate the mixed salmon stocks as they migrate
through Cook Inlet.
Response
The text has been revised to emphasize the mixed stock
nature of the commercial fishery in Cook Inlet.With
the exception of sockeye salmon,stock separation on
stream of origin using scale pattern analysis is not
presently possible.Therefore,the commercial fishery
statistics for Lower Cook Inlet will be included to make
the section comprehensive.
r'--
G-5-010 E-5-68-69/5:The monetary figures presented here cannot be
used to determine the specific financial loss of Susitna fish,
because of the mixed stock (see comment E-5-69/4).Many of
these fish are Kenai River or Kasilof River fish.
Response
We do not agree with the comment.The section on the
commercial fishery in Cook Inlet provides overall infor-
mation on the magnitude and value of the harvest and
provides some information on commercial fishermen as a
user group.Specific information on potential monetary
loss of Susitna salmon are presented in Section
3.7.1(b).
G-5-011 E-5-69/3:The first sentence states liThe specifi c impacts
which would result from construction of the Susitna dams have
not been determined in a manner which allows accurate quanti-
fication./I This statement inval idates comments in E-5-70/l-3
and statements in other Draft Exhibit E report chapters.
The paragraph does not address impacts to Susitna River salmon
resources downstream from Ta"lkeetna.Greater salmon occur-
rence exists in these areas than does the area further up-
stream from Talkeetna.
Response
The intention of the fi rst statement was to make the
point that the impact assessments on salmon are prelimi-
nary estimates.These preliminary estimates will be
reviewed as further data is collected and additional
analyses of these data takes place.The statements have
been revised in the text to more clearly reflect this
interest.
Impacts to salmon resources downstream from Talkeetna
are described as limited (see Section 2.3.1(b)(iii)).
The intent in Chapter 5 was to address areas of greatest
salmon impact not ares of greatest salmon occurrence.
G-5-012 E-5-70/3:Chinook salmon are harvested incidentally by com-
mercial fishermen in both upper and lower Cook Inlet.Project
impacts to these users'requires definition as do the criteria
for establishing II s ignificant quantities ll as stated.
Response
This statement has been changed to indicate that chinook
salmon were not included in the potential loss estimates
since the project impacts on chinook salmon are projec-
ted to be minimal.References are Chapter 3,Sections
2.2.1(a)and 2.3.1(b).
G-5-013 E-5-71/1:Personal communications with sport fish biologists
should be properly cited.
Response
The reference has been changed.
G-5-014 E-5-71/2:The discussion indicates the area and level of
impacts to resident and migratory fishes is not detennined.
Chapter 2 and Chapter 3 of the Draft Exhibit E present rela-
tively detailed presentations of these impacts.
The statement,"Data on specific angler use of the Susitna and
tributaries above the Talkeetna River confluence are virtually
nonexistent.II is incorrect.Data are available on angling
use in this area from the ADF&G Statewide Harvest Survey.
Impacts are 1 imited not only to areas upstream from the
Talkeetna River confluence,as implied.Sport harvest of
stocks utilizing the upper Susitna River are tho~ght to occur
elsewhere in Cook Inlet,as far south as the Homer area.
Response
We agree with your comment that Chapters 2 and 3 of the
Draft Exhibit E presented relatively detailed presenta-
tions of the impacts to resident and migratory fishes.
However,quantitative estimates of impacts must still be
considered preliminary.
Fishing activity from Talkeetna to the proposed damsite
are not defined in the ADF&G statewide harvest survey.
Angler activity in this area is aggregated into an
"other"category.This aggregation does not allow spe-
cific analysis of angler use by area.
We agree that impacts to sport harvest are not 1 imited
to upstream from the Talkeetna River confluence.The
text has been modified accordingly.
G-5-015 E-5-71/4:Table E.5.40 as referenced in the paragraph omits
burbot in the 1 ist of major species.This paragraph states
study is underway to define recreational values of Susitna
Ri ver fi sheri es resources whi ch may be impacted by the pro-
j ect.We are u nawa re of these stud i es,and they shoul d be
referenced.
Response
Burbot will be added to the major species list.Work
has been completed on the study mentioned.However,
continuation of that research is not currently under
contract;therefore,the reference has been removed.
I"',",
....
SECTION SUMMARY
G-5-016 The sport fish discussion is not complete nor does it compare
with the commercial section in the presentation of figures and
numbers.For example,population estimates are available for
several species as are data regarding recreational utiliza-
tion.These data are not presented.The research mentioned
as "currently underwail is not referenced.
Response
Recreational utilization data are presented to the
extent that these data are available.Population esti-
mates for sport fish are provided in Chapter 3,Section
2.2.
Some research has been completed on the "currently
underway"study mentioned.Further research will be
considered in future study plans.
G-5-017 E-5-71/5:Generally,the section on Subsistence Fi shing is
based on the assumption that the harvests which occur in Cook
Inlet are from the Susitna River.This assumption is not
necessarily true as most of the effort occurred in the Central
District where Kenai and Kasilof salmon stocks are taken.
Information in Stanek (1980)indicated the residency of sub-
sistence permit holders.Net survey information (Stanek,
unpublished data)is available depicting general areas uti-
lized by subsistence fishermen in the Northern District.
Similar information is available for the Central District
(ADF&G 1980).
Additional assessment of user groups should be made under the
category of domestic use of salmon.Salmon for domestic use
is obtained from commercial,sport,and subsistence fisheries.
Information on use of salmon resources in Tyonek is also
available (Stanek and Foster 1980).More recently,data were
coll ected duri ng the spri ng of 1982 on the spec Hi c uses of
salmon by Tyonek residents (Foster 1982).It is assumed that
most of the chinook salmon caught in the subsistence fishery
at Tyonek are Susitna River fish.
Response
The text has been modified to indicate that the subsis-
tence harvest is on mixed stocks with only an indeter-
minate portion of Susitna Basin fish as one component.
The collection of additional information on user groups
will be considered in future study plans.
G-5-018 E-5-71/2:The value of "subsistence"caught fish cannot ade-
quately be determined using a shadow price.Usher (1976)de-
scribed the difficulty in determining the value of wild foods.
The "point of subsistence capture estimate"woul d not ade-
quately estimate value.A more appropriate value would be the
processed cost.In addition t the nutritional value t cultural
value t and equipment investment must be added as cost quali-
fi ers.
It is also stated that value might be determined using "•••the
price of an equally desirable alternative food source."A
major question would be how an equally desirable food would be
determi ned when,for many peopl e,there is not a better source
in terms of quality,nutritional value t cultural value,social
value,and recreational value.Indeed,salmon is the standard
by which value is determined.
Response
The actual value of a subsistence-caught fish is a com-
bination of the value of the salmon as food,plus other
social,cultural,and perhaps,religious parameters.
The food component of this total value can be addressed
using a shadow price.Inclusion of the other factors is
required,however,to be able to make a complete valua-
tion.The text of this section has been revised.
We disagree with the second part of this comment.The
use of the conjunction "or"in the sentence quoted makes
this comment inappropriate.In the case where "an
equally desirable alternative food source"did not
exist,the first part of the sentence would then hold by
default •
G-5-019 E-5-73:Under the category of Game,there is not section on
methodology as under the Fish section.
In the section on "Guides and Guide Services",there is not
quantification of the number of guides operating in the area
or their revenue.In addition,quantification of the numbers
of people providing outfitting and transporting services that
are not guides is required.Information is available from the
ADF&G and from the Guide Licensing and Control Board.
Response
Section 3.7.2 has been modified to include introduction
that provides the general approach to the discussion of
wildlife resources/user interactions.
F-
,""
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1
I,
Section 3.7.2(b)has been modified to reflect the infor-
mation from the Guide Licensing and Control Board on the
number of guides that operate in GMU 13.The other
types of information mentioned in the comment are not
required by FERC·s guidelines for Chapter 5:Report on
Socioeconomi c Impacts.
G-5-020 E-5-74/3:There is no discussion of available data (Phase 1
of big game reports)that provide .estimates of losses of ani-
mals,effects of access,new hunting regulations,etc.,that
would influence "ava ilable harvestable animals."
In the category of ULodg.e Operators"no indication is made of
the amounts of services and relative value of services fur-
nished.
Many additional lOdges on the highway system provides services
to the individual s who hunt along the highway system or who
use the hi ghway system as a poi nt of departure.
Response
Section 3.7.2(b)has been ammended with information on
the most recent estimates of project impacts on the ani-
mal populations.There is,in the same section,a dis-
cussi on of the importance of regul at ions and how regul a-
tions may be influenced by the project impacts.
Refer to Section 3.7.2(a)(ii).Information on types of
services provided by the lodge operators in the imme-
diate vicinity of the project were listed.Examples of
the rates charged by one of the businesses for gui ded
hunting (as part of the services offered)were quoted.
Refer to Section 3.7.2(a)(ii).A list of lodges that
are f ouod on the hi g hway system h as been p rovi ded i n
response to this comment.However,it shduld be noted
that these lodges cater not only to fi sh and wi 1dl i fe
users,but also to people who ptJrsue various other acti-
viti es that may not be affected by the project.
G-5-021E-5-75j2:Apparently,the intention of the statement liThe
impactor the prop(Jsed project on the lodge operators woul d be
tndirect and of the same nature as that of the gtJiding indus-
try",II is that any direct impacts would be upon the resourc.es.
However,in the case of the inundation {)f land areas utilized
forhuntjng,camps and travel,theiJRpact would be direct.
Response
For a dfscussion of the types of project impacts on
lodge operators,se.,e Section 3.7.2(a)(ii).The question
of dire:et jind jndtrect impacts has been addressed.
G-5-022 E-5-76/2:Reference to the figure,71,000 animals must be put
into proper perspective with regard to the present management
for the population and range carrying capacity.
Response
The proper context of these est imates is discussed in
section 3.7.2(b)(ii).The text has been expanded for
thi s purpose.
G-5-023 E-5-76/3:The information presented deals with the residency
of hunters rather than the experiences they seek.
Response
The information deals with both the primary reason for
hunting and hunter residences.This is now reflected in
the subheading.Refer to Section 3.7.2(b)(ii).
G-5-024 E-5-77/1:A comparison is drawn between hunting pressures or
numbers of hunters during the early 1970's and 1980 1 s.Hunt-
ing pressure is a function of the number of permits and the
number of animals in recent years.This paragraph is mislead-
ing and,in fact,the comparisons are invalid.
Response
The importance of permits and other hunting regulations
are recognized in Section 3.7.2(b)(ii).In the same
section,in the discussion of demand and supply of hunt-
ing opportunity,it is recognized that the constaint on
demand due to the knowledge that chances of obtaining a
permit are limited.
G-5-025 G-5-78/5:The category "Experience Sought"is inappropriate
for the informational content of this section.It provides
information on characteristics of user groups.
Response
Refer to Section 3.7.2(b)(ii),where the subheading has
been expanded to accommodate the two types of informa-
tion which are contained in the referenced paragraph.
G-5-026 G-5-79/2:Although harvest ticket reports a 11 ow for the
reporting of multiple means of transportation,analysis of the
data all CM for only one primary means of transport.The use
of highway vehicles is the most conmon method of transport to
the general area.Within the area,however,other forms are
more common.
.....
G-5-027
G-5-028
Response
Footnotes to the data obtained from ADF&G clearly indi-
cate that hunters were asked to report the "primary"
means of transportation.The data itself then shows the
frequency of use as reported by successful hunters and
does not contradict the statements made in the draft
license application.For these statements,refer to
Se ct i on 3.7.2 (b)(i i )•
E-5-80/1:References shoul d be noted with rega rd to who is
doing the studies and their schedules for completion.
Response
Reference to on-going studies was an error.However,
future studies will consider the concern expressed.
E-5-80/2:The first sentence is misleading and inaccurate
because the implication is that regulations will be of great-
est impact to the users.Regulations are a function of
resource status and user groups characteri sti cs.Those regu-
lations which may be promulgated due to any reduction in quan-
tities of resources are a reflection of resource status and
perhaps increased user access to the area.
The statement,"In such cases,the project would cause little
or no additional reduction in hunting opportunity."when
referring to al ready stringent regul ations on some s'pecies is
inaccurate.Indeed,some regulations are more stringent as
with caribou,but may become even more stringent if range is
inundated and the area of available habitat is reduced.Regu-
1 at ions on i ncreas i ng numbers of moose in the regi on may be
relaxed in the near future,but if these prove unsatisfactory
and mitigation measures do not compensate for moose losses in
the impoundment area,further restrictions may be required.
Response
We agree with your comments.We did not mean to imply
that regulations would be of the greatest impact to
users.The text of this section has been modified
accordingly.
G-5-029 E-5-80/3:The statements i nd icat i ng that regu 1atory st ruc-
tures will be the major impact on the user is misleading and
inappropriately identified as the major impact on the user.
Re spon se
Section 3.7.2(b}(ii)contains a revised text clarifying
the references to the importance of regul atory regimes.
G-5-030 E-5-80/4:There is not indication of how the quality of the
surrounding environment will be changed thereby affecting the
expectations of the user.
Response
For a discussion of guides and guide services,refer to
Section 3.7.2(b)(ii).The text has been revised to
recognize the possibility of project impacts on quality
of hunting.For a discussion of aesthetic values of the
resource,refer to Chapter 8 of Exhib it E.
G-5-031 E-5-81/2:Subsistence users in the region have not been iden-
tified with regard to the use of game resources,except cari-
bou.In this case,a set of criteria were developed which
qualify a certain number of people on a first-come,first-
served basis.For other game resources,further work is re-
quired to determine resource use patterns.Information provi-
ded in the text refers only to caribou.
A1tho~gh "bringing home food meat may be the 'main goal,II.
there are other goals of the u~r.These include:(1)ob-
taining high quality goods at a relatively low price;(2)ful-
filling certain cultural traditions and obligations to the
community and/or family;(3)attaining goals of self-determi-
nation and independence of welfare programs;and (4)attaining
the knowledge and ability to support one's self.
Response
The text has been revised to take this information into
consideration.Please refer to Section 3.7.2(b).
G-5-032 E-5-82/34 and E-5-83/1:Data limitations on trappers do
exist;however,a survey of trappers in the local impact area
would be appropriate.
Response
We disagree with the useful ness of conduct i ng such a
survey.It is believed that many of the people who live
in Mat-Su Borough and Cantwell trap in the winter as a
means of supplementing their income.However,that is
not to say that their trapping occurs in the areas to be
affected by the project.
As part of the land use and wildlife studies that were
performed for the Su s itna project,conversati ons with
trappers and local residents indicated that a low magni-
tude of trapping activity occurs in the areas in which
furbearer habitat is expected to be affected by the
Susitna project (the impact area as defined in Chapter
3).This was substantiated by data available from
ADF&G's 1981 south-central trappers survey.As a result
of the 1 imited number of i ndi vidual s that woul d be
r""affected by the project and the "j ndicati ons that the
biological impacts on most species of furbearers will be
limited,it was concluded at the time that the benefits
of conducting such a survey would not justify its cost.
As more is known about the probable biological impacts
of the project,a survey of trappers in the local impact
area will be reconsidered.
G-5-033 E-5-84/5:The term "on balance ll is unclear.There is some
question as to whether·existing trappers will benefit or if
there will just be more numbers of trappers due to access.It
is doubtful that increased access to the inundated area will,
in fact,benefit trappers since fluctuating water levels will
not benefit more aquatic species,especially if draw-downs
occur during winter months where food caches and burrows may
become inaccessible.
Response
It is true that the benefit of the increased access pro-
vided by the access road and transmission lines to the
trapper lI user groupll as a whole does not necessari 1y
mean that existing trappers (trappers who are currently
trapping-in the Middle Susitna Basin)will benefit.
More likely,the additional access,to the extent that
it is permitted to be used,will benefit trappers who do
not currently trap in that area but will find it to be
more feas"j b1e than before.A statement has been added
to the introduction on users of furbearers to clarify
this distinction.
It is true that the fluctuating water levels of the im-
poundment areas will not benefit aquatic species 1 iving
in that part of the Susitna River,and this section did
not mean to imply that there will be increased use of
the inundated areas by aquatic furbearer species after
construction of the dam •....
i
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G-5-034 E-5-85/2-3:Construction of access roads and transmission
1i nes .may·provide added access to some a reas for trappers.
However,the loss of habitat and increased pressure on martens
from trapping and human activity generally may reduce the num-
bers of marten and thereby be a major loss to trappers.Para-
graph 3 more accurately portrays 1 ikely impacts than does
paragraph 2.
Response
There was a typographical error in the section on
impacts to pi ne marten in whi ch part of the paragraph
was repeated.This has been corrected.
The possibility that the benefits to trappers associated
with increased access to marten in the project area
could be limited to the short-and medium-term,and that
overtrapping could result,has been added to this
section.
G-5-035 E-5-86/3-4:The assessment of trapping activity and its
importance to users in the local impact area should be more
extensi vee There is some confusi on as to who an Al askan
trapper is,compared to IIrecreationalll trappers who supplement
their income by trapping.Especially when,as stated in
paragraph 4,lilt is estimated that there are a large number of
residents in the local impact area who do some trapping on a
part-time basis •••II
,more information is required on how large
thi s group is and the 1 evel of importance t rappi ng is to
them.
Response
While there is a large number of residents of the local
impact area (the socioeconomic impact area,which in-
cludes a large geographical area as a result of the
rural nature of the area and the dispersed population
living in it)who trap on a part-time basis,very few of
the individuals trap in the areas in which furbearer
habitat or access will be affected by the Susitna pro-
ject.For this reason,primary data collection on this
user group was not conducted.
In addition,secondary information is limited.The
information on the activity of residents of the local
impact area who trap on a part-time basis was derived
from a report on resources in the Mat-Su Borough.This
source has now been added as a reference in the text for
clarification.
The section now contains no distinction between IIcommer-
cial ll and IInoncommercialll trappers,since part-time
trappers will often sell the furs they obtain,and since
there is no data to support such a distinction.
G-5-036 E-5-88/4-6:There is no mention of what people1s attitudes
were toward changes in sections other than 3.1 and 3.5.
Because natural resource use is important in the area,there
should be some indication of local attitudes toward changes in
the availability of resources.
It,therefore,follows from E-5-89/3 that only the attitudes
presented with regard to Sections 3.1 and 3.5 are addressed.
No further mention is made regarding measures to mitigate
impacts to resource users.There should be some indication as
to what can be done to resolve the impacts.
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Response
People's attitudes toward changes that could result from
developing hydropower on the Susitna River are contained
in Stephen R.Braund &Associates,March 1982:Susitna
Hydroelectric Project Sociocultural Studies (prepared
for Acres American Inc.and the Alaska Power Authority).
Mr.Braund1s main reason for learning about these atti-
tudes was to find out how people felt about the various
access corridors that were under consideration at the
time.Mr.Braund asked open-ended questions and in the
process,somethi ng was 1 earned about local attitudes
toward changes in the avail abil ity of resources.We
refer you to this document because it meets your infor-
mation need and,as important,putspeoplels attitudes
about various potential changes into perspective.
Local users I att itudes will conti nue to be taken into
account as project design work process and mitigation
measures are further refined.Through survey work
scheduled during 1983 in Cantwell and other communities,
additional information on users·attitudes,and the
relative importance of fish and wildlife as income will
be available to support project design and mitigation
efforts.
DEPARTMENT OF FISH AND GAME
GENERAL COMMENTS -RECREATIONAL RESOURCES
Comment 1
This report segment lacks supportive data for many statements related
to project impacts.Statements or discussions are often simpl istic,
based on faulty assumptions and mehtodologies;and lack the necessary
definitions to provide adequate project impact analysis.
In general,analysis of current trends in recreational boating and
fishing in Upper Cook Inlet,leads to the conclusion that many of the
recreational use projections in this report are far too conservative.
Di scuss ion of project impacts ; n some ;nstances ; s 1 imited only to
statements that anticipated impacts are similar to others discussed,or
to other impoundment projects.The specific comments that follow will
demonstrate many of these deficiencies.
Response
The final version of Exhibit E addresses these genera1 comments.
The recreational use projections as presented are considered
reasonable estimates.If the projections do prove to be too con-
servative,the additional use can be easily accommodated during
Phase 5 of our recreation plan development.
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SPECIFIC COMMENTS
G-7-001 Fairbanks is not considered to be within the South-Central
area of Alaska.
Response
We agree,text has been changed.
G-7-002 E-7-13/3:The paragraph implies members of the KnH Kanoers
and Kayakers are representative of the overall increase in
recreational boating within the Susitna River basin.They are
not,as they comprise only a minor segment of the recreational
boating users.Substantially greater increase in boating,and
water oriented recreation with other types of watercraft has
occurred.
Response
The emphasis has been changed in the text.
G-7-003 E-7-15/3:Lake Susitna,Tyone Lake and Tyone River are
already major recreation areas.They are not potential areas
for "future clevel opment II as stated in the text.Both Lake
Susitna and Tyone Lake have numerous recreational cabins loca-
ted around their perimeters.
Boaters are not able to float down the Susitna River and up to
Lake Loui se as stated.Powered watercraft a re necessary
(often equipped with jet of air-drive propulsion)to ascend
the Tyone River,to Tyone Lake.
Response
Although already major recreation areas,future develop-
ment is anticipated in these areas.
We have clarified boater access to these areas.
6-7-004 E-7-20/1:We are not aware of any recreati onal boaters
traveling upstream on the Talkeetna River to Stephen Lake for
fishing,due both to the distance and presence of major rapids
on the Talkeetna River.
Response
This has been eliminated from the text.
G-7-005 E-7-24/2:Management of lands for public recreation and
appreciation as presented in the paragraph requires additional
clarification.It is not clear what will be accomplished to
achieve these goals.
Response
Thi s comment has been incorporated in changes in the
text.
G-7-006 E-7-25/1:This paragraph refers primarily to wildlife related
impacts,and little mention is made of potential fisheries
impacts.In addition to quarry activities discussed for
Tsusena Creek,it can be anticipated that the lower reaches of
all Susitna Ri ver tributaries within the impoundment may be
effected by vegetative clearing,road construction,gravel
removal,as well as the stated water quality changes.
Paragraph one al so implies the actual construction area is a
relatively minor one It in fact will be almost 50 miles in
length,and one which does not constitute only a minor incon-
venience to recreational users.
Response
Refer to mitigation in Fish Wildlife and Botanical
Resource chapter (Chapter 3),Exhibit E.
G-7-007 E-7-25/2:As in the previous paragraph the discussion is
directed primarily to wildlife and wildlife related impacts.
The discussion fails to address the fact that the lower
reaches of all clear water tributaries to the Susitna River,
within the impoundment,will be inundated.These areas are
the most valued aquatic habitats at present,and are the areas
where all recreational use currently occurs.
Response
Refer to Chapter 3,Fi sh,Wil dl ife and Botani cal
Resources,for environmental impacts and conditions of
the Susitna project.Not all recreation use is associa-
ted with the lower reaches of the clear water tribu-
taries as stated above.Not even all fishing occurs in
these zones as exemplified by Stephan Lake,Deadman
Lake,Tsusena Lake,Butte lake,to name a few.Existing
recreation use is described in Section 2.1 and 2.2.
G-7-008 E-7-25/5:This paragraph does not clarify why fish popula-
tions are not expected to occur in the impoundment.State-
ments in Chapter 3 (fish,wildlife and botanical resources)
indicate the impoundment waters are expected to provide
additional fisheries habitat.
The apparent inconsistency in these statements,and report
segments,requires clarification.
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Response
The text now references the exact s ituat ions as des-
cribed in Chapter 3,Fish,Wildlife and Botanical
Resources.
G-7-009 E-7-25/6:This paragraph is unclear as to locations of areas
where sport fishing will be disturbed.Dredging reference is
to "channel ll but does not clarify if it is within the Susitna
River or the tributaries where sport fishing currently
occurs.
Additionally,dredging may create impacts other than just
changes in water quality as stated.Quarry activities,road
~onstruction and resultant recreational use restrictions as a
result of these activities are not discussed.
Response
This is addressed in Chapter 3,Fish,Wildlife and
Botanical Resources.Access to ,operating construction
sites will not be allowed.However,these construction
sites are not near current recreation use areas.
G-7-010 E-7-26/1:The flows predicted during the fill period will
not only "temporaril y dimi ni sh ll fi shi ng opportuni ties as
stated,but will totally eliminate some of the slough and side
channel habitats.The effects of slough dewatering during the
fill period may result in the loss of several year classes of
some species of fish,creating not a temporary impact,but a
1I1 0ng -term ll one.
Response
As mitigation for potential lost fishery resources ac-
cess to new areas has been provided wi,thin the recrea-
tion plan.Refer to Chapter 3,Fish,Wildlife and
Botanical Resources,for mitigation measures dealing
specifically with these issues.
G-7-011 E-7-26/2,
There is no information to support the statement of increased
fishing opportunities with increased winter turbidity levels
as stated.
Response
The comment has been changed in the text.
G-7-012 E-7~28/1:No data exist to support the statement that the
presence of construction workers will not have detrimental
effects to the recreational resources,nor is there an ade-
quate discussion of what constitutes "proper control."
Response
The recreation plan is intended to provide recreation
opportunities for all people.Special recreation facil-
iti es are provi ded for constructi on workers..There is
no evidence to imply they will damage recreational
resources.Their presence will be controlled by con-
tract.
G-7-013 E-7-28/2-3:References to the impacts of 550 workers,the
loss of 32 miles of river,construction of a 34-mile road,and
current uses of the river are treated superficially.Impacts
to rec reati onal resources resulti ng from improved road access
alone wi 11 affect not onl y waters wi thi n the impoundment but
those of adjacent areas as well.
Response
It has been acknowledged (Section 5 for example)that
the road will access new areas incl uding water-rel ated
sites,which fulfill mitigation of lost recreation
resources elsewhere.
G-7-014 E-7-29/3:This paragraph is speculative.No data are presen-
ted to support the statement that winter fishing is unaffected
by increased turbidity level s.The increase in turbidity
levels requires definition.
Response
Refer to Chapter 3,Fish,Wildlife and Botanical
Resources.
G-7-015 E-7-30/3:No data are presented to support the assumption
that recreational use is non-specific to the area,and can
simply be moved to adjoining areas.A definition of subject
species and recreational uses discussed is required.
Response
Data does not ex i st over the maj or portion of the study
area to make the determination more specific in terms of
species and their use by hunters or fishermen.It is
clear that the use of the area by recreationists is more
tied to the pote.ntial for access.Refer to Chapter 3,
Fish,Wildlife and Botanical Resources,for species
descriptions and mitigation measures.
G-7-016 E-7-37/4:Data extracted from the 1970 report should not be
used When similar data from the 1976 and 1981 reports are
available.Existing ADF&G data suggest that per capita parti-
ci pati on days and projected increas es as publ i shed in the
1970 plan,and for demand estimation,are inappropriate for
1980 and 2000.
.....
Response
Data developed in the 1976 and 1981 reports are not
applicable as base data because participation days per
capita statistics were not provided.
6-7-017 E-7-38/1:
shoul d not
that travel
is faulty.
Q,lal ity is not the same for all activities and
be discussed as though it were.The assumption
time and cost totally influences recreational use
,....
Response
Refer to Sections 4 and 5 for the discussion on recrea-
tion concept,inventory and evaluation.We agree travel
time is not the only criteria influencing recreation
use.The willingness to drive or fly is only one of
several criteria used.Attractiveness,for example,was
al so used.
6-7 -018 E-7 -39/4:Data in thi s paragraph are interpreted incorrectl y.
A careful review of the evidence cited does not suggest that
fishing effort has been decreasing in the impact area,or even
that it has decreased rel ati ve to statewi de trends.Areas
used for yearly comparisons do not represent the impact areas.
In addition,areas used for comparison were not the same from
year to year.
Response
These data have been re-examined to more accurately
describe the existing trends in this section.
6-7-019 £-7-4·0/4:No data presented in this paragraph to support the
assumption of a decl ining recreational demand in the Susitna
River area.The discussion does not define the other
"a ttracti on val ues,"nor does it address the increasing recre-
ational needs of an increasing human population in the rail-
belt area.
Response
Data for
E.7.14.
inherent
5.
the asserti ons are incl uded in Tabl es E.7.2-
Attractiveness of the study area and its
recreation potential is discussed in Section
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G-7-020 E-7-41/4:The doubl ing of recreational use as presented is
considered conservative.With the addition of a road system
into the upper SusitnaRiver area and the expanding human
population,greater increases are expected to occur.
Response
The above forces were all considered as well as other
criteria (site attractiveness,other recreation site
attractions and competition,remoteness)in determining
estimated recreation use.In addition Phase 5 recrea-
tion plans are intended to provide additional resources
if demand is higher than projected.
G-7 -021 E-7 -41/6:With the decreased f1 ows downstream from Devi 1
Canyon dam,and improved road access to the dam site,we would
expect increased days of recreational use by kayakers,
canoers,and rafters.
Response
Downstream recreation w"ill be considered during supple-
mental recreation study prior to June 30,1983,and
included in the Exhibit E supplement.
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DEPARTMENT OF FISH AND GAME
GENERAL COMMENTS -LAND USE
This document is written in such a general manner that it is to diffi-
cult to comment on.It contai ns i nformat i on that contradicts state-
ments made in other chapters,and ignores potential impacts to land use
and access downstream from Gold Creek.
Although mitigation of impacts to land use is mentioned,there is no
commitment to implementing possible measures.In addition,.there is no
discussion of which measures will be implemented or when or how.Some
impacts to land users are completely glossed over and it is suggested
that users will have to accept impacts or move elsewhere.
Response
Revisions have been made to correct any contradictions that
occurr.ed in the Draft Exhibit E.The report continues to
focus on land use in the project area (i.e.,upstream of Gold
Creek);however,additional information on floodlands down-
stream has been added.
Some land use mitigation alternatives have not been committed
to,since they are outside the jurisdiction of the Alaska
Power Authority (see ADF&G comment on Chapter 3 numbered
G-3-074).
SPECIFIC COMMENTS
G-9-001 E-9-2/7:Activities such as consumptive,recreational or sub-
sistence use of fish and wildlife resources are considered as
dispersed use and isolated non-site-specific activities which
do not i nvol ve a commitment of resources at any parti cul ar
site.
Ha rvest,and product i on of harvestab 1e resources,is spec i-
fically dependant on a commitment of a specific amount of land
(habitat).Participation in the harvest of fish and game
(1 eve 1s of effort)is therefore site-specific.Consequently,
the loss of species habitat including the lands and waters
used as harvest areas will have a measurable impact both on
management of wildlife and on public use.
Response
For the purposes of the land use report,"site-specific
activity includes that involving some form of long-term
development or other commi tment of resources."Th is
definition includes the construction and maintenance of
structures or the alteration and maintenance of the
terrain.Although hunting,fishing,and trapping re-
qu i res the use of equipment,that equi r;rnent can eas ily
be relocated without mechanical assistance.The aban-
doned activity site and surrounding terrain would not
have been si gnifi cantly di stu rbed.The reduct ion of
fish and wildlife is a commitment of resources;however,
with the implementation of sound harvest techniques the
resource is replenished at a specific activity site
withi n the proj ect area.The loss of speci es habitat
and the management techniques used to minimize the
impact of the project are included in Exhibit E,Chapter
3.
G-9-002 E-9-3/5:M assumption is made that because the project is
isolated and located in a subarctic environment,extremely low
density 1 and use results.However,use of 1 and both by the
public and wildlife is seasonal and can be very high for a
specific season.
Response
The result of the remote location of the project area is
that no roads exi st within the project area.The few
existing trails are primitive and allow foot or ORV use
only.Existing access into the area is predominantly by
ai r and for the purpose of short-term,recreational
hunting and fishing.Existing land use is seasonal but
it is not high density.
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G-9-003 E-9-15j3:Hunting use of Zone 1 is 1ess than in Zones 2 and
3.However~hunting in Zones 2 and 3 is basically associated
with the existing lodges and cabins and is more readily quan-
t ifi ab 1ethan i dent ifyi ng i nde pendent hunte r ecHo rt.Use of
ADF&G harvest stat istics woul d hel p quantify i nde-pendent hun-
ter effort.
Response
The independent hunter effort is quantified for caribou
and moose in Section E.5.3.7.2 -Local and Regional
Impacts on Fi sh and Wildl He Groups -Game.These
values are call ed hunter success rates.The project
area crosses several ADF&G Game Management Units.Con-
sequently ~it is difficult to rel ate estimates of har-
vests in particul ar game units with harvests "i n the
project impact area.Quantifying harvest levels in the
project a rea may be further cons i de red in Phase II of
the Susitna Hydroelectric Project •
G-9-004 E-9-5:Reference to rating public use of lands occurs
throughout Chapter 9 and is ultimately renected in Figure
E.9.5~a map which identifies 11 use or sample use sites with
evaluations of use intensities for each site.The designation
of low,medium,and high intensity uses should be defined.
Response
These comments have been addressed in Section E.9.2.2.2-
Existing Land Use Activity.
G-9-005 E-9-32/1:Proposed mitigation for the loss of public use of
project lands has only addressed the consideration of estab-
lishing restrictive access regulations.Other mitigation
alternatives should be identified including replacing oppor-
tunities lost with lands that provide equal value.
Response
These comments have been addressed in Section E.9.3.4.3-
Access -Mitigation.
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DEPARTMENT OF
COMMUNITY AND REGIONAL AFFAIRS
ALASKA POWER AUTHORITY
..-,
334 WEST 5th AVENUE·ANCHORAGE,ALASKA 99501
August 3,1983
Phone:(907)2n·7641
(907)276-0001
Mr.Mark Lewis
Connnissioner
Department of Connnunity
Pouch B
Juneau,Alaska 99811
and Regional Affairs
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Subject:Your March 16,1983 Letter Connnenting on the Susitna
Hydroelectic Project Draft FERC License Application
Dear Connnissioner Lewis:
Thank you for reviewing the draft Susitna Hydroelectric Project FERC
License Application,Exhibit E and for providing comments related to
the Socioeconomic and Land Use chapters.Your comments have been
reviewed in detail by appropriate staff and are discussed in Attach-
ment A.
It is important to note the following points pr~or to examining Attach-
ment A.First,several concerns raised by your Department regarding
the draft License Application were addressed in the Socioeconomic and
Land Use chapters of the License Application submitted to the Federal
Energy Regulatory Commission in February,1983.Second,a working
paper,entitled Project Assumptions,Methodology,and Output Formats
(July 1983),has been prepared.The purpose of this paper (Working
Paper IJ:l)is to present assumptions and methods that were used to pro-
jectpotential socioeconomic impacts 6f the proposed project.Addi-
tionally,Working Paper IJ:l describes the format that will be used to
report the results of future socioeconomic analyses.This document,
which has been enclosed for your use,more fully addresses many of the
concerns raised in your letter.Third,in direct reponse to your
letter,an interagency workshop was organized and held in Palmer on
July 19,1983.(Dave Tremont of your staff attended this workshop.)
Follow-up meetings were held on July 19 and 20 in Trapper Creek and
Talkeetna.The purpose of the workshop and follow-up meetings was to
provide your Department,and other agencies and organizations,with an
BILll
Mr.Mark Lewis
August 3,1983
Page 2
opportunity to more fully understand and to contribute to the socio-
economic impact projection process.The workshop focused on detailed
methodological discussions of information presented in Working Paper
11,as well as additional concerns raised by participants.
We look forward to continuing our working relationship with your staff
on issues of concern related to the Susitna Project.
Sincerely,Lr?1J .l
Erif P.Yould
Executive Director
TA/ljc
Enclosures as stated
cc:Dave Tremont,DCRA,Anchorage,Alaska
William Wakefield II,FERC,Washington,D.C.
Dwight L.Glasscock,H.E.,Anchorage,Alaska
Jane Drennan,PMS,Washington,D.C.
B/L/l
ATTACHMENT A
The following discussion provides a point-by-point
issues of concern raised by tbe Alaska Department
Regional Affairs'March 16,1983 letter.
Comment #1 (Page 1)
response to the
of Community and
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The assumptions underlying the socioeconomic analysis imply significant
and yet uncommitted policy positions on the part of the State.For
example,Exhibit E contains assumptions regarding the origins of the
labor force,housing opportunities for that labor force,and mobility
of the work force during construction.Implicit in these assumptions
are policies addressing local hire and job training,worker residence
at the project site,mode(s)of access to and from the construction
site,and the use of construction camps as opposed to transporting
workers.Should any of these implicit policies fail to materialize as
presumed,the nature of the impacts described in Exhibit E could change
drastically.
In order to clarify the relationship between assumptions of the socio-
econom~c impact model and State policy,the Department's recommendation
is that the Alaska Power Authority provide a process for key State
agencies to become actively involved in the methodology and use of the
model.This would,in our opinion,serve two useful purposes.One,it
would enable the State to constructively critique the assumptions of
the model,particularly in light of existing State policies.Secondly,
a better understanding and practical use of the model by State agencies
could help form the basis for establishment,of new State policies for
the project.In the same manner,involvement of the Matanuska-Susitna
Borough in the critique and application of the model should be provided
for,should the Borough choose to participate.
Response
It is recognized that several assumptions underlying the socioeconomic
analysis are based on uncommitted policy positions on the part of the
Alaska Power Authority,and that the results of the impact analysis
could change if the implicit policy positions and corresponding assump-
tions do not occur.As described in Working Paper #1,the impact model
is designed to analyze multiple scenarios and to provide sensitivity
analyses of changes in key assumptions,including the assumptions and
policies delineated in Comment iF!(such as local hire,construction
camp,and worker transportation issues).These model attributes were
discussed at the socioeconomic workshop and are described on pages 10,
16-18,37, 39,and 41-52 of Working Paper #1.
As described in the cover letter,in response to the second part of
Comment #1,an interagency workshop was held July 19,1983 in order to
actively involve key State agencies and the Matanuska-Susitna Borough
in the methodology and use of the socioeconomic model.The workshop
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and subsequent meetings ~n Trapper Creek and Talkeetna gave the
agencies and communities an opportunity not only to understand and
critique assumptions and methods used in the model,but also to guide
the model I s use.
Comment #2 (Page 2)
It is the Department's op~n~on that the socioeconomic impacts identifi-
ed in Exhibit E as resulting from the Susitna project are significantly
understated.
As was described in the Department's review comments for the Susitna
Project Feasibility Study,we feel that the proposed impacts from the
Susitna project will far exceed those expressed in Exhibit E.We base
our predictions on the impact historically caused from other large
construction projects in Alaska,most notably the Trans-Alaska Pipeline
project (TAPS).
In order to account for a larger impact than described in Exhibit E,
the Department recommends that an alternate socioeconomic impact model
scenario(s)be established to represent,as closely as possible,
appropriate factors of the TAPS experience for the Susitna project.At
a minimum,this alternative analysis should assess those impacts due to
induced population growth and increased numbers of people seeking
employment.For example,Exhibit E (on page E-5-20)describes that
within the period 1983-1991,the latter date representing the peak year
of the Watana construction phase,the population of the Matanuska-
Susitna Borough is proposed to increase by approxiamtely 22,355
persons.Of this total,only 4,700 persons are proposed to be
connected to the project,including direct and indirect/induced workers
and their dependents.This estimate appears to be low,particularly in
light of the experience gained from the TAPS project,when a far larger
than anticipated influx of people was attracted to the area.As a
result,this in-migrant population competed wi th local res idents for
both direct and indirect/induced jobs and greatly strained the capa-
bilities of public services and facilities.The Department feels that
the types of impacts found with the TAPS project could likely reoccur
with the Susitna project.We recommend,therefore,that a model
scenario be developed which utilizes information gained from the TAPS
experience in calculating population influx and resultant impacts.
Even with the difficutly in predicting precise numbers of secondary or
induced workers and families,the model can at least be used to
generate likely or alternative scenarios to guide decision makers ~n
assessing potental impacts and preparing mitigation measures.
Response
The socioeconomic impacts identified in Exhibit E of the License
Application projected to result from the construction and operation of
the proposed Susitna Project are based on a specific set of assumptions
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outlined ~n Chapter 5.As discussed at the workshop and in Working
Paper #1,the projected impacts may change if different assumptions and
project scenarios are used.Thus,the model selected for use in the
socioeconomic analysis is capable of providing impact projections for a
wide variety of scenarios and assumptions,including a limited analysis
of speculative in-migration by job seekers.
Based on characteristics of the Susitna Project in contrast to the
TAPS,the analysts responsible for conducting the socioeconomic
analysis for the Susitna Project do not anticipate that the Railbelt
Region will face the same magnitude of demand for housing,facilities,
and services due to the Susitna Project as was experienced by the City
of Fairbanks during the construction of TAPS.For example,the work
force requirements for TAPS rose to 22,000 workers wi thin two years.
The lower-48 was experiencing a moderate to severe recession and wages
associated with the pipeline work were very high.In contrast,for the
Susitna Project the peak construction work force is estimated to
increase steadily over five years,peaking at approximately 3,500
workers;the lower-48 mayor may not be in a recession;and the real
wage differential,which has decreased significantly,will most likely
continue to close.As a result,potential impacts due to speculative
in-migration of job seekers are.likely to be considerably smaller for
the Susitna Project than they were for TAPS.Thus,due to differences
in the size of the construction work force,length of the construction
period,and to changing economic and wage conditions,there is little
basis for anticipating that the socioeconomic impacts related to TAPS
and the Susitna Project would be comparable.
Comment #3 (Page 2)
Responsibilities for prOV1S~on of services and facilities within the
local project area (Matanuska-Susitna Borough)should be more clearly
defined for the State,Borough,and the Contractor.
Exhibit E does present a discussion regarding projected public service
and facility needs for the Matanuska-Susitna Borough (and selected
cities within)both in base-case and project-induced scenarios.More
specific data,however,could have been provided regarding the costs
and revenues anticipated for the State,Borough,and Contractor for
specific services and facilities required under both scenarios.Such
information,for example,would clearly illustrate the levels of State
support anticipated both with and without the Susitna project .
Response
An analysis of State,Borough,and Contractor responsibility for the
prOVks~on of services and facilities within the local impact area
(e.g.,the Matanuska-Susitna Borough,and communities therein and
nearby)will become more clearly defined during the mitigation planning
process scheduled for the Fall of 1983.·An Impact Mitigation Plan is
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also scheduled to be developed by March 1984.This plan will be
updated,as necessary,due to changes in the local project area,prior
to project construction.Final responsibilities will be defined prior
to the initiation of construction.
Comment #4 (Page 3)
Legal responsibilities for access to the project site both during and
after construction need to be clearly defined.
Exhibit E (Chapter 9)briefly discusses the location of the proposed
access road and its potential future use.It is also discussed that
during the construction phase,only project personnel will be allowed
passage on the road.Land management planning for the access road area
is proposed to also take place during the construction phase.
The Department recommends that legal responsibilities should be clearly
identified prior to opening of the road for any purpose.This action
would clarify,for example,maintenance respons ibilities and liable
parties in the event of unauthorized use of the road.Secondly,the
Department recommends that land use planning take place before the
original road is constucted in order to incorporate future land use
considerations within the original road design and layout.Similar
considerations (as described above)should be given to the proposed
rail access route to the Devil Canyon site.
Response
Legal responsibility for access to the project site (both road and
rail)will be identified prior to the opening of the road for any use.
The legal issues to be resolved will include the reponsibilities for
winter plowing and maintenance as well as enforcement and the estab-
lishment of liable parties in the event of unauthorized use of the
road.Furthermore,prior to construction of the access route,potent-
ial land use conflicts will be identified and future land use consider-
ations will be assessed.
Comment #5 (Page 3)
The possibility of dam failure should be taken into consideration for
the Susitna project,particularly for areas downstream of the dam.
This is a critical issue given the size of the dam,and impoundments,
and the proven seismicity of the project area.The Department has
stressed in our previous comments that the downstream flood hazard due
to catastrophic dam failure should be mapped and appropriate stipula-
tions should be placed on downstream development in order to prevent
potential loss of life and property.
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Exhibit E (Chapter 6)gives attention to seismicity,however,it is
simply stated on Page E-6-36 that the main structures (dams)have been
analyzed to accommodate the ground motions induced by the maximum
credible earthquake.The Department stresses,however,that our above
concerns be addressed within the land use planning for the project
area.
Response
The Susitna Dams will be designed and constructed so that downstream
areas are protected from the consequences of a fai lure or untimely
release of water from the reservoir.The dam foundations will be
designed to be stable under all conditions and capable of carrying the
weight of the structures.The des ign criteria will be such that the
strains on the dams resulting from external,static,and dynamic forces
such as earthquakes,will be maintained within acceptable limits.The
selected dam types,earth-rockfill and concrete arch,have proven
records of safety.Operation and maintenance procedures will be
developed to assure that the dams and their appurtenant facilities will
be properly maintained throughout the life of the project.Structures
and foundatins will be monitored so that any physical change can be
detected and any necessary corrections can be promptly made.
Flood discharges on the Susitna River will be controlled by operation
of the powerhouse,the valved outlet facilities,and the service and
emergency spillways.The powerhouse and gate outlet facilities will be
operated so that the peak outflow from all floods will be less than the
peak inflow to the reservoirs.In the case of the 50-year return
period flood where the inflow peak is about 65,000 cfs,the ou tflow
will be about 31,000 cfs.Therefore,with these project releases,no
changes in the land use downstream of the project area is anticipated.
The operations manual for the Susitna Project will include appropriate
public safety coverage.This document will include a specified proce-
dure should a catastrophic dam failure occur.
During the final design and construction phases of the Susitna Project,
the Power Authority will map areas downstream of the dams for potential
flood hazard associated with any catastrophic dam failure.This
mapping will be carried out according to the procedures recently
established by the U.S.Bureau of Reclamation and the Corps of Engi-
neers for their major water retaining structures.
Comment #6 (Page 3)
More infqrmation needs to be provided about the proposed permanent
townsite.
B/L/1
5
Exhibit E presents in various chapters the concept of a permanent
townsite to be established at Watana.Chapter 8 (Aesthetic Resources)
for example,presents a conceptual layout of the proposed townsite.
The Department is concerned that if a permanent townsite is to be
established near the project,much more information needs to be
provided regarding:physical site suitability,liveability factors,
community expansion areas,government,and opportunities for economic
diversification.Additionally,the costs and providers (S tate,
Matanuska-Susitna Borough,community)of facilities and services for
the community should be specifically identified.
Response
Information on the location of the proposed permanent townsite and the
expected services and facilities is being developed as part of the on-
going studies to support the licensing process.The design and layout
of the permanent townsite will be developed in cooperation with the
Department of Community and Regional Affairs,Native Corporations,the
Matanuska-Susitna Borough,and other responsible state and federal
agencies.
Comment #1,Socioeconomic Impacts (Page 4)
It would be helpful to summarize in one section of Chapter 5 all the
assumptions,standards,and input variables that were used within the
impact model.Data sources of each should be cited.
Response
Assumptions,standards,and input variables are summarized for the
economic-demographic,public facilities and services,and fiscal
modules of the impact model in Sections V,VI,and VII of Working
Paper #1.Additionally,relevant assumptions,standards,and input
variables were discussed at the socioeconomic workshop.
Comment #2,Socioeconomic Impacts (Page 4)
Chapter 5 does not identify if,and when,sens1t1v1ty analysis will be
done for key variables used in the socioeconomic impact model.
Response
Refer to the response to Comment #1,page 1.
Comment #3,Socioeconomic Impacts (Page 4)
It would be useful in Chapter 5 to portray 1n graphic format the data
regarding baseline and project-induced costs versus revenues.The
percentage of costs and revenues per contractor,State,and Matanuska-
Susitna Borough should also be shown in graphic format.Additionally,
if various scenarios are to be eventually portrayed by the model,
graphic representations of costs versus revenues per scenario would be
useful.
BILII
6
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......
Response
The percentage of costs and revenues per contractor,the State,and the
Mat-Su Borough will be estimated in the Fall of 1983.Graphic formats
will be considered as one of several alternative presentation tools.
Comment #4,Socioeconomic Impacts (Page 4)
On page E-5-23,reference is made to the absence of impact on the
Matanuska-Susitna Borough School District because a contractor provided
school at the construction'site will serve the residents.As specified
in previous Department comments,under Alaska Statutes,the Matanuska-
Susitna Borough is mandated to exercise areawide education powers.
Therefore,the District would be responsible,by law,for the provision
of educational facilities and services to all residents of the Borough.
This does not prohibit the project contractor and the School District
from formally agreeing to share costs or take other steps to lessen
impacts;however,any educational facilities,programs,and faculty
will have to comply with School District standards and guidelines.
Therefore,there will be an impact on the School District.
Response
The potential impacts on the Matanuska-Susitna School District will be
re-evaluated and analyzed in more detail in the Fall of 1983 as part of
the overall revisions to the socioeconomic impact analyses.Revised
socioeconomic projections are scheduled to be available on computer
print-outs in November 1983.
Comment 1~5,Socioeconomic Impacts (Page 4)
Page E-5-47:The 1981 vacancy rate for housing (outside of incorporat-
ed communities)within the Matanuska-Susitna Borough is given as 25%.
Does this figure include secondary homes?
Response
The 1981 vacancy rate for housing outside of incorporated communities
but within the Matanuska-Susitna Borough (25 percent),excluded second-
ary homes where houses were easily identified as secondary dwelling
units.Nonetheless,the Matanuska-Susitna Borough Planning Department
population and housing survey inadvertently included some secondary
dwe ll:i.ng uni ts •
Comment #6,Socioeconomic Impacts (Page 4)
Page E-5-137;Table E.5.35:A more detailed breakout of costs and
revenues for each service or facility per year would be useful to in-
clude somewhere in Chapter 5 as back-up data to Table E.5.35.
B/L/l
7
Response
Additional back-up data,including cost and revenue information,will
be developed in the Fall of 1983.Revsied socioeconomic projections
are scheduled to be available on computer print-outs in November 1983.
Comment #1,Land Use (Page 5)
Pages E-9-20 through E-9-22,Section 23 -Description of Existing Land
Use .Management Plans for the Project Area:Among management plans
listed in this section,the Denali Scenic Highway Study [pursuant to
the Alaska National Interest Lands Conservation Act,Section 1311 (b)]
should also be included.
Response
Paragraph six on page E-9-27 of the February,1983 License Application
identifies and briefly describes the Denali Scenic Highway Feasibility
Study.The study recommendation was that the Denali Highway not be
designated a scenic highway.
Comment #2,Land Use (Page 5)
Page E-9-59;Figure E.9.8:The biophysical coastal boundary for the
Matanuska-Susitna Borough Coastal Management Program has been amended
from that shown on Fig.E.9.8.
Response
Consultation with the Mat-Su Borough Planning Department indicates that
Figure E.9.I5 of the February,1983 License Application reasonably
reflects the biophysical coastal boundary for the Matanuska-Susitna
Borough Coastal Management Program.
BIL/1
8
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I""'"
c •
SUSITNA HYDROELECTRIC PROJECT
'SUST ASK 4.5:SOCIOECONOMIC STUDIES
Draft Fraal
PROJECTION ASSUMPTIONS,
METHODOLOGY AND OUTPUT FORMATS
.For:HARZA-EBASCO and the
ALASKA POWER AUTHORITY
By:FRANK OATH &
ASSOClATES,INC•
.JUy 1983
-
TABLE OF CONTENTS
Page No.
I.INTR.ODUCT ION.0 0 ..
I I.FERC REQUIREMENTS AND NEEDS..................................2
III.OBJECTIVES OF THE SOCIOECONOMIC STUDIES......................4
IV.OVERVIEW OF THE MODEL.GO....5
A.Ceonceptual Foundation,Choice of
Method and Techni ques.. . . . . . . . . . . . . . . . . . . . . . . . .•.. . . . . . . .5
B.~del Structure .............•.•~........•.........e •••••~10
V.ECONOMI C-DEM();RAPHIC MODEL...................................23
A.Baseline Projections.....................................26
B.Di rect Work Force..........................................................................36
C..Seconda ry Work Fa rce.... .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. ......55
VI.PUBLIC FACILITIES AND SERVICES...............................60
Overvie\"i of Methodo'ogy..................................60
Geograph i c Scope III .. ......60
The Computerized Module....61
Types of Service Standards...............................61
Assumptions and Service Standard Used....................67
VII.FISCAL MODULE....75
A.Overview of the Fiscal Impacts Module.75
B.Impact Areas and Locai Jurisdictions...............•.76
C.Projection of Revenues and Expenditures..................77
D.Li nl<of the Fi scal Modul e to Other Modes.................82
E.Baseline Projections.....................................83-
F.Impact Projections.89
G..Re po rt s ".. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .89
REFERE NC ES..... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .93
Tab 1e 1:
Tabl e 2:
Table 3:
Table 4:
Table 5:
Table 6:
Table 7:
Tabl e 8:
Tabl e 9:
Tabl e 10:
Table 11:
LIST OF TABLES
Page No.
Potent;a1 Impact Areas and/or Worker
Tracking Points 13
Projected Percent Share That Census Divisions
Will Represent of Employment in the Anchorage
and Fairbanks Subareas...............................29
Projected Percent Share That Census Divisions
Will Represent of Population in the Anchorage
and Fairbanks Subareas 32
Assumptions for Baseline Population Growth
Rates for Selected Communities Located Near
the Project Si teo ... .. . .. .. . . ..... . . . .. . . .. . .... .33
Population per Household Assumptions 35
seasonality of Project Employment ..........•...........38
1981 Hourly Wage Rates Used to Calculate Payroll 54
Impact of the Project on Police Protection
in the Matanuska-Susitna Borough 62
Summary of Public Facility and Service
Standards for Selected Communities in the
Local Impact Area 66
Fiscal Module Reports:Revenues and
Expenditures.Impacts on Budgets (1985 -1993)...•...91
Fiscal Module Reports:Revenues and
and Expenditures.Impacts on Budgets (1994 -2005)...92
LIST OF FIGURES
Page No.
Figure 1:
Fi gure 2:
Structure of $Usitna Model ~...••.•.........•......
Potential Impact Locations in the Local
12
27
Fi gure 3:
Fi gure 4:
Figure 5:
Figure 6:
Impac t Area...........................................15
Design Overvi ewo f Da ta*Mode 1
Economic Modeling Software............21
Structure of Economic/Demographic Module......24
Resident and Non-Resident Project and Related
Employment and Population.............................25
Baseline Population,Employment
&Housing Projections ...••...........•.~.......••.....
-
Figure 7:Methodology Used to Project
Settlement Patterns of Direct Work Force..............40
Figure 8:Direct Construction Work Force...........•..........••...42
Figure 9:Structure of Public Facilities and Service Module........63
I.INTRODUCTION
The main purpose of this paper is to present the assumptions and
methods that have been used to project potential socioeconomic impacts
of the proposed Susitna Hydroelectric Project.Another purpose is to
describe the formats that will be used to report results of future
analyses.
Many of the assumptions and methods described in later sections of this
paper are the same as those used in the preparation of Chapter 5 of
Exhi bi t E (February,1983).Because of the current need to determi ne
potential impacts that could result from alternative management and
design scenarios,some methods were refined,and some new assumptions
and methods were developed.
Most of the changes from earlier methods occurred in the portion of the
economic-demographic module that involves origin and settlement of
workers.A gravity allocation element was created in response to the
need to model the effects of alternative camp/village sizes and other
attributes,work force characteristics,transportation options for
workers,access corridors,and scheduling.Other changes,which
primarily increased the ease with which assumptions may be changed,
occurred in most elements of all of the modules of the model.
This paper is organized in seven sections.Section II presents the
Federal Energy Regulatory Commission's (FERC1s)requirements and needs,
while Section III describes the near~and long-term objectives of the
socioeconomic stUdies.Section IV provides an overview of the impact
projection methods,and the structure of the model used to project
impacts.The paper concludes with detailed presentations of each of
the three parts (modules)of the model.
~
,
-
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II.FERC REQUIREMENTS AND NEEDS
The Report on Socioeconomic Impacts,a required section of the Susitna
MYdroelectric Project license application Exhibit E,must identify and
quanti fy the impacts of constructi ng and operati ng the Susitna
MYdroelectric Project,including impacts on employment,population,
housing,personal income,local government services and tax revenues,
and socioeconomic.conditions in the communities and other jurisdictions
in the vicinity of the project.
The Report is to include,among other things:
1.An evaluation of the impact of any substantial project-induced
in-migration of people on the impact areals governmental
facilities and services,such as police,fire,health,and·
educational facilities and programs;
2.Estimation of the numbers of project construction personnel who:
-currently reside within the impact area;
-Would commute daily to the construction site from places
si tuated outsi de the impact area;and
-Would relocate on a temporary basis within the impact area.
3.A determination of whether the existing supply of available
housing within the impact area 1S sufficient to meet the needs
of the additional project-induced population;and
4.A fiscal impact analysis evaluating the increme.ntal local
government expenditures in relation to the incremental local
government revenues that would result from the construction of
the proposed project..(Federal.Register,November 13, 1981).
2
FERC regulations do not explicitly define mitigation policy nor goals
for socioeconomic impacts.However,mitigation measures for addressing
significant and adverse potential effects of the project must be
developed to satisfy the mitigation and other requirements of the
National Environmental Policy Act.Hence,it is necessary for the
Report to also address mitigation issu~s.
The Report on Socioeconomic Impacts,as part of the .Susitna Project
license application,was submitted to FERC in February,1983.The
Report was accepted by the FERC,although FERC requested supplemental
information primarily concerning the methods utilized in analyzing
impacts and the formulation of an impact mitigation plan.The Report
presents alternative mitigation measures,and a definite mitigation
plan will be prepared as project management and design plans evolve.
3
,....
:-.
III.OBJECTIVES OF THE SOCIOECONOMIC STUDIES
The main objective of the socioeconomic studies is to satisfy FERC's
requirements and needs.secondary objectives include:
o Providing information that will help the Alaska Power Authority
make decisions on measures to mitigate potential adverse
socioeconomic impacts and on interdisciplinary-issues,such as
the selection of an access corridor or camp/village sizes and
qual ity.
o Providing planning information to communities,the Mat-Su
Borough and state agencies so that they can anticipate and
cooperatively plan for avoiding and mitigating potential adverse
project-induced socioeconomic impacts.
4
IV.OVERVIEW OF THE MODEL
To meet the above objectives.it was necessary to develop impact
projections and assessments.and alternative mitigation measures.that
would help in designing the project.assessing environmental impacts.
and determining project feasibility.Additionally,it was desirable to
develop impact projection methods and procedures that would allow
projections to be easily and periodically revised before and during
project construction.
A.Conceptual Foundation.Choice of Method and Technigues
1.Conceptual Foundation
Any of several alternative theoretical concepts can be used as the
foundation of an impact projection and assessment model.These
alternatives include location.central place.and economic base
theories.
Location theory has limited usefulness for this socioeconomic
assessment.Itls strengths are in estimating the potential for the
development of interrelated industries.and for assessing the growth
potential of direct industries and industry sectors.This information
was not required as part of this study.
Like location theory,central place theory has limited usefulness for
this study.It's strength lies in providing a means to estimate the
geographic distribution of impacts.Although it was not the main
conceptual foundation for the projections.it provided part of the
conceptual basis for predicting workers l settlement patterns.This is
discussed further in Section V-B-2.
Economic base theory was relied upon heavily for this study because its
strength lies in estimating how secondary industry sectors will change
in reponse to a change in direct industry sectors.This is relevant
5
6
for this project because one of the most significant sources of impacts
will be employment and population growth that is stimulated by the
project1s direct employment.As a result,the quantifying approach is
detenni ni sti c (causa 1 )--rel ati onshi ps between the vari ab 1 e (s r to be
forecast and influencing variables/factors are identified and
determined,and then incorporated into the forecasting process.
In economic base theory,there are two key concepts.First,it assumes
that the economy may be split into two sectors:direct and secondary.
Businesses and other economic entities that sell goods and services at
places outside of the local economy comprise the direct sector,and
those that sell goods and services within the local economy comprise
the secondary sector.second,it assumes that the amount of secondary
activity is determined by the amount of direct.activity.Thus,an
increase in direct activity (e.g.,employment)is accompanied by a
corresponding,and roughly predictable,increase in secondary activity.
Aggregate employment multipliers are commonly used to estimate
employment effects that are 1 ikely to resul t from changes in di rect
employment.Other multipliers may be used to estimate population
effects that result from the increases in direct and secondary
employment.Aggregate employment and other multipliers are discussed
further in later sections of this paper.
2.Choi ce of Method
Methods that were considered for implementing an economic base model
included aggregate employment multiplier,intersectoral flows,and
input-output.Several criteria were developed to evaluate these
methodological alternatives.There were also several constraints that
influenced the choice of methodology.The criteria and constraints may
be grouped as follows:
a.Cri teri a:
-Must quantify impacts at the local (comrnunity)level ,and to a
lesser extent,regional and statewide level s.
-Must use best possible techniques to estimate secondary
employment impacts.
-Must have consi stent methodology for IIwith projectll and
IIwi thou t proj ec til proj ection s.
-Must be easy to update results.
-Must provide information that is useful to decision makers
(FERC,APA,local jurisdictions).
b.Constraints:
-Must be able to develop and use the model within the bUdget
and other resources available.
-Availability of data.
-Must be consistent with the Institute of Social and Economic
Research's (ISER's)projections of employment and population
at the statewide and regional (railbelt and subareas)levels.
Each of the three alternative methods differ substantially in their
data requirements,cost and time for development,and the level of
detail provided in the results.The input-output method can be the
best method to use from a results perspective (e.g.,it is capable of
providing detailed projections of impacts on industry sectors).For
this analysis,however,this method could not have provided detailed
projections because the local economies (boroughs/census divisions)of
Alaska are not large enough for an input-output method to be
functional.Further,the cost of development and implementation of
this method would have been prohibitive even if it were potentially
functional.The intersectoral flows method would have also been
preferred from a results perspective,but it too would have resulted in
excessive development and implementation costs.
Part of the reason for the high costs associated with these methods is
that 1arge amount of primary data woul d have been requi red on a
continuing basis.For the input-output method,it would have been
7
,F'-o
necessary to collect primary data to support the development of
technical coefficients (direct requirements coefficients or
input~output table)at the borough/census division level.Besides the
bUdge~and time constraints,it is very doubtful that a meaningful
input-output table could have been developed.This is because the
Mat-Su Borough's economy is not yet well-developed,among other factors.
Similarly,the intersectoral flows method would have required a table
sryowing requirements coefficients.Because it focuses solely on
exports,data requirements are less than those reqired for the
input-output method.Nevertheless,these data requirements would have
been quite substantial,and it is doubtful that a meaningful table
could have been developed due to the limited size and breadth of the
Mat-Su Borough's export economy.Moreover,the level of detail of the
regional economy produced by this type of method would exceed the
requirements of this project.
The aggregate employment multiplier method was chosen because
techniques were available to provide more detail to the impact
projections,and i~did not share the shortcomings of the methods
discussed above.Further,ISER's MAP model,being an economic
base-econometric model,fit well with this decision.Accordingly,it
was decided that the ISER employment and population projections woul d
ser.ve as baseline projecti~ns for the statewide,railbelt region,and
subarea (multi-borough/census division)levels,and that baseline
projections for borough/census divisions and smaller areas would be
derived by disaggregating the ISER projections.The techniques used to
disaggregate these projections are discussed in Section V-B-2.
The·method used to project impacts of the project foll ows economi c base
theory in that secondary (support sector)impacts of the project are
estimated using employment multipliers.It is assumed that the level
of secondary activity is uniquely determined by the level of direct
(basic sector)activity,and that a given change in the level of direct
activity will bring about a predictable change in secondary activity
(Leistritz and Murdock,1981).Thus,the creation of a given number of
c~nstruction jobs will create a predictable number 'of secondary jobs in
8
related industries and the service sector.The techniques used to
estimate secondary employment effects are discussed further in Section
V-C -1.
It would have been preferable to use income instead of employment as
the indicator to measure economic change if adequate data had been
available.Employment may not be an accurate indicator of economic
activity in sectors that experience technological change,and if
different direct industries have significantly different wage rates
and/or input purchasing patterns).However,it was not possible to use
income because adequate income data was not available.
3.Techni ques
Several techniques were used in conjunction with
employment multiplier method to project impacts.
;mportant techni ques are:
the aggregate
Some of the more
o Gravity allocation model (used to allocate inmigrating workers
to cormnunities)
o Trend analysis (used to allocate ISERls MAP model IS baseline
employment and population projections to smaller geographic
areas)
o Person per household trend multipliers (used to project numbers
of households)
o Per capita planning standards (used to project demands for
public facilities and services)
o Per capita fiscal multipliers (used to project local
jurisdictions'revenues and expenditures,with and without the
projec t
Each of these techniques is discussed in Sections V-VII.
9
"...,
I
I
-
B.ttbdel Structure
1.Overview
Having established aggregate employment mUltiplier as the method,the
next step was to desi gn a model that coul d use thi s method to produce
appropriate projections.Several needs were considered during the
design process.These were:
o Ability to meet the information requirements of FERC,NEPA,APA,
and local officials (e.g.,employment,population,housing,
public facilities and services,and fiscal impacts1.
o Ability to produce annual projections for up to 25 years.
o Ability to efficiently handle mUltiple scenarios.
o Amenable to sensitivity analysis.
o Ability to quantify potential impacts in detail,and for small
geographic areas.
o Ability to efficiently interact with monitoring and mitigation
act i vi ti es.
o Ability to produce results that are useful:(1)in identifying
potential problems,(2)to decisionmakers,and (3)to the
mitigation activity.
o Capable of being updated quickly,efficiently,and at low cost.
o Capable of being manipulated at low cost.
o Relatively short processing (run)time.
o Ability to create many diverse reports (output formats),
o Ability to have resu1ts validated and the model calibrated.
10
With these considerations in mind,the structure for the model was
developed.The general structure is shown in Figure 1.Here it can be
seen that the model is composed of three main modules,each containing
equati ons that compute basel i ne and IIwith-project"(constructi on and
operations)projections.Comparisons of these projections yield impact
projections.
This general structure mirrors economic base theory,as the source of
impacts rests in the economic-demographic module ,(creation of direct
jobs),and these impacts are reflected in the pUblic facilities and
services,and fiscal modules.New populations associated with
construction workers,secondary workers,and dependents create demands
on housing and public facilities and services.The budgets of local
jurisdictions are impacted by these new demands.
Each of the modules are discussed further in Sections V,VI,and VII,
and each of the considerations presented above are addressed at
appropriate places in these sections.Before proceeding on to the
detailed discussions,however.it is appropriate to discuss in more
detail several key considerations,including the need for
computeri zati on.These are di scussed below.
2.Key Considerations
a.Ability to Quantify Impacts in Detail,and for Small Geographic
Areas
As the nearest communities to the construction sites are quite small,
and any settlement by workers would create measurable impacts,it was
necessary to consider developing the capability to quantify potential
impacts for small geographic areas.Based upon a review of the
attributes of these communities,it became apparent that some workers,
under certain conditions,would probably be attracted to,and settle in
these small communities.As a result,a rather large number of small
impact areas were delineated.These are shown in Table 1.A map
showing the impact Areas is shown in Figure 2.
11
Figure 1
STRUCTURE OF SUSITNA MODEL
Ie.
I CM.rlrilJ~~
I OjJE..ro...!'Of/S I
I~t-j,~L I l.::4rrj-:ICllI"l'slrvc.ft oJ (..Vo"'.J"1l ,)
r 0cro.1'ofu I IA.
1:(.¥£1-,,=_f:.c,l/,.....r ~U v,ca
i I&'s,/';'&I I .]-,S'1,:)£;/'(CMslr(Jc!CJ/1 I I I
I O~~ra-io,,~I 16
r:-sc..a./
\1/
f?1olrJ.Ie:...ro----------.-----_.-
,I Ba..:;e.j~I:.1
'----:
-
-"7l c../%~/~/-s c O~j:J0S'C:J 01 -3 maJ/7 /7?O~/~~
£.a.c.;;'c..O/lIa..I/7~1~£-/7U:J...lo/1!/(~·~C/Ofi...r 0/1 de...6a..-:;£I//7£:"
a-/1 /:"Ii fPr 0../'e;c.1 I)/~~a c..ls·.
~.II·..L'I /J,C!.,rj a../7 I Z E cY ~/V/1c.7"a/?C2 //'11<£a...
12
Table 1
POTENTIAL IMPACT AREAS,AND/OR WORKER TRACKING POINTS
LOCAL
Work sites:
Work camp 1 (At Watana)
Village 1 (At Watana)
Work camp 2 (At Devil Canyon)
.Village 2(?)
Cantwell
Cantwell railroad camp
Cantwell community
Cantwell area (Cantwell,Denali and other areas of Western Denali Highway)
(not to be used at this time due to lack of baseline data)
Healyarea (not to be used at this time due to lack of baseline data)
McKinley (not to be used at this time due to lack of baseline data)
Nenana area (not to be used at this time due to lack of baseline data)
Paxson (not to be used at this time due to lack of baseline data)
Trapper Creek
Talkeetna
Gold Creek (not to be used at this time due to lack of baseline data)
Railroad communities:(not to be used at this time due to lack of baseline
data)
Shennan
Curry
Chase
Chul i tna
Canyon
Lane
Hurricane/Indian River subdivision
(not to be used at this time due to lack of baseline data)
Palmer
Wasill a
Houston
Other Mat-$u Borough
Surburban
Rural and Remote
13
Tabl e 1
(conti nued)
REGIONAL (census divisions)
Anchorage
Fairbanks-North Star Borough
SE Fa i rbank s
Seward
Kenai -Cook In1 et
-
-
Yuko n-Koyukuk
Ma t-Su Borough
Valdez-Chitina-Whittier
Glennallen
Val dez
Copper Center
Gulkana
(Trapper Creek,Talkeetna,Palmer,Wasilla,Houston,
Hurricane-Indian River,Gold Creek,Railroad
commnities)
Note:The model is structured to include these communities should it
become necessary to conduct impact analyses for these communities.
Basel i ne data woul d be required for these analyses.
Note:The region will be expanded from the original ISER Railbelt region to
include a portion of the Yukon-Koyukuk -census division as Cantwell and other
potentially impacted communities are in this census division.
14
Figure 2
POTENTIAL IMPACT LOCATIONS IN THE LOCAL
IMPACT AREA
Me Kin 1ey Park
Cantwell
Hurrieane,~~-----r __~~~~~
Chu1 i t na -;'""7"":-=:---~~fa..J
Tra pper Creek----+7~~,...._~~~~.~
Talkeetna
15
Canyon
Gold Creek
Sherman
Curry
Lane
Chase
r
Paxson
Local Impact Area
Regional Impact
Area
I~
-
..-
b.Ability to Efficiently Handle MUltiple Scenarios
There are several aspects of project design and management that will
affect the level,distribution,and composition of socioeconomic
effects that are currently uncertain.These include:
o Choice of access corridor
o Transportation mode(s)and frequency for workers
o Size and quality of construction camp/village
o Work schedules
o Local hire and training programs
Additional project characteristics possibly subject to revision during
detailed project design are:
o Manpower requirements and timing of same
o Timing of construction for Watana and Devil Canyon dams
Analysis of alternative scenarios will help decisionmakers select
policies,with substantial knowledge of the range of possible impacts.
The model is designed to project with-project socioeconomic variables
using these scenarios,and to accommodate and produce different
baseline projections.Hence,ranges of potential impacts can be
provided.
c.Amenable to Sensitivity Analysis
The model must be able to accommodate alternative assumptions
concerning various economic and demographic relationships in the impact
areas,and to determine the sensitivity of projections to variations in
these assumptions.Some examples of assumptions are:
16
a Percent of total work force that will relocate (settle)in
cOlTUTluniti es
o Possible deviations from derived employment multipliers
o Local supply of skilled and unskilled labor
o Number of dependents per accompanied worker
o Number of school-age children per accompanied worker
o Attractiveness indicators for communities
Determining how sensitive the results are to changes in these and other
assumptions helps decisionmakers and planners prepare for a possible
range of impacts.As actual data for these assumptions are obtained
from monitoring local community conditions prior to and after
construction begins,the assumptions can be revised.This will result
in more accurate projections,and permit formulation of responsive
mitigation measures.
The model is designed to easily accolTUTlodate changes in assumptions in
the pre-cons tructi on,constructi on,and pos t-constructi 0 n phases.
d.Computer Software
It was appropriate to computerize the model in view of the following
needs:
o Ability to efficiently handle multiple scenarios.
o Amenable to sensitivity analysis.
o Ability to efficiently utilize results from and provide input to
the monitoring and mitigation activities.
17
f":--
-
o Ability to produce results that are useful:(l)in identifying
problems,(z)to decisionmakers,and (3)to the mitigation
acti vi ty.
a Capable of being updated quickly,efficiently,and at low cost.
o Capable of being manipulated at low cost.
a Relatively short processing (run)time.
a Ability to create many useful and diverse reports (output
formats)•
The model was computerized using the Data*Model economic and financial
modeling software package.It is operated on a Wang Virtual Memory
computer system.It takes between two and three hours to run the
Susitna impact model and generate the 50 standardized reports that were
developed for it (print-out of all the results takes considerably
longer).The model has been structured so that assumptions and data
are easily changed and the set of alternatives can be performed
effi ci entl y.
The planning of a computerized economic impact model needs to take into
account both hardware and software considerations.The major criteria
that were used to determine the way the model would be computerized
i ncl uded:
1.Ability of the computer system (hardware)to handle a very large
model,in terms of both on-line computer memory and storage
capaci ty;
2.Cost of development of the model;
3.Operation and storage cost;
4.Flexibility of reporting (a software consideration);
5.Operation speed (related to both hardware and software);
18
A modeling software package was chosen over the alternatives of custom
programming of a model or using a timeshare statistical package for
several reasons.Use of modeling software results in a lower set-up
cost than the first alternative by avoiding the development time of
programming,and has a lower operating cost than timeshare systems.
The advanced report-writing capability of the system means that any
combination of variables in the various parts of the model can be
displayed in a report,and that the model and equations can be defined
before all the report formats are developed.In addition,this
software allows non-programmers to create and modify the model.
Finally,use of in-house software and computer equipment will allow
integration of the model with custom programming or statistical
analysis software,as appropriate.Some speed in running the model was
given up as result of the choice of using a minicomputer rather than
timesharing options on a mainframe.
Description of the Software
Data*Model is a computerized spreadsheet program in which the data,
calculations and reports are independent modules.The model can handle
up to 500 time periods and 30,000 rows.Data*Model is available for
approximately 12 differen~mini-and micro-computer systems.The major
components of a model using this software are:
1.A Row Definition,which defines all names of data inputs,
parameters and variables that are used in the model.
2.Model definition files,which store data and equations.The
interrelationships of data input,parameters,and variables are
defined here.
3.A Spreadsheet,the data file in which the results of the model IS
calculations are stored.
19
l~':
-
/
4.Report formats,which store instructions for the presentation of
any combination of projections (results)and assumptions.A
variety of reports are generated from each spreadsheet model.
Vertical report formats store instructions for the vari~bles
that are to be displayed,and the order in which they will
appear.
-Horizontal report formats define the horizontal dimension of
the reports:the time periods that are to be shown and the
order in which they will appear.
As Figure 3 shows,the rowname file and model definition files combine
to produce a spreadsheet of all data and calculations in the model.A
report is generated by specifying the spreadsheet to be reported on and
the vertical and horizontal definitions to be combined.This modular
structure allows an efficient way of handling multi-scenario models,in
that th~data or assumptions can change without affecting the rest of
the model or the structure of the reports..
Data*Model contains a number of built-in features that increase the
efficiency and ease of model building and manipulation.These include
(1)linking statements,which allow various modules to run
automatically,in sequence,without further i'nput from the user;(2)
automatic percent change calculations over time;(3)goal-seeking
routine (in which a result is requested and the model calculates a
component of the equation);(4)lead and lag equations,(5)routines
for inflation,sums and means,accumulation of values over time,and
financial routines such as depreciation,amortization,present value,
etc.The equa ti ons in the model are functi.ona 11 y 1 inked.
A limitation of Data*Model is its lack of sophisticated matrix handling
functions,which increases its set-up cost relative to other
spreadsheet programs.An equation needs to be written out for each
variable and each impact area.This facet of the software was accepted
as a cost that is compensated for by the speed of operation (compared
20
Figure 3
DESIGN OVERVIEW OF DATA*MODEL
ECONOMIC MODELING SOFTWARE
I MODEL DEFN.I
1------------------1
I DATA I
I &I
I COMPUTATIONS I
,:'
N
........
I I
ROW DEFINITIONS 1---->1
I I
I I ROWS
I I
I I
I
V
SPREADSHEET
I
i DATA
I
I
---~---------------------------------
I
I ------------------------------I I HORIZONTAL REPORT FORMAT
I ------------------------------
I I
V V
I V R D I
lEE E I
I R P F I I
ITO I 1----->1
I I R N I I
leT I I I
I A T I I
I L I I I
I 0 I I
I N I I
REP 0 R T
-------------------------------~----
"
,~
-,
-
to other modeling programs),the flexible reporting options,and the
abi1 ity of the system to .hand1 e the 1arge number of equations and
impact areas.Its effects were mitigated by use of a custom program
which facilitated the copying and editing of groups of row definitions
and equati ons.
e.Ability to Create Many Useful and Diverse Reports (output formats)
As discussed above,the reporting flexibility of the model is
substantial.The reports now being generated by the model are intended
to meet most of the decisionmakers'needs.However,it is probable
that additional reports will be required or desired.Because of the
reporting flexibility.these reports will be available quickly and at
low cost.
The model currently produces reports that compare conditions with the
project during the projection period (1985-2005)to projected
conditions without the project,rather than to current conditions.
This is an important distinction for two reasons.First,the magnitude
of population influx and other effects related to the project need to
be evaluated in light of the size of population (and other variables)
that would be in the impact area in the absence of the project.
Second,because many of the impact areas are expected to grow and
change rapidly over the next 20 years,whether the project occurs or
not,comparison of the "with project"scenario to current conditions
would be misleading.
In the areas of housing and pUblic facilities and services,the model
also compares total demands with the project to the "capacity of the
communities to fulfill these demands.
22
V.ECONOMIC-DEMOGRAPHIC MODEL
The economic-demographic (E-D)module calculates the impacts of the
project on population,employment,and housing,by impact area and
year,and provides detailed population influx and efflux information to
the public facilities and services,and fiscal modules.This
information is used in these modules to determine impacts on pUblic
facilities and services,and local jurisdictions!expenditures and
revenues.Input information,and information concerning impacts,is
provided by year and by impact area to help local jurisdictions with
mitigation planning.
In response to FERC's requirements and needs,and the needs of the APA
and local jurisdictions,the module also provides detailed information
on employment,payroll,spending,and settlement patterns of the direct
construction work force.For example,this information includes
employment by residence and by year,payroll by labor category and
year,spending patterns of construction workers by year for selected
impact areas,and demand for housing,by impact area and by year.
The general structure of this module is shown in Figure 4.Here it can
be seen that the module produces both total and direct impacts.
Another important feature,implicit in Figure 4,is that direct
construction employment is separate from indirect construction-induced
employment (i.e.,secondary employment generated by direct construction
activity and employment),and that contruction employment is separate
from the operations employment.This allows for more detailed impact
projections and assessments,and is methodologically superior to a more
aggregated treatment of the work forces.
The general method for projecting total project-related employment,and
total in-migrant workers and population,is shown in Figure 5.Here it
can be seen that the number of direct and secondary jobs created is a
function of (1)direct manpower requirements and (2)the number of
secondary jobs created by the direct construction jobs.Employment
multipliers were used to estimate these secondary jobs (see Section
V-C-l ).
23
.~
.Figure 4
STRUCTURE OF ECONOMIC/DEMOGRAPHIC MODULE
.-8a..$~i=..r.s
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25
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The total number of in-migrant workers is simply total direct manpower
requirements less the number of jobs filled by local residents,plus
the number of secondary jobs that are not filled by local residents.
Total in-migrant population is calculated by applying a dependents per
i n-mi grant worker val ue to the di rect i n-mi grant workers,and addi ng
this to the in-migrant secondary population.This population is
calculated by applying a persons per household value to the in-migrant
secondary work force.
Total in-migrant population is compared to baseline population
projections to arrive at total impacts,as indicated in Figure 5.
Similarly,direct project-related population is compared to baseline
population projections to arrive at direct impacts of the project.
The techniques used to make baseline projections are discussed in the
next section.This discussion is followed in subsequent sections by
presentati ons of techni ques used to make lIwi th projectll projecti ons.
A.Baseline Projections
Figure 6 displays the structure of the baseline projection portion of
.the economic-demographic module.The approaches and projection
techniques used are discussed below.
1.Employment
Baseline projections for employment in the Railbelt region and its
tilree subareas,Anchorage,Fairbanks and the Valdez-Chitina-Whittier
census division (see Figure 2),were generated by the Institute of
Social and Economic Research's (ISER's)Man-in-the-Arctic-Pl"'ogram (MAP)
econometri c model (September 1981 ).Thi s madel was also used for the
determination of the need for energy during the projection period.As
additional data from the MAP model is made available,baseline
projections can be updated.
26
t
1
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27
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Frank,Orth &Associates t Inc.used ISER's projections as the basis for
the employment projections for the various census divisions that
comprise the Anchorage and Fairbanks subareas (Anchorage/Kenai~Cook
Inlet/Seward/Mat-Su Borough,and Fairbanks-North Star/Southeast
Fairbanks,respectively).These were calculated from ISER's subarea
employment projections using several steps:
1.A time series of employment in each census division was
co 11 ected for 1964-1980).These data were deri ved from
unemployment insurance records collected by the Alaska
Department of Labor.They are considered to be the most
consistent and accurate 'series of statistics on employment in
Alaska.The major limitations of the series are that (1)
employment is listed by place of work rather than place of
residence;and (2)the figures do not include workers who are
not covered by unemployment insurance.
2.The percentage that each census division in the Anchorage
subarea and Fairbanks subarea represented of total employment in
that subarea was calculated annually.In general,the trends in
employment were relatively stable t with the Mat-Su and Kenai
census divisions increasing their percent shares of the
Anchorage subarea slightly during the 1970's.
From these numbers t percent change in the percent shares was
also calculated.For each ~ensus division,a trend analysis of
the increase in percent share over time was performed,which
yielded the average increase or decrease in percent share for
that census divi sion.
3.Based upon the assumption that these historical trends will
continue,the average increase in percent share was applied to
the 1980 figure to obtain a set of projections of percent share
of employment for each census division for the years 1981
through 2005 (see Table 2).
28
Tab 1e a
PROJECTED PERCENT SHARE THAT CENSUS DIVISIONS
WILL REPRESENT OF EMPLOYMENT IN THE ANCHORAGE
AND FAIRBANKS SUBAREAS*
Percent of Employment In Percent of Employment In
Anchorage Subarea Fairbanks Subarea
Kena i-Ma t-Su Fa i rbanks Southeast
Anchorage Cook In 1et Seward Borough North Star Fa i rbanks
1981 87.0 7.7 1.5 3.6 95.4 4.6
1982 86.8 7.8 1.5 3.7 95.4 4.6
1983 86.7 7.9 1.5 3.8 95.4 4.6
1984 86.5 7.9 1.5 3.9 95.4 4.6
1985 86.3 8.0 1.5 4.0 95.4 4.6
1986 86.2 8.1 1.5 4.1 95.4 4.6
1987 86.0 8.2 1.5 4.2 95.4 4.6
1988 85.8 8.3 1.5 4.3 95.4 4.6
1989 85.6 8.3 1.5 4.4 95.4 4.6
1990 85.5 8.4 1.5 4.4 95.4 4.6
1991 85.3 8.5 1.5 4.5 95.4 4.6
1992 85.1 8.6 1.5 4.6 95.4 4.6
1993 85.0 8.7 1.5 4.7 95.4 4.6
1994 84.8 8.7 1.5 4.8 95.4 4.6
1995 84.6 8.8 1.5 4.9 95.4 4.6
1996 84.5 8.9 1.5 5.0 95.4 4.6
1997 84.3 9.0 1.5 5.1 95.4 4.6
1998 84.1 9.1 1.5 5.2 95.4 4.6
1999 83.9 9.1 1.5 5.3 95.4 4.6
2000 83.8 9.2 1.5 5.3 95.4 4.6
2001 83.6 9.3 1.5 5.4 95.4 4.6
2002 83.4 9.4 1.5 5.5 95.4 4.6
2003 83.3 9.5 1.5 5.6 95.4 4.6
2004 83.1 9.5 1.5 5.7 95.4 4.6
2005 82.9 9.6 1.5 5.8 95.4 4.6
*As defined in the Institute of Social and Economic Research's
Man-In-the-Arctic economic model.
29
.-
4.These percent share projections were then multiplied by ISER's
employment projections for the Anchorage and Fairbanks subareas
to obtain projections of employment,by place of employment,for
each census division.
Employment data for the communities of the Mat-Su Borough are not
reliable,due to data collection and reporting problems.Thus,
employment was not projected at the community level.
2.Population
The methodology used to project population in the various impact areas,
without the project,is similar to the employment methodology listed
above.Baseline population was projected independently of the
employment projections as a result of the need to disaggregate the
regional trends to smaller areas.In these census divisions and
communities,population and employment trends differ significantly.
Baseline projections of population in the Railbelt region and the three
subareas of Anchorage,Fairbank's and the Valdez-Chitina-Whittier census
di vi si on were genera ted by the MAP model (September 1981).As
additional data from the MAP model is made available,these projections
can be updated.
Population projections for the various census divisions that comprise
the Anchorage and Fairbanks subareas (Anchorage/Kenai-Cook Inlet/
Seward/Mat-Su Borough,and Fa i rbanks-North Star/Southeast Fa i rbanks,
respectively)were calculated from the population projections for the
subareas using these steps:
1.A time series of population in each census division was
collected for 1964-1980.These data are mostly derived from
U.S.Bureau of the Census data.The Mat-Su Borough data
included data collected in annual surveys conducted by the
Mat-Su ~orough Planning Department.As a result of the rural
and rapidly increasing population in the Borough,it was
believed that the Planning Department's surveys were more
accurate than U.S.census data.
30
2.The percentage that each census division in the Anchorage
subarea and Fairbanks subarea represented of total population in
that subarea was calculated annually.In the Anchorage subarea,
the figures showed that the percent shares of population
accounted for by Mat-Su Borough and the Kenai-Cook Inlet areas
have increased rapi dly,whil e the percent share of the
Municipality of Anchorge has declined.
From these numbers,percent change in the percent shares was
also calculated.For each census division,a linear regression
of the increase in percent share over time was performed,which
yielded the average increase or decrease in percent share for
that census division.
3.Based upon the assumption that these historical trends will
continue,the average increase in percent share was applied to
the 1980 figure (or 1981 for the Mat-Su Borough)to obtain a set
of projections of percent share of population for each census
division for the years 1981 through 2005.These are displayed
in Tabl e 3.
4.These percent share projections were then multiplied by ISER1s
population projections for the Anchorage and Fairbanks subareas
to obtain projections of population,by place of population,for
each census division.
5.Population projections for several of the communities of the
Ma t-Su Borough were cacul ated separately.Annual growth rates
were projected for the future based on historical growth rates
and the changing population distribution patterns in the
Borough.These growth rates are displayed in Table 4.
As a result of this methodology,both (1)the population
increase based on historical trends and (2)the population
increase related to economic development are taken into
account.ISERls regional and subarea projections explicitly
31
-
Table ~
PROJECTED PERCENT SHARE THAT CENSUS DIVISIONS
WILL REPRESENT OF POPULATION IN THE ANCHORAGE·
AND FAIRBANKS SUBAREAS*
Percent of Population In Percent of Population In
Anchorage Subarea Fairbanks Subarea
Kena ;-Mat-Su Fairbanks Southeas t
Anchorage Cook Inlet Seward Bqrough North Star Fa i rbanks
--1981 78.4 10.3 1.3 10.0 91.2 8.8
1982 77.8 10.4 1.3 10.4 91.2 8.8
1983 77.2 10.6 1.3 10.9 91.2 8.8
1984 76.6 10.7 1.3 11.3 91.2 8.8
1985 76.a 10.8 1.3 11.8 91.2 8.8
1986 75.4 11.0 1.3 12.2 91.2 8.8
1987 74.8 11.1 1.3 12.7 91.2 8.8-1988 74.2 11.3 1.3 13.1 91.2 8.8
1989 73.6 11.4 1.3 13.5 91.2 8.8
1990 73.0 11.6 1.3 14.0 91.2 8.8
1991 72.4 11.7 1.3 14.4 91.2 8.8-1992 71.7 11.9 1.3 14.9 91.2 8.8
1993 71.1 12.0 1.3 15.3 91.2 8.8
1994 70.5 12.2 1.3 15.8 91.2 8.8
""'"1995 6 9.9 12.3 "1.3 16.2 91.2 8.8
1996 69.3 12.5 1.3 16.7 91.2 .8.8
1997 68.7 12.6 1.3 17 .1 91.2 8.8
1998 68.1 12.8 1.3 17.6 91.2 8.8
1999 67.5 12.9 1.3 18.0 91.2 8.8
2000 66.9 13.1 1.3 18.5 91.2 8.8
2001 66.3 13.2 1.3 18.9 91.2 8.8
2002 65.7 13.4 1.3 19.4 91.2 8.8
2003 65.1 13.5 1.3 19.8 91.2 8.8
2004 64.5 13.7 1.3 20.3 91.2 8.8
2005 63.9 13.8 1.3 20.7 91.2 8.8
,.....*As defi ned ;n the Insti tute of Soc;a1 and Economic Research's
Man-In-the~Arctic economic model.
32
Table 4
ASSUMPTIONS FOR BASELINE POPULATION GROWTH RATES
FOR SELECTED CO~l~IUNITIES LOCATED NEAR THE PRC11ECT SITE
)
Community 1981-1990 1991-2005
Pa 1mer 6.5%3.5%
Wasi 11 a 7.5%7.5%
Houston 10.0%10.0%
Trapper Creek 4.0%4.0%
Ta 1keetna 5.0%5.0%
Cantwell 2.0%2.0%
33
included assumptions on economic development scenarios and the
percent share metho~ology reflects the trends in the
distribution of growth within the region.
3.Housi ng
Projections of housing demand were calculated for each of the
communities likely to be affected by the project and for the Railbelt
region as a whole.Housing demand was ca1cuated by applying
population-per-household projections (see Table 5)to the projected
populations of each community and census division.The
population-per-household measures were assumed to decline gradually
over time to converge with the national and state averages.'These
measures were dervied from the ISER study of the need for power in the
Railbelt (Goldsmith and Huskey.1980).In the ISER model,average
population per household is estimated to decline by 20 percent over the
next twenty years,and is consistent with the projected decline in the
national level.
Current housing supply estimates were obtained from the U.S.Census
Bureau (1980)and community surveys where available.Housing stock was
assumed to increase in direct proportion to the growth in the number of
households.Baseline housing supply was projected by multiplying the
number of households by an assumed average vacancy rate of five
percent.The exception was the area of the Mat-Su Borough outside the
incorporated communities,for which it was assumed that the vacancy
rate (25 percent in 1981)would'fall over time.
No di fferenti ati on among types of housi ng was made,and the timi ng of
housing construction was not estimated.These simplifications were
appropriate for the following reasons.The Mat-Su Borough is
increasingly becoming a bedroom community in which single family
dwellings on plots of an acre or more predominate.As a result of the
large population increase expected in the Mat-Su Borough in the next
twenty years,with or without the project,it is Hkely that there will
be a continuous need for new housing,fueled by increasing demand.In
many of the communities closest to the project,there is currently very
34
TABLE 5
POPULATION-PER-HOUSEHOLD ASSUMPTIONS
Ma t-Su Trapper
State Borough Creek Talkeetna Cantwell Palmer Wasi 11 a Houston
1981 a 3.073 3.270 3.300 3.300 2.750 3.153 3.127 2.900
1982 3.064 3.240 3.269 3.269 2.741 3.128 3.103 2.885
1983 3.053 3.210 3.238 3.238 2.733 3.103 3.079 2.871
1984 3.040 3.180 3.207 3.207 2.725 3.078 3.055 2.856
1985 3.041 3.150 3.176 3.176 2.717 3.053 3.027 2.842
1986 3.031 3.121 3.144 3.144 2.709 .3.028 3.008 2.828
1987 2.998 3.091 3.113 3.113 2.701 3.003 2.984 2.813
1988 2.960'3.061 3.082 3.082 2.693 2.978 2.960 2.799
1989 2.932 3.031 3.051 3.051 2.685 2.953 2.936 2.785
1990 2.900 3.002 3.020 3.020 2.677 2.929 2.912 2.770
1991 2.876 2.972 2.989 2.989 2.669 2.904 2.889 2.756
1992 2.849 2.942 2.958 2.958 2.661 2.879 2.865 2.742
1993 2.824 2.912 2.927 2.927 2.652 2.854 2.841 2.727
1994 2.801 2.883 2.896 2.896 2.644 2.829 2.817 2.713
1995 2.777 2.853 2.865 2.865 2.636 2.804 2.793 2.699
1996 2.754 2.823 2.834 2.834 2.628 2.779 2.770 2.684
1997 2.731 2.793 2.803 2.803 2.620 2.754 2.746 2.670
1998 2.707 2.764 2.772 2.772 2.612 2.730 2.722 2.656
1999 2.682 2.734 .2.741 2.741 2.604 2.705 2.698 2.641
2000 2.657 2.704 2.710 2.710 2.596 2.680 2.674 2.627
2001 2_.637 2.674 2.679 2.679 2.588 2.655 2.651 2.613
2002 2.617 2.645 2.648 2.648 2.580 2.630 2.627 2.598
2003 2.597 2.615 2.617 2.617 2.572 2.605 2.603 2.584
2004 2.577 2.585 2.586 2.586 2.564 2.580 2.579 2.570
2005 2.556 2.556 2.556 2.556 2.556 2.556 2.556 2.556
a.Matanuska-Susitna Borough Planning Department,1981.
35
r
little vacant housing available to support a sizable increase in
population.Housing distribution within communities,the types of
housing that will be constructed,and the speed with which the supply
of housing will respond to or anticipate the demand can only be guessed
at,and this was complicated by the long time frame for the project and
the impact model.
Thus,it was felt that detailed projections of housing supply would be
of limited usefulness due to the expected large changes in the housing
market in the local impact area and the uncertainty surrounding any set
of assumptions.In this model,the emphasis of the determination of
project-related effects on housing is placed on the effects that the
project will have on the demand for housing.Housing supply will be
addressed by the community and household monitoring program.
B.Direct Work Force
1.Work Force Requirements
a.Annual Work Force.
Estimates of work force requirements for the project,by trade and by
year,were obtained from the project engineers (Acres American,1981).
The estimates include all manpower required for the construction of the
access road and camp/village;power facilities and transmission
facilities;and all management,adminstrative.and operations
personnel.Manpower for off-site activities such as procurement,
manUfacturing,shipping and a portion of the engineering staff are not
included in these estimates.The different types of workers are added
up into three labor categories -laborers,semi-skilled/skilled and
administrative/engineering,and total work force by year is al so
calculated.
Construction of the first phase of the Watana dam will require a
signi fi cantly greater number of workers than both the second phase of
Watana and construction of the Devil Canyon dam.This difference can
36
be attributed to the additional labor requirements in the initial years
for construction of the work camp and village,the access road and to
the more labor-intensive nature of a gravel-fill dam (Watana)than a
concrete arch dam (Devil Canyon).
b.Accommodation of Changes in Manpower Requirements and Construction
Schedules.
In the model,the construction and operations work force requirements,
by trade (such as carpenter,millwright,ironworker,plumber,etc.)for
each dam,are entered separately.This will facilitate adjustment of
the model if the size of the work force changes,if the trade mix is
altered,or if the schedule for either or both of the dams is changed.
c.5easona 1i ty •
The demand for constructi on manpower wi 11 vary duri n9 any gi ven year.
Monthly manpower requirements are calculated by the model using the
following steps:
1.The percentages of the total yearly work force that will work in'
each month were projected.These percentages are displayed in
Table 6.The model was designed to accommodate different
seasonality assumptions for the major labor categories,if
appropriate.
2.For each labor category,the number of workers in each year are
multiplied by the percentages for each month to yield the
numbers of workers in that labor category needed in each month.
3.For each month,the number of laborers,semi-skilled/skilled and
adminstrative/engineering personnel are added to obtain the
total construction work force needed per month.
37
.-
r
'fable 6
SEASONALITY OF PROJECT EMPLOYMENT:
PERCENTAGES OF PEAK ANNUAL CONSTRUCTION WORK FORCE
THAT WILL BE EMPLOYED IN EACH MONTH
January 30 %
February 31 %
March 43 %
Apr;l 66 't
May 72 't
June 87 't
July 99 %
August lOa 't
September 90 %
October 69 %
November 51 %
December 35 %
38
....
!
!~'
.-
2.Origin and Settlement Patterns
a.Overvi ew
This portion of the module addresses four basic questions:
o From where do the direct workers originate?
o Which direct workers settle in the local communities?
o Where do the in-migrant direct workers settle?
a How many in-migrant workers leave when they are no longer
employed on the project,and when do they leave?
This portion of the module is a critical part of the model because it
largely determines the magnitude and geographic distribution of the
project1s impacts.For this reason,special care has been taken to
structure this portion to allow for quick and efficient analysis of
multiple scenarios,and sensitivity analysis of key assumptions.
The methodology used to project settlement patterns for the work force
is diagrammed in Figure 7.Here it can be seen that,in general.only
married workers are expected to relocate their permanent residences
(The model has been structured to also account for single workers who
may relocate their residences).It can also be seen that the magnitude
of in-migration by married workers is expected to be influenced by
several major factors.These include:
o place af origin
o labor category
a attractiveness of the work camp
o leave schedules (days on and days off-work)
a access carri dor/mode of transportat;on
39
Figure 7
METHODOLOGY USED TO PROJECT SETTLEMENT PATTERNS OF DIRECT WORK FORCE
));("€c-f WOfK.ot'f..;Z..
6y:
•~)4t:-e...O~Or~(t.e.
•t-~bo~ea-fe!pY'(
,At!(,(Y I'1e4
WOr'k f v.::r
·~,jty,W,."to
Altt>r~.Jr
C~V'IUJ1/ly
7
Re)od,~;)f.Uor/(IU';J i
J-Y1 C~t.e-or }r,mJ~f
UJ"yt(U,f'1'l1"
I....:r
").....;..../(~I-J....L:;;J':-r·.J'-'-{/.-.-
K.;I;;c:.f:'J ~{/CJY",(."-'S
tis J ~Cf C1~u'f /;106(/
/-./
*The work camps are currently planned to accommodate all workers.Single
and married workers will have a strong incentive to relocate if the camps
are not large enough to accommodate all 40 workers.
40
-,
Assumptions concerning the last three of these factors can be varied to
provide socioeconomic input to the work force and project access
analyses that will be conducted by the Power Authority.
Further,it can be seen in Figure 7 that the distribution of inmigrant
workers to impact areas is projected using a gravity model.Travel
time or cost of travel to the work sites,relative attractiveness of
communities as places to live,and other factors are incorporated into
this model.This model is designed to address several of the work
force and project area access issues that will be consi dered by the
Power Authority,including the transportation and access corridor/mode
of transportation options.
In reviewing Figure 7,it should be noted that workers will relocate to
local communities temporarily or permanently if the work camp is not
large enough to accommodate all single and married workers.In this
case,single as well as married workers that cannot be accommodated
will relocate to the community located nearest to the work camp that
can accommodate additional residents.
The following sections prOVide more detailed descriptions of the
methodology outlined in Figure 7.Assumptions and methods concerning
outmigration of workers are provided at the end of Section Y-B-2.
b.Origin of the Direct Workforce
The technique for estimating the origin of the direct work force is
shown in Figure 8.Here it can be seen that the direct work force
trades data was aggregated over trades into labor categories (Laborers,
Semi-skilled/Skilled and Administrative/Engineering).Next,
assumptions regarding the percentage of workers in each labor category
that would originate from the Railbelt Region,other parts of Alaska
excluding the Railbelt Region,or outside of Alaska were developed.
Assumptions for the proportion of workers that will originate from (a)
the Railbelt Region,and (b)other parts of Alaska excluding the
.Railbelt Region,were based upon analysis of unemployment d~ta for the
41
~~~-\~.,~~'<),-~~"
/
,"<.':~-...:::
OJ ~
,"~~~,,''\
"""~,J......'V;
'10.-
~--:'--<?l,-
"\,~
i~~
I I
I IL..,,"';
\~'<!
.~
.~
I a
"-:~
-,;.,01
'/\
,,'-,!~
L ~:
~----
wuc:::
0
t.L.,
~c:::
0
3:
CO z
0
(I)......
S-I-
::::l U
C'l :::la:::
'-"-l-
V!
Z
0
U
I-
U
Wa:::......
0
~/
/
\.{I
<')1
I
__,__"....I
42
"...
/,,'''vt
trades,and discussions with labor union business managers,Alaska
Department of Labor economists,and construction contractors.Current
and probable future availabilities for workers were approximated,and
compared to direct work force requirements.Based upon these
comparisons,the amount of labor,by labor category,that would be
supplied from each of the three areas was estimated.These estimates
(ori gi n assumpti ons)are as foll ows:
Work Force Origin Assumptions
Railbelt Region Other AK Outsi de AK
Laborers 85%5%10%
Semi-skilled/skilled 80 5 15
Administrative/Engineering 65 5 30
The model is structured to allow for sensitivity testing of these
assumpti on s.
The amounts of labor that will originate from the census divisions of
the Rail bel t Regi on and sel ected convnuni ti es/cities of the Ma t-Su
Borough and Cantwell were,al so estimated.These estimati ons were made
by assuming that project employment will be distributed among census
divisions based,in part,upon each census divisionis average share of
total construction employment in the Rai1belt Region during 1979 -
1981.These shares were adjusted to reflect the census divisionis
proximity to the construction sites relative to other census
divisions.The shares (origin assumptions)are as follows:
Assumptions on Work Force Origin Within the Railbelt:
Anchorage:
Ma t-Su
Kenai-Cook Inlet
Seward:
Fai rbanks
S.E.Fa i rbanks
Valdez-Chitina-Whittier
Yukon-Koyukuk
43
55.9%
6.7
11 .1
0.2
2:1.8
0.2
2.1
(to be determined in coordination'
with the above shares)
Direct employment was estimated for residents of selected Mat-Su
Borough cities/communities based upon each city/community's recent
average share of total population in the Borough.Trends in population
shares were also taken into account in making initial estimations of
city/community shares of the Borough's direct project employment.
Population data were used in lieu of employment data because employment
data are not available for most cities/communities.
As with the census divisions,these shares were adjusted to reflect a
city/communityi s proximity to the construction sites relative to other
cities/communities.The shares (origin assumptions)that were used are
as follows:
Assumptions on Work Force Origin Within the Mat-Su Borough:
Palmer
Wasilla
Houston
Trapper Creek
Talkeetna
Other Mat-Su Borough
Suburban
Rura~an~remote
l~
8
5
1
4
72
Both Mat-Su city/community share assumptions and census division share
assumptions can be easily altered for sensitivity testing.
c.Residency and Movement of Direct Workers
The direct construction work force will be composed of single and
married workers (the latter category includes cohabitants that are not
married).It is assumed that none of the single workers will choose to
relocate their permanent residence closer to the construction sites.
Instead,the single workers will reside at the camp/village while at·
work,and maintain their original permanent residences.The only
exception to this pattern will occur if the camp is not large enough to
44
.-
!
accommodate all single workers that need housing.In this case,it is
assumed that some of the single workers will seek temporary housing,or
establish pennanent residence,in nearby cOrmlunities.Because single
workers will generally not relocate,they are handled separately in
this part of the model.
In contrast,it is assumed that some of the married workers will choose
to relocate their permanent residences closer to the construction sites
(though they themselves will remain at the work camp during the week).
Married workers will also have an additional incentive to relocate if
the camp cannot accommodate all marri ed workers.
i.Relocation of Married Direct Workers
Numbers of Workers That Will Face the Relocation Decision
The first step to estimating the number of married workers who will
relocate to cities/communities is to determine the total number of
married workers.This is done using single:married data from other
projects (U.S.Army Corps of Engineers,1981).Next,married
workers are allocated to the three labor categories using the labor
category multipliers discussed above.It should be noted that the
single:married ratio,and the labor category multipliers can be
adjusted to provide for sensitivity testing.
Workers who will be confronted with the relocation decision will be
those for whom there is no room at the village.It was assumed
that housing would be available at the village for the
engineering/administrative (E/A)and semi-skilled/skilled (5-5/5)
workers and their families.The available housing will be split
-unequally between these labor categories,with more of the housing
available to the E/A workers.The model is structured to allow for
adjustment of the shares of housing availabl e at the village for
each of these labor categories.
45
Once these E/A and S-S/S workers are subtracted from total married
workers.the number of workers who are confronted with the decision
to relocate to cities/communities.remains.The next step is to
apply the origin multipliers discussed above to each labor
category.This calculation provides the number of married workers,
by place of origin (Railbelt Region,other parts of Alaska outside
of the Railbelt Region,and outside of Alaska),that face the
relocation decision.
Number of Workers That Will Relocate
The number of workers that will relocate is estimated according to
workers'place of origin and labor category.It is assumed that
both these factors will influence the relocation decision.Place
of origin is important because it affects travelling time;labor
category may also affect the magnitude of inmigration because the
number of workers who have dependents and the average duration of
employment may vary by 1abor category.
In addition,the attractiveness of the camp and village,leave
schedules,and access corridor/mode of transportation may influence
workers 'incentives to relocate.As the attractiveness of the camp
and village increases,the incentive to relocate should decrease.
As leaves become more frequent,or the time/cost of travel
increases,the incentive to relocate (or obtain temporary housing)
will become greater.
Accordingly,unique relocation multipliers can be assigned to
workers from each place of origin and labor category.The model is
structured to allow for adjustments in camp and village
attractiveness,and leave schedules.
The projected number of relocating workers,by place of or1g1n and
labor category,is calculated by applying the relocation
multipliers to the number of workers who face the relocation
decision.These workers have the option to relocate to the
Railbelt Region,and census divisions and cities/communities
therei n.
46
;~,
Geographic Places of Relocation
It is difficult to accurately predict where workers will settle.
They wi'll consider a myriad of things when they make their
deci si ons-.
Recognizing that it is not possible nor appropriate to try to
account for all factors that workers may consider.the approach is
to focus upon the most likely factors.After reviewing the
socioeconomic literature.and analyzing the situation in the
Railbelt Region.the attractiveness indicators listed below were
determined to be the most r~levant for that segment of the Susitna
work force that will consider relocating.
Community Attractiveness Indicators
Housi ng
School s
Public Facilities and Services
Wholesale/Retail/Finance,Insurance.Real Estate/Services
(number of establishments or employment)
Land available for development
The previous version of the model considered the above indicators
in an informal way.Workers were allocated to communities based
upon judgement.With a growing need to take into account
alternative assumptions,it was decided to allocate workers in a
more systematic and explicit manner.
To systematically apply these indicators (decision criteri a),
incorporate other important factors,and to be able to perform
sensitivity analysis,it was decided to create an equation whose
parameters and vari ab 1es coul d be easi 1y manipul ated.The
attraction-constrained version of the gravity model was chosen over
more complex formulations,such as capacity-constrained and linear
programming (lP)models,for two reasons:(1)considerably more
47
data would be required for the more complex formulations,
particularly for the LP model (these data are not now available,
and would only be available at substantial cost);and (2)the
simpler formulation can predict quite well magnitudes and locations
of demand that are important for planning.
The equation that incorporates the indicators is:
-aTij=Bj OJ Wi di j (Stenehjem and Metzger,1980),
where:
T..=Number of workers that are predicted to settle inlJ
place i and commute to work site j (j =Watana or Devil
Canyon).
Bj =A constant scaling factor that constrains the total
number of workers commuting from alternative communities to
the number of jobs that these workers fill at the work site
-a )-1(~T ..=D.).B.={<W.d ..D..•lJ J J L..1 lJ J(...:;
O.=Number of workers that are predicted to relocate.
J
Wi =Measure of the attractiveness of a community as a place
to settle;this measure is,itself,the result of a
calculation in which the community IS rating on each
attractiveness indicator is weighted and tallied.The
following weights are used:
Community Atractiveness Indicator
Housing
Schools
Public facilities and Services
Whol esal eiRe tail/FI·RE/Servi ces
Land available for development
48
Wei ght
3
2
2
2
1
,~.
Each indicator.is weighted according to its perceived
importance relative to another indicator.These weights
will remain constant in all applications of the model.An
ordinal 'scale of 1 -5 will be used to rate the
attractiveness of an indicator in one place relative to
that same indicator in anoth~r place.
dij =Mean transit time from community to work site (an
average of the winter and summer transit times).Note:Mean
transit time could be replaced by out-of-pocket travel
expenses,where dij could become e-aCij (C =out-of-pocket
travel expenses).
a =Weighting factor attached to the mean transit time
measure.Note:"a "becomes larger as the worker gains more
opportunities to leave the camp (e.g.,more frequent leaves,
or more liberal camp rules).Also,as cross-sectional data
for Tij ,Wi'and dij become available,the parameter "a "
can be more accurately calibrated through the use of
regression analysis.It will also be possible to assess the
statistical significance for alternative values for a.
The following assumptions will be used in the implementation of the
model:
Travel time to the work site:workers will prefer to minimize
travel time from their residence to the work site.Places with
lm~er transit times to the work site will be preferred over
those with higher transit times.
Cost of travel to the work site:workers will prefer to m1n1m1ze
the cost of travel from their residences to the work site.
Places with lower costs of travel to the work site will be
preferred over those with higher costs of travel.
Leave schedule:as leaves become more frequent,places located
closer to the .work site will be preferred over those located
farther away.
49
As data on project-related population change in the various
communities becomes available (through the monitoring program),the
above equation may be modified with the intent of improving the
accuracy of settlement projections.
The gravity model will be used to project settlement for:
-Workers who originate from other parts of Alaska,and outside
of Alaska.These workers may relocate to Anchorage,
Fairbanks,Mat-Su (and cities/communities therein),
Yukon-Koyukuk (and cities/communities therein),and
Val dez-Chi ti na-Whi tti er (and ci ti es/communiti es therei n)
census divisions.
-Workers who originate from Anchorage,Kenai-Cook Inlet,and
Fairbanks census divisions.These workers may relocate to the
cities/communities of the Mat-Su and Yukon-Koyukuk census
divi sions.
ii.Relocation of Single and Married Workers (Special Case)
As discussed earlier,single and married workers may live in nearby
co~munities if the camp does not have enough capacity to accommodate
all workers.In this case,the single-to-married ratio is applied to
the number of workers that cannot be accommodated at the camp,to
obtain numbers of single and married workers that must find
accommodations elsewhere.It is assumed that these workers seek
housing in the nearest community.
The origin and labor category multipliers are applied to these
temporarily or permanently relocating workers to obtain information
that is necessary for worker tracki ng purposes.In addi ti 0 n,an
estimate is made for the percent of married workers who will choose to
have their dependents accompany them to their place of relocation.
This information is used in the population influx calculations
discussed in Section V-B-3.
50
(~,
-(
The total number of married workers,used as the starting point for
projections in the general case (discussed in section i.above ),is
diminished by the number of married workers that cannot be accommodated
at the camp.This is done to avoid double-counting.
d.Ou tmi grati on of Workers
It is assumed that a percentage of the inmigrant workers that are no
longer employed on the project will choose to move due to lack of
employment opportunities or other factors.The model has the
flexiblity to move these inmigrant workers from their places of
relocation in any given year,and at any given rate.
Currently,it is assumed that50~of the workers who in-migrated·from
outsi de of Al aska,or from other parts of Al aska outsi de of the
Railbelt Region,and lose their employment on the project,will
out-migrate.They wi'l1 leave their places of relocation and return to
their original place of residence or go elsewhere in search of
employment.
On large projects in the lower 48 states,an average of about 30-40
percent of the workers who completed their employment on projects chose
to remain at their places of relocation.The percentage is assumed to
be hi gher for thi s .project because it is expected that workers wi 11
stay in the area after construction on Watana ends,hoping to obtain
employment on the Devil Canyon Dam during 1994-2002.After 2002,it is
expected that a large number of these workers will choose to remain in
the area because by that time they will know about job opportunities in
the area and will have an attachment to the area.
It is assumed that workers who relocated from areas of the Rai~lbe1 t·
Region to pl aces closer to the work sites,do not outmigrate when'their
employment of the project ends.Instead.these workers remain at their
places of relocation and search for new employment.
51
3:Population Calculations
The cumulative population influx into each impact area is calculated in
the model as a function of :(1)the cumulative number of in-migrating
direct workers;(2)the percentage of those workers that are assumed to
be accompanied by dependents;and (3)the average number of dependents
per accompanied worker.
It was assumed that 100 percent of the direct workers who relocate to
the Railbelt region will be accompanied by dependents (The model is now
structured to allow this percentage to vary).Since housing will be
provided on-site,there will be little incentive for most single
workers who come from outside the Railbelt region to establish
residences in a nearby community.On the other hand,in-migrating
direct workers with families who cannot obtain family housing on-site
will be more likely to desire housing for their dependents in the
region.It should also be noted that a large percentage of the work
force for this project will be skilled tradesmen,and such workers are
more likely to have families than unskilled construction laborers.
This assumption can be easily changed in the computerized model,for
sensitivity analysis purposes.
An assumption of 2.11 dependents per accompanied construction worker
was used to calculate the population influx associated with the direct
work force.This figure is an average derived from a survey of
constructi on projects throughout the United States that was performed
for the U.S.Corps of Engineers (U.S.Army Corps of Engineers,June
1981).Comparable data on Alaskan projects are not available.The
resultant population per household figures differ from the household
size projected for the state.The specific construction worker measure
was used because construction workers have been observed to have
characteristics slightly different from the population as a whole.
52
4.Payroll
Payroll is calculated by multiplying the number of workers of a given
trade by the number of hours worked in an average month by the hourly
pay rate.The payroll figures are projected in constant 1981 dollars.
Numbers of Hours.The assumptions on numbers of hours varied by type
of worker:
Laborers -
Semi-skilled/skilled -
232 hours
232 hours
(54 hours per
wee k,4.3 week s
per month)
(54 hours per
week,4.3 weeks
per month)
Administrative/Engineering -208 hours (48 hours per
week,4.3 weeks
per month)
Operations Work Force -208 hours (48 hours per
week,4.3 weeks
per month)
il'/f<W...
,I""'"
Wage Rates.Wage rates for laborers and semi-skilled/skilled workers
were obtained from the Alaska Department of Labor (ADOL)and are
displayed in Table 7.These wage rates are routinely collected by ADOL
through industry surveys,and are the workers'base rate of pay
exclusive of any fringe benefits and prior to standard deductions.
Wage rates for engineering/adminstrative ana operations/maintenance
personnel were obtained from Acres American,Inc.and are the workers I
Alaskan base rate of pay exclusive of any fringe benfits and prior to
standard deductions.These wage rates do not include travel
allowances,housing allowances,or other other highly variable types of
compensation.
53
Table 7
1981 HOURLY WAGE RATES USED TO CALCULATE PAYROLL
TRADE
LABORERS
Dr;11 ;ng
cement
Pumping
Material Handling
Securi ty
Pol ice
Waste Di sposa1
HOURL Y WAGE
$18.30
17 .13
16.16
15.66
6.10
10.10
14.43
TRADE
Blasting
Laborers
Excavating
Mov;ng Storage
Fire
Janitor
HOURLY WAGE
$11.36
16.62
18.30
7.17
7.55
10.00
$15.00
13.21
17.48
15.80
6.00
5.75
7.63
16.93
20.97
17.57
9.50
18.51
18.82
20.73
13.13
5.71
19.45
10.24
18.29
7.21
6.41
4.67
9.49
SEMI-SKILLED/SKILLED
Stationary Engineer
Machanic -Machine
Mechanic -Engine
Truck Driver (Light)
Bus Driver
Radio/T.V.
Medical Assistant
Structural Steel
Bo i 1ennakers
E1 ectroni cs
Rail Transport
Carpenters
Roofers
Plumbers
Chefs
Kitchen Workers
Electrical Transmission
Photography
Airplane Pilots
Bookkeeping
Ac commoda ti on
Writers
Office Managers
ADMINISTRATIVE/ENGINEERING
Electrical Engineer 14.37
Civil Engineer 14.17
Mechanical Engineer 11.38
Mining Engineer 22.00
Geologist 12.92
Hydrology 12.00
Managers 9.49
54
Electric Powere Gen.
Mechanic -Auto
Tr.uck Driver (Heavy)
Air
Nurses
Telephone Operator
Purchasing Agent
Sheetmetal
Welders
£1 ectri ci ans
Painters
Bricklayers
Pipefitters
Bartenders
Cooks
Launder;ng
Recreation
Nursery
Secretari al
Data Processi ng
Teachers
Commercial Artists
La ndscapers
Electrical Eng.Draft
Civil Engineer Draft
Mechanical Eng.Draft
Surveyers
Geotech
Envi ronment
Misc.Professionals
$14.37
,4.81
15.80
9.50
9.14
6.09
12.45
20.93
17.46
21.31
18.65
18.93
20.73
8.25
8.12
5.94
6.46
4.61
7.24
7.63
7.87
7.45
9.25
11.10
9.21
9.21
12.92
10.10
8.92
10.00
c.Secondary Work Force
1.Multipliers
Secondary employment was estimated by applying location and
time-specific secondary employment multipliers to the on-site
construction work force and any operations workers that maintain
permanent residences in the region outside of the villages and
construction camps.These work forces include both the single and
married workers discussed in the previous section.The following
multipliers were applied to these work forces:
The value of each location-specific multiplier was assumed to increase
with time due to import substitution and other factors that reflect a
maturing and growing economy.
It is implicitly'assumed that the secondary employment multiplier
associated with workers housed on-site is zero.This multiplier is
expected to be very low or insignificant in all areas except,perhaps,
Cantwell and the Mat-Su Borough.Accordingly,the multipliers for
these areas have been raised slightly.
The secondary employment multiplier for Anchorage was developed as part
of an in-depth theoretical and empirical analysis of the Anchorage
economy (Tuck,1980),and the multiplier for Fairbanks was taken from
an industrial development projects impact assessment model developed by
Dr.Bradford Tuck and Environmental Services Ltd.for the Fairbanks
Northstar Borough.
The secondary employment multiplier for the Mat-Su Borough is based
upon research conducted jointly by Dr.Tuck and Frank Orth &
Associates,Inc.The multiplier was initially e~timated to be 0.76,
and was raised to 0.80 to account for the expected effect of
expenditures made by workers who reside at the camp or village and take
occasional excursions in the Railbelt Region and/or travel to their
residences outside of the Railbelt Region.
Multipliers for the remaining census divisions are based upon work
conducted by Dr.David Reaume (Reaume,1980).Dr.Reaume estimated
regional multipliers as follows:
Gulf (Cordova-McCarthy,Kenai-Cook Inlet,Kodiak,Seward,and
Valdez-Chitina-Whittier census divisions):0.2
Interior (Fairbanks,S.E.Fairbanks,Upper Yukon,and Yukon-Koyukuk
census divisions):0.4
56
.-,
~,
The multipliers used for the Kenai-Cook Inlet,Seward,and
Valdez-Chitina-Whittier census divisions are slightly higher than Dr.
Reaume's estimate for the Gulf Region.This is because it was assumed
that the secondary sectors of these census divisions'economies would
gro\'i relative to the basic (direct)sectors of their economies during
1980 -1983.
The mUltiplier used for ·the S.E.Fairbanks census division is lower
than that for the Interior Region because it was known that the
multiplier for the Fairbanks census division was about 1.5.Given that
the economy of S.E.Fairbanks is far less developed than that of
Fairbanks,a multiplier of 0.2 was assumed for S.E.Fairbanks.
The model is structured to allow for adjustment of these mUltipliers.
This flexibility is especially appropriate because several of these
multipliers may change more or less qUickly than the rates of change
assumed above.
Fl ex;bi 1i ty is also important because it may be appr-opri ate to lower
the multipliers associated with the direct construction work force.
Recent research (Denver Research Institute,1982)has shown that th~se
multipliers are frequently over stated.Accordingly,the model will be
run using several values for the mUltipliers.
2.Origin and In-migration
Since the employment multipliers were applied to the on-site
constructi on workers accordi ng to thei r pl aces of resi dence,the
di stri buti on of secondary sector j obswi thi n the region was
simultaneously determined.Thus,it was assumed that secondary sector
jobs wi 11 be created w.here constructi on workers rna i nta in thei r
permanent residences •
Some of these jobs will be filled by local residents while the
remainder will be filled by i n-mi grant workers from other areas.The
number of in-migrating secondary workers was determined by estimating
57
the percent of total secondary jobs,created in each census division
and community,that is likely to be filled by in-migrants.The
following percentages were used:
Anchorage:25%
Kenai-Cook Inlet:15
Seward:a
Fairbanks:15
S.E.Fairbanks:20
Valdez-Chitina-Whittier:30
Yukon-Koyukuk:90
Mat-Su Borough:
Palmer:
Wasilla:
Houston:
Trapper Creek:
Talkeetna:
Other Areas:
l~
10
10
70
25
10
These percentages resulted from an analysis of the amount of labor
potentially available at each location.Unemployment data,labor force
participation rates,and underemployment information were utilized in
this analysis.These percentages were then applied to the total
secondary employment estimates,by location,to obtain the number of
in~igrating secondary workers in each location.
It should be noted that this represented an extension of the economic
base method,as this method usually ignores underemployment of labor
and often results in overestimation of the in-migration of secondary
workers and related population.This extension serves to provide for a
more realistic (lower)estimate of in-migrant secondarY workers.It
should also be noted that the percentages discussed above will be
estimated for other locations (impact areas)at a future time.
58
i""""
3.Population Calculations
Cumulative population influx associated with the secondary work force
is calculated for each impact area by multiplying the
population-per-household measures that were projected for the state
under the Base case by the estimated number of in-migrating secondary
workers.It was assumed that these workers would have the same general
demographic characteristics as present residents.
D.Housing Impacts
The impacts of the project on housing are quantified using the
following steps:
1.The number of cumulative project-related in-migrant households
is calculated as equalling the number of direct and secondary
workers that in-migrate into a community or area by a given year.
2.The percent increase that this number of households represents
of the total projected number of households in the impact area
is calculated.
3.The projected project-related influx is compared to the number
of vacant houses that is expected under "wi thout projectJl
condi ti ons.
59
VI.PUBLIC FACILITIES AND SERVICES
A.Overview of Methodology
The general approach to forecasting public facility and service
requirements during 1985-2005 was:
1.to develop appropriate standards.for each service category and
for each relevant community,that relate service and facility
requirements to the size of population;
2.to assess the adequacy of existing facilities and services and
to quantify any over-or under-capacity using these standards;
3.to estimate future needs based on the application of these
standards to the population growth forecasts with and without
the Susi tna project;
4.to indicate the significance of the impact on local
jurisdictions;and
5.to provide indicators of need for project-impact mitigation
measures.
B.Geographic Scope
Projections of impacts of the project on pUblic facilities and services
are calculated only for communities and other jurisdictions in the
Local Impact Area.The flexibility to project facility and service
requirements of other communities and jurisdictions in the Railbelt
region has been built into the computerized model.At this tim~.
however,no further work has been done to develop appropriate per
capita service standards for these jurisdictions.
60
""'I
.1'
C.The Computerized Module
The public facility and service model utilizes three types of data
input.First,the module reads in the population and household
projecti ons from a data fil e that is created as an output of the
economic-demographic module.Second,assumptions on service standards
and data on capacity are accepted.Third,information on present and
pl anned capaci ty is entered.
A schematic of the structure of the facilities and services module is
presented in Figure 9.Per capita service standards are multiplied by
the projected population of each comnunity,under the "with project"
and "without projectJl scenarios,and the results are stored as service
requirements for that community.The effects of the direct population
influx and the total project-related population influx are calculated
independently,so that direct and total impacts can be separated for
mitigation planning purposes.
Impacts of the project are displayed quantitatively in various ways.
Project-related requirements are compared to the requirements without
the project as a percent increase,and to 1981 capacity in both
absolute and percent capacity utilization terms.
The results of the model are presented for each community or impact
area,by variable,on a yearly basis.Table 8 is an example of the
report format that is produced by this module.
D.Types of Service Standards
Service standards can be divided into two categories--average and
prescriptive.Average standards are based on recent data on existing
service levels on a per capita basis for a given area.Average
standards may be based on national,regional,state or local averages,
or on averages for a given type or size of cormnunity;their
distinguishing feature is that they are based on an average of what
currently exists.As such,they reflect the realities of funding and
staff 1imi tati·ons that l.oca.l governments face .
61
FSER/POLICEV/POllCWAH/FSERRPT
Alternate 02 ot 02
06/12/83 AT 02:52:21
Table 8 USER RlH
IMPACT OF THE PROJECT ON POLiCE PROTECTiON
IN THE MATANUSKA-SUSITNA BOROUGH
INUMBERS OF OFFICERSl
---------------------------------------------------------------
YE AR S 1985 1986 1987 1986 1989 !990 199 I 1992 1993
------- ------- -------------------_..........-.....--------------........------_....-
PROJECT-RELATED REQUIREMENTS
----------------------------
Direct Project o .0 0.0 0.0 0.0 0.0 {).0 0.0 0.0 0.0
Total Project o .0 0.0 o .0 0.0 a .{)o .0 0.0 o•(I o .0
m
N BASELINE (Cum.)26.0 33.0 35 .03I.0 37.0 39.0 4 I .{)42.0 45 .0
-----------------------~------------------------------~------------------------.---
TOTAL REQUIREMENTS 26.0 3 I .0 33.0 35.0 37.0 39.0 4 1 .{)42.0 45.{)
------------------======:;==.===~=====;=;;;:;;;:============;;;:====.;:;;::==__,;;;:i:i;l ===;;;========:=lO:l::;;;:;;;;:==~
Direct Require.As %
Increase Over Basel.0.0 o .0 0.0 0.0 0.0 0.0 o .0 o•{)0.0
Total Require.As %
Increase Over Bas e I .0.0 0.0 o .0 0.0 o.0 0.0 0.0 0.0 0.0
I 981 Capacity 20.0 20.0 20.0 20.0
20.0 20.0 20.0 20.0 20.0
Excess (Underl Cap.e 8 . 0 ) ( 1 I . 0 )(13.0l ( I 5 . 0 )(17.0)(19.0)<21.0)( 2 2 . 0 )(25 • 0 I
%Capacity ut:lllz.140.0 155 .0 !65 .0 I 75 .0 185 .0 I 95 .0 205.0 2 I 0 • 0 225 .0
Figure 9
STRUCTURE OF PUBLIC FACILITIES AND SERVICE MODULE
8~c.../.~l.~
fJr~Lc:.t
3,t
3
R-v£c/-R~Ia{£
3,(
f),r£,f
PrfJjLc..I-RL/a.I~J.
~:
Se n',::"£.S -I~o/Is
>
(.3-<~3~)
Vu a.rr ;'"!a.I"v c!
&;o'-e:.~..s/o/(0 r
.:£rea.r:..1.s
,;..r:zcr~o....rc.-().;<..,
8a.st!:.Jt1l:-
£,C r'l.a...s L 0((1
8a...s£;;~~1/7 ;Uo~.
Cc..;o12.CI'~til /:z Cli or?
!J1.5Ir;J",lto'7 of f;,crz:.o...S<::.c;Lr c::::-5.r a..~j,C.63
,....~p"s of :t,forn1ct/~",
i./a-f£.-r }Ja.//:,-r..r ~~r /0.;;
s~~-..--JClaAS"~u4'
!"""So~-~Ua.-sl£-a.c~.s ;:;~/~E"
/l//f;,-V O //c.c:...-/?C/,n(1)c/07 ;00 leG.
/....//../('/.j /()I;70.5~'rC2Ys -L?J>./c UI)(joc].ors
S Jo o/s -c.k..ss-roo/71J l~aJif")
For some service types,prescriptive standards are set by relevant
agencies or associations.For instance,a state government may require
certain standards for health care and education;standards for fire
protection based on insurance tables may be used.widely.These
standards often vary by size,type and community,and may be voluntary
or mandatory.
A mix of average and prescriptive standards have been used in this
analysis.The objective has been to provide detailed measures of
adequate service levels,for those services which the local governments
now provide,while keeping under consideration the resource constraints
that communities face.Local preferences,based upon conversations
with local,state and borough officials,have been taken into account.
For some facilities and services,the required level of service varies
among communities,depending on factors such as the size of the
community and the type of community (urban,suburban or rural).
In some cases,relevant standards may be based on variables other than
population per se --for example,the number of dwellings or the number
of school-age children.These variables are related to population
levels,but the actual ratios may change over time.Service categories
such as education and health care are especially sensitive to
demographic changes.Where possible,predictors of demographic changes
have been incorporated into the model.
Due to the many factors that influence the needs for public facilities
and services,the uniqueness of each community,and the subjectivity in
deciding adequate service levels,the standards used in the model
should not be considered absolutes,but rather as general indicators of
changing requirements with and without the Susitna project.A summary
of the standards used is displayed in Table 9.In the sections below,
specific considerations-relating to the choice of standards are
discussed.
64
....
-r
For some service types,prescriptive standards are set by relevant
agencies or associations.For instance,a state government may
require certain standards for health care and education;standards
for fire protection based on insurance tables may be usedwtdely.
These standards often vary by size,type and community,and may be
voluntary or mandatory.
A mix of average and prescriptive standartts have been used 1n this
analysis.The objective has been to provide detailed measures of
adequate service levels,for those services which the local
governments now provide,while keeping under consideration the
resource constraints that communities face.Local preferences,
based upon conversations with local,state and borough officials,
have been taken into account.
For some facnities and services,the required level of service
varies among communities,depending on factors such as the size of
the community and the type of community (urban,suburban or rural).
In some cases,relevant standards may be based on variables other
than population per se --for example,the number of dwellings or
the number of school-age children.These variables are related to
population levels,but the actual ratios may change over time.
Service categories such as education and health care are especially
sensitive to demographic changes.Where possible,predictors of
demographic changes have been incorporated into the model.
Due to the many factors that influence the needs for public
facilities and services,the uniqueness of each community,and the
subjectivity in deciding adequate service levels,the standards used
in the model shaul d no't be consi dered absol utes,but rather as
general indicators of changing requirements with and without the
Susitna project.A summary of the standards used is displayed in
Table 9.In the sections below,specific considerations relating to
the choice of standards are discussed.
65
Table 9
SUMMARY OF PUBLIC FACILITY AND SERVICE STANDARDS FOR
SELECTED CXlMMJN ITIES IN THE LOCAL II-F'ACT AAE.A
Trapper Mat-Su
Pa Imer Was r II a Houston Creek Ta J keetna Borough Cantlie I I
Water Supp Iy
Average Water S~pply IZQ-Isdl 120-ISdl
(gpd per capital
Sewage Treatment
Sewage Treatment ISO
(a verage gpd per cap It a)
SolId Waste Disposal
Landf II I Requirements .il-.2I b .11-.21°.11-.21°.11-.2I b •11-.21 b .11-.2I b .1 1-.2I b
(acres per 1,000
popu latlon)
EducatIon
Average Pr Imary 25 2S 25 25 25 15
Schoo I-Age Chi I drsn
To Teacher Ratio
Average Secondary 21 21 21 15
School-Age Chi Idrsn
To Teacher Ratio
Teacher to Support 8:!8:1 8 :1 8:I 8:1
Staff Ratio
Health Care
Desired Hosp Ital Bed 55%
O:cupa ncy Rate
Law Enforcement
Po IIce Off i cers 1.5 1.0-1.5 1.0
(officers per thousand
population)
Parks and Recreation
Playgrounds (acres per 3.9 3.9 3.9
1000 d""ei I r ng un its)
Neighborhood Parks 3.3 3.3 3.3
(acres per thousand
dwel II ng un its)
CommunIty Park 4.8
(acres per thousand
d""elilng units)
Assumed to Increase from 120 gallons per day per capita in 1981
to 150 ga I Ions per day r n 2000.
b Assumed to increase from .1 I acres per year per thousand populatIon In 1981
to .21 acres per year in 2000.
66
-
-
I~
E.Assumptions and Service Standard Used
1.Water Supply
Water systems are comprised of three components --the supply source,
the treatment facility and the distribution system.The most widely
used standards for water service are the average and peak water
consumption per capita.in terms of gallons per day (gpd).Facility
standards sometimes include pipe length per thousand dwellings,and
treatment capacity.
The standards are relevant only for communiti es that have or are
expected to develop water systems.Only two communities in the Local
Impact Area,Pa 1mer and Wasi 11 a,have ci ty-wi de water supply systems.
Other residents,including inhabitants of the communities that will be
most affected by the project,rely on i ndi vi dual well s or IIcommuni tyll
systems that serve a particular subdivision,trailer park or other
small area.
An average per capita water consumption standard of 120 gallons per day
in 1981 rising to 150 gpd by the year 2000 was used.The city of
Palmer currently has an average per capita water use rate of 120 gpd,
and this relatively low usage may be attributed to the relatively small
amount of industry in the area.It is expected that future growth will
include an increase in business activity and hence a rise in per capita
water consumption.
2.Sewage Treatment
The amount of sewage generated is a function of the amount of water
that is used daily.In the literature on national standards,it has
been estimated that an average of 65 percent of total water supplied
~ecomes sewage,or 100 gpd per capita,with the remainder used for
miscellaneous purposes such as watering lawns and gardens,firefighting
and generating steam (Stenehjem &Metzger,1980).This standard is not
appropriate for application to many Alaska communities.In the winter
67
in parts of Alaska,more water than required for use flows through the
distribution system,in order to keep the water from freezing within
the pipes.This water is then returned as sewage.resulting in sewage
flows representing close to 100 percent of water use.This is the case
in Palmer,where sewage requirements equal 100 percent of average water
usage,or 120 gallons per day per capita.For the purposes of
projections of impacts,a constant standard of 120 gpd has been used
for Palmer,the only community with a sewage treatment system in the
Mat-Su Borough.and for Wasilla,which is planning a sewage system at
this time.
3.Solid Waste Disposal
Solid waste can be disposed through incineration or sanitary landfill
disposal;sanitary landfill has become the prevalent mode.-Facility
requirements for solid waste disposal can be measured in terms of the
amount of land needed per capita on an annual basis.Pubiished
standards range from 0.2 to 0.3 acres per thousand people,depending on
assumptions of pounds of waste per capita,depth of the site and the
rate of compression of the waste.
A lower standard of .11 acres per thousand population has been assumed
initially for communities in the Mat-Su Borough and other communities
in the Local Impact Area,based on the premises that waste production
per capita is much lower and the fill depth of the central landfills is
twice as high as national averages.This standard is calculated to
rise to 0.21 acres by 2000 and held constant at this level between 2001
and 2005.
4.Education
The major determinant of the requirement for educational facil-ities
a~d ~ervices is the ratio of school-age children to population,
modified to take into account private school attendance.Two different
methodologies were used to estimate the number of school-age children
associated with the (1)Base Case population and (2)in-migrant
population associated with the Susitna project.
68
I~
-
-
Under the Base Case,for the Mat-Su Borough,the standards that the
school district uses for planning were used in this study as well.
Short-term planning through 1987 uses an estimate of 22.8 percent
(school-age children :total population).For long-range planning
purposes,an estimate of 25 percent is used.For the purposes of this
study,the ratio is assumed to rise gradually from 22.8 percent in 1987
to 25 percent in 2000 and then hel d constant at that 1evel through
2005.In Cantwell,the present 18 percent level was assumed to remain
constant over time in the Base Case.
The number of school-age children accompanying workers on the project
has been estimated using a ratio that was calculated,through surveys
of other large projects,of .89 schoolchildren per i-n-migrant worker
accompanied by dependents (U.S.Army Corps of Engineers,1981).The
number of school-age children associated with the in-migrant secondary
population was calculated on the same basis as Base Case school-age
chil dren.
A major service standard for education relates the number of school-age
children to the number of classes and teachers.Local preferences have
been used as standards in this case.In the Mat-Su Borough school
aistrict,planning standards include an optimum of 25 students per
class for primary schools and 20-22 for secondary schools.In
addition,Mat-Su Borough statistics show that teachers comprise about
50 percent of total school district personnel requirements.In
Cantwell,the Railbelt School District1s planning standard
teacher-student ratio of 15:1 was used.
Requirements for classroom space can be measured in terms of number of
cl assrooms or al ternatively,the number of square feet per pupi 1 (90
square feet for primary school students and 150 square feet for
secondary school students).The square feet calculations are useful to
the estimation of the cost of constructing new facilities.The model
is able to provide both sets of calculations.
69
It is assumed that the present ratios of primary school students (54
percent of total)and secondary school students (46 percent of total)
will remain constant.It is beyond the scope of this analysis to
forecast changes in distribution by school and by grade.
5.Heal th Care
Standards for acute public health care focus on the capability of
hospital facilities and staff to accommodate the expected number of
patients without building overcapacity that will then add to hospital
costs.While rule-of-thumb bed multipliers of between 2.1 and 5.8 beds
per 1000 population are often used,it has become customary to base the
number of beds required on a measure of the long-term daily average
daily census of patients using the hospital divided by the desirable
occupancy rate.In Alaska,the recommended occupancy rates are 80
percent for urban hospitals and 55 percent for rural hospitals.The
formulas used are:
Acute Care Patient Days at Valley
Hospital plus Days at Alaska and
Providence Hospitals for Borough
Resi dents
/Borough =
Popul ati on '
Hospital Use Rate
for Borough
Resi dents
Hospital Use Rate for
Borough Resi dents x
Estimated
Borough /
Population"
365 days
"in year
=Projected Average
Daily Census (PADC)
Projected Average
Daily Census x Proportion
of Bed Need
Met at Valley
Hospi tal
Minimum
I Occupancy
for Rural
Hospi tal
(55%)
=Valley Hospital
Acute Care Bed
Need
A significant aspect of the hospital system in Alaska deserves
note.The Municipality of Anchorage has developed a comprehensive
acute and long-term health care system that provides the main
medical care for the residents of Southcentral Alaska,as well as
other areas of the state.A large percentage of people living in
areas such as the Mat-Su Borough,as well as Cantwell,presently
elect to use hospitals in Anchorage over the local hospital due to
the larger number of doctors (especially specialists)and the more
modern facilities.However,the percentage of patients that use
70
-,
,P"!l"I'
-
the Valley Hospital in Palmer has been rlslng rapidly in recent
years,and this trend is expected to be accelerated by the planned
ad'dition to and renovation of this hospital,as well as the possible
addition of certain medical specialists to the staff.It is as-
sumed that the usage of Valley Hospital as a percentage of total
Alaskan hospital use by Mat-Su Borough residents will rise from 38
percent in 1980 to 75 percent in 2000 and remain constant at that
1evel through 2005.
Age and sex distributions of the population are important
determinants of hospital use.Due to data limitations,these and
other demographic factors have been assumed to remain constant.As
data become available from communities and workers through the
monitoring program,the model may be restructured to project age and
sex distributions.
6.Law Enforcement
Police service standards range from one officer per thousand
population in unincorporated rural areas to 1.5 officers per
thousand population in small communities and 2 officers per thousand
in moderately large cities.For rural parts of the Local Impact
Area,a standard of 1.0 officers per thousand was applied to the
population projections.For the southern part of the Mat-Su Borough
(outside Palmer,which has its own police force),a standard of 1.5
officers per thousand population was used;it is anticipated that
the growing sUburbanization of the borough will soon justify use of
the increased standard.
Alaska State Troopers judge the relative adequacy of their staffs in
tenns of the average ca"se load (i.e.number of crimes)that each
officer is charged with investigating.Six cases per Trooper is
considered average,and eight is considered the level at which
additional staff is needed.In the Mat-Su Borough,in 1981,there
was approximately one Trooper per thousand population,and the
average case load was about six per officer."This indicated that
the rural standard discussed above was appropriate for this area.
71
7.Recreation
Projected requirements for recreation facilities.in terms of
acreage for playgrounds.neighborhood parks and community parks,
were calculated by applying national standards for rural areas.
Standards for playgrounds and neighborhood parks are most applicable
to the cities of Palmer,Wasilla,and Houston,whereas community
parks are planned for larger areas,and the standard pertaining to
this category is most relevant to Mat-Su Borough as a whole.
8.Other Facilities and Services
Some categories of public services did not lend themselves to this
type of quantitative approach.The method of analysis used for
these categories are discussed below.
9.Fire Protection
The major criteria that can used to evaluate the adequacy of fire
protection are (1)the available water flow rate (gallons per
minute),(2)response time,and (3)manpower availability.There
are several standards that relate these variables to population size
in the socioeconomic impact literature.Water flow,response time
or service radii,and the equipment capacity are commonly used.It
is common in communities of less than 7,000 to rely on volunteer
firefighters;as this is not a cost item,requirements for manpower
have not been projected for communities of the local impact area.
However,fire protection planning in Alaska,as in many other
states,often takes the form of trying to achieve a certain fire
rating as measured by the Insurance Service Organization (ISO).The
ISO is a national organization that rates fire protection on a scale
from one (best)to ten (worst);fire insurance rates closely reflect
these rati ngs.
72
Communities without a community water system can at best achieve an
ISO rating of 8 (which is the objective that the Mat-Su Borough
presently hopes to achieve for its most populous fire districts).
Requirements to achieve a rating of 8 are:that dwelling class
property be within five road miles of a fire station (on roads that
are in good,condition)and that the fire department has demonstrated
its ability to deliver 200 gallons per minute (gpm)for a period of
twenty minutes without interruption.The latter requirement implies
a need for a capaci ty of 4,000 gall ons of water "o,n wheel s.II The
ISO rating does not relate service availability to the size of
popu1.ati on.
10.Transportati on
The impacts of the project on transportation were analyzed with the
consultation of public officials who have responsibility for
transportation infrastructure in the region.
The capacity of the Parks Highway,the main highway in the project
area,was discussed with the Alaska Department of Transportation and
Publ ic Facil iti es,and specifi c areas whi ch coul d be transportati on
bottlenecks were determined.Officials at the Alaska Railroad
confinned that the rail line is underutilized,and could easily
handle the additional freight that the project would generate.
The Mat-Su Borough has a skeletal roa9 framework which will need to
be expanded significantly to handle the population growth that is
expected in the next twenty years.Discussions with Mat-Su Borough
officials yielded estimates of the threshold borough population
sizes that are expected to trigg€r the need for additional roads~
For instance,as the population of the borough exceeds 30,000,there
will be a need to build a collector road ring with a radius of four
or five miles from Wasilla.Using these threshold levels,it was
possible to estimate by how much the population influx related to
the Susitna project would accelerate the need for these
;nfrastructure addi tions.
73
Possible future enhancements to the impact model would entail (1)
projecting the increase in traffic counts on major roads in the
impact area related to the project and (2)relating the
project-related population influx to the demand for airport
facil i ti es.
74
....
~-.
VII.FISCAL MODULE
A.Overview of the Fiscal Impacts Module
1.Purpose
The purpose of fi scal impact analysi s of resource development
projects,such as the Susitna Hydroelectric Project,is three-fold:
o To identify the types and magnitude of project-induced
changes in the expenditures and revenues of local governments;
o To identify or estimate the timing of project-related
expenditures and revenues;and
o To make the above infonnation available to the mitigation
planning process.
2.General Approach
The general approach taken in the analysis of the fiscal impacts of
the Susitna HYdroelectric project was to consider two futures.
First,baseline conditions were analyzed and projected,for'each
local jurisdiction,to provide a basis for comparison.Second,
conditions with the project were project~d,using data inputs from
the economic-demographic and the public facilities and services
modul es.
In the analysis of baseline conditions,emphasis was placed on
i dentifyi ng the most important sources of revenue and expendi ture
items.Past and current trends in both revenues and expenditures
were examined and analyzed,and these trends were used as the basis
for the projections of future fiscal conditions in the project area.
In the projection of fiscal impacts related to the project,the
effects of the direct population influx and the total
project-related population influx are calculated independently,so
that direct and total impact~can be separated for mitigation
planning purposes.
75
B.Impact Areas and Local Jurisdictions
Within the project impact area,there are a number of jurisdictions
that hold a variety of powers to collect taxes or otherwise receive
revenues and to provide certain pUblic services.The fiscal powers
vested in these jurisdictions.to a large extent,determine 1ikely
sources of future revenue and future needs for expenditures for
public facilities and services.The distribution of fiscal
responsibilities among jurisdictions also will affect the extent to
which any given jurisdiction is impacted by the project.In the
following section a brief description of the government organization
and fiscal responsibilities of jurisdictions in the project area is
given.For additional information on government organization in the
project area,refer to Frank Orth &Associates,Inc.,1982.
1.The Municipality of Anchorage and the City of Fairbanks
These centers comprise by far the largest population centers in the
project area.The Municipality of Anchorage is a first class home
rule municipality while Fairbanks is a first class city.This first
class status provides both population centers powers to levy taxes
on real and personal property as needed in order to provide services
to their residents.Each one of these centers provides a wide range
of public facilities and services.
2.Ma t-Su Borough.
The powers and responsibilities of the Borough are comprised of four
general functions:general fund administration.provision of fire
protection and road services to service areas.land management
functions,and responsibilities for the school district.General
fund administration and responsibility for the school district are
part of the Borough's area-wide duties to serve all areas in the
Borough;provision of fire protection and road maintenance to
service areas are non area-wide functions whereby only selected
areas are served.
76
-
....
3.Incorporated ci ti es
--
The incorporated cities in the Mat-Su Borough are Palmer,Wasilla,
and Houston.Palmer is a first class home rule city,while both
Wasilla and Houston are second class ci~ies.
4.Palmer
As a home-rule city,Palmer has certain certain powers of taxation.
Home rule and general law municipalities may levy tax on all real
and personal property located in the municipality to support
services provided throughout the municipality.The maximum rate of
taxation is three percent (thirty mills)of the full and true value
of taxable property.
5.Wasilla and Houston
As second class cities,Wasilla and Houston require a majority vote
to exercise the power of taxation.In addition,there is a tax
ceiling of five mills.For additional discussion of the tax powers
of local authorities in the State of Alaska',refer to Frank Orth &
Associates,Inc.,1982.
C.Projection of Revenues and Expenditures
1.Revenues
Sources of revenue are,in the mai n,-detenni ned by the taxati on
powers of a given jurisdiction together with its eligibility for
intergovernment transfers.For each jurisdiction.the major
traditional sources of revenue were determined and its tax powers
were exami ned.
77
The next step was to determine appropriate methods of projecting future
revenues.The discussion -that follows presents a list of alternative
methods including the ones chosen for this analysis.
a.IIOwn Source ll Revenues
IICk1n source ll revenues i ncl ude all source of revenue that the local
jursidiction raises for itself,such as property,sales and income
taxes.These are a function of the size of the tax base and the tax
rates used.
Property values are influenced by many factors,inclUding the level of
demand as population increases.To estimate changes in the property
tax base,a real rate of growth of four percent was assumed for the
Mat-Su Borough baseline assessed value.This rate is based on recent
observed growth rates in the Borough's total assessed value.For the
IIwith project ll scenario,baseline per capita assessed valuation was
applied to the population influx to estimate additional growth in the
property tax base.Certain tax rates were assumed for the analysis
peri ode
Sales tax revenues were assumed to grow in direct proportion to
population.The sales tax rates were assumed to be constant.
b.Intergovernmental Transfers
In estimating intergovernment revenues,it is important to understand
the criteria used by the state and federal government in allocating
transfer funds to local jurisdictions.Allocations are usually made on
the basis of local population size.Therefore,per capita based
projections are good approximations of this form of revenue and were
used in this analysis.In some cases,both population size and
geographic location are considered when allocating transfer funds.
Whenever appropriate,the per capita based projections in the model
were adjusted to account for location specific factors.
78
,.,..
-
..-
c.Bondi ng
The Borough has in the past utilized school revenue·bonds primarily for
school capital projects.The authority to do thi sis always sought
from the local taxpayers,as,in principal,they are responsible for
repaying this form of obligation.However,the state legislature has
in the past provided varying levels of reimbursement to the borough.
Current law allows up to 90 percent reimbursement of both principal and
interest payments.In this analysis,maximum bonded indeptedness is
projected as a ratio of assessed valuation.
d.Political Factors
It is important to note that political factors,such as the form of
government of a jurisdiction and changes in state statutes,can heavily
influence the amount of revenue that may be available to a local
jurisdiction.For example,a local decision to incorporate or upgrade
the level of incorporation from a second class to a first class city,
can lead to increased taxation powers and potential revenues.
Similarly,a decisio.n at the state level to change the criteria for
providing revenue sharing assistance to local jurisdictions can have
far reaching effects.
2.Expenditures
A first step to projection of expenditures is to identify the types of
public facilities and services provided by a jurisdiction.This
initial step provides a listing of the expenditure items for wnich..
projections must be made.Suitable methods can then be identified for
making the projections.In the following section,alternative methods
are discussed as is the rationale for selecting the method which was
used in this study.
79
Generally,there are two groups of methodologies for projecting public
expenditures:(l)the average cost approaches and (2)the marginal
cost approaches.Methodologies in both groups were examined for
advantages and disadvantages and for applicability to the project
area.The following is a brief review of these methods.
a.Average Cost Methodolog-ies
Average cost methodologies include the per capita cost,service
standards,and cross-sectional regression analysis approaches.The per
capita cost method is based upon the assumption that.in real terms,
present per capita costs are reasonable estimates of future cost.It
is a relatively inexpensive methodology to apply,as it readily
utilizes available historic data.Its major weakness lies in its lack
of direct accounting for threshold effects (i.e.predicting the large
amount of new investment that is needed when a community reaches a
certain "s ize threshold"),existence of excess capacity in pUblic
facilities,and economies of scale in providing new services.
The service standards method would multiply the results of the service
requirements calculated in the facilities and services module by unit
costs to project total facilities costs.The cross-sectional
regression analysis approach estimates average service requirements
based on data from several communities in the region.Both the service
standards and regression methods require considerably more data than
the per capita method.Additionally,because the regression method
must draw on regional data to have enough data points,it is sometimes
regarded as being too regionally based to constitute an appropriate
local impact projection method.
b.Marginal Cost Methods
These i ncl ude the case study approach,the comparabl e city method,and
the economic engineering method.An important advantage of these
methods is that they are able to explicitly account for the threshold
effects,excess capacity and economies of scale.However,marginal
cost approaches require great amounts of data,may not be accurate if
80
there is uncertainty surrounding assessment of excess capacity in
public facilities and services,and in addition reqyire great amounts
of .effort to update the estimates..In general,these methods are more
expensive to apply.
c.Criteria for Methodology Selection
The following criteria were used to make a selection of expenditure
projections methodology:
o Simplicity of application while providing reasonably accurate
results;
o Availability of data;
o Ease of update and therefore usefulness in mitigation planning
and mitigation measure revisions;and
a Applicability to impact area fiscal conditions.
The first criterion demands a method that,although simple,would meet
current standards of acceptability.The per capita cost method meets
these requirements and is the most commonly applied fiscal impact
methodo logy.
With the exception of the cross-section regression method,the average
cost methods tend to require historical data that is read"ily
available.The marginal cost methods require great amounts of data
that may not be available and can be complex in application.
I
Cost projections for this project will need to be revised repeatedly to
reflect the most current information on the project and its schedule.
It is,therefore,necessary to have a method of projection that can be
updated easily.Although the marginal cost methods (and in particular
the case study method)can have a great deal of accuracy,their
application demands a correspondingly higher data c011ection effort.
As a result,marginal cost methods are mor~suited to a one~time
appl ication.
81
Using the above criteria,the per capita cost method was selected for
use in this study.It was recognized,however,that the method's
weaknesses could be minimized by incorporating some features of the
Case Study approach.Thus,interviews with local officials were
conducted in order to gain perspectives on trends in public facilities
usage.Furthermore,public facilities thresholds and public
preferences concerning the extent of public facilities and services
will be monitored during the project period so that adjustments can be
made during a dynamic mitigation planning process.During that
process,the per capita multipliers used and assumptions that underlie
them will be compared to actual costs to better facilitate mitigation.
If revised cost estimates are required.they can be made easily and
quickly.This is one advantage of the per capita method -it
facilitates a continuous mitigation process.
D.Link of the Fiscal Module to other Modules
1.Input Da ta
As discussed above,many of the revenue items and most of the cost
items are projected applying per capita multipliers to the projections
of population and school-age children.Per capita multipliers were
obtained or computed from current and historic budgets.Interviews
with local officials supplemented this information.These multipliers
are contained within the fiscal module.The rest of the data are
derived from the other modules of the model.
2.Link to the Economic-Demographic Module
The fiscal module obtains population data from the Economic-Demographic
module.The data extracted corresponds to the type of cost projections
to be made (baseline projections,impact of the direct project-related
population influx,and impact of the total project-related population
influx)and the appropriate phase of the project.Accordingly,changes
in the economic and demographic scenarios affect the revenue and cost
estimates in the fiscal calculations.
82
.....
~
r
3.Link to the Public Facilities Module
A significant portion of the Mat-Su Borough budget goes to education.
In fact,the school district budget constitutes about 58 percent of the
borqugt'1 revenues.Consequently,one of the important variabl es in
projecting fiscal conditions is the number of children in the borough •.
These estimates are provided by the pUblic facilities module.
A possible future enhancement of the fiscal calculations will introduce
a link to the public facilities module to specifically extract
indicators of threshold effects.This linkage would then be used
together with monitoring information to adjust cost estimates,as more
data become available regarding supply shortfall s.
E.Baseline Projections
This section discusses the estimation of baseline projections.A
detailed analysis is given regarding component revenue and cost items,
some of the assumptions made,and specific methods of estimation for
each jurisdiction.The jurisdictions covered are Mat-Su Borough,the
cities of Palmer,Wasilla,and Houston within the borough,the
Municipality of Anchorage and the City of Fairbanks.Within the Mat-Su
Borough,special attention is given to the general fund,the school
operating fund,the service area fund,and the land management fund.
For jurisdictions in the local impact area including Mat-Su Borough and
Palmer,Wasilla,and Houston,considerable effort was devoted to
projection of both the revenues and expenditures.Major sources of
revenue and important expenditure items were identified.The
Municipality of Anchorage and the City of Fairbanks are outside of the
local impact area.Consequently,only expenditure projections were
made.Major expenditure items were emphasized.The following is a
discussion of the module structure for calculations.
83
1.Mat-Su Borough
Revenues:Two types of revenues are projected.They are Il own source ll
revenues and intergovernmental revenues.The only source of own
revenues is the property tax.Intergovernmental transfers received by
the borough include such categories as state shared revenues,municipal
assistance revenues,and federal revenue sharing.All intergovernment
revenues were estimated using per capita multipliers.Property taxes
were projected based on an assumed real growth in th~tax base of four
percent.The applicable tax rates are of two kinds:(1)the area-wide
tax rate and (2)the non area-wide rate.The first is applied to the
total Borough assessed valuation while the second is applied to the non
area-wide assessed value.Residents of those selected areas where the
Borough provides fire protection and road services pay a non area-wide
tax in addition to the area-wide tax that is paid by all residents of
the Borough.The general equations used for the two types of revenues
are given below:
I GRi t =the ith item intergovernment revenue in the year (t)
IGH;t =the i th item per capi ta revenue J •
POP t =population in the Mat-Su Borough J ,
PT t =property tax ,,
AV t =assessed valuation ,,
Mf\=the mill rate (tax rate),,
Expenditure items for the borough,such as area-wide general fund
administration,service area cost items,and land management fund,are
projected based on per capita expenditure estimates using the following
general equation:
COST it =PCCit*POP it
PPC =the per capita cost mUltiplier
POP =the population size
Subscripts:(i)identifies the ith cost item,and
(t)identifies the year.
84
2.The School District BUdget
Revenues:The school di stri ct revenues come primari ly from the state
government,area-wide local taxes,and the federal government.All
government contributions,with the exception of those from the state's
foundation program,are based on school-age population.Foundation
program monies are granted on a per instruction unit basis and take
into account area specific cost adjustment factors.This revenue item,
however,can also be said to be based on population since instructional
units are determined by the number of students.Estimation of property
taxes was discussed above;the state and federal government
contributions are projected using per capita school child revenues and
the total school-age children.The general form of the equation used
is as follows:
SR it =PR i t *TSC i t
S~t =nonlocal school revenue from the ith source
in year (t)
PR i t =revenue from the i th source per school child
in year (t)
TSC t =total school age children in year (t)
3.The City of Palmer Budget
Revenues:The City of Palmer derives revenues from own sources,
intergovernment transfers,and miscellaneous sources.Own sources
include the local property taxes,sales taxes,and service charges.
Own sources constitute close to 60 percent of all revenues while
i ntergovernment sources contr"j bute some 25 percent.Mi scell aneous
sources are responsible for the balance.Own source revenues are
projected using per capita multipliers;intergovernmentrevenues are
projected based on historic percentage contributions.
Other revenue sources are the speci al fund charges for water and sewer
services.The projections in this category were based on per capita
charges.
85
Expenditures:The city of Palmer provides a number of standard
services.Cost projections for all the various services listed below
were based on per capita cost mUltipliers.
Services provided include:
o General administration
o Police
a Fire service
o Pmbul ance
a Parks and recreation
a Health services
o L;brary
o Pub 1i c work s
a Water supply
o Sewer
Thus,the general formula for projecting the total outlay for each item
is as follows:
The various terms in the equation are explained above.
4.City Of Wasilla
Revenues:There are two categories of revenues that the city of
Wasilla receives.They include intergovernment transfers s and
own-sources.Unlike the City of Palmer,Wasilla receives by far the
greatest amount of its revenue from intergovernment funds,which
include state-shared taxes,state and federal revenue sharing,state
grants for capital projects,various transfers from Mat-Su Borough and
elsewhere for the librarys and other miscellaneous intergovernment
transfers.All the revenue items were projected using per capita
revenue multipliers.
86
..-
-
-
Expenditures;Expenditure items for the City of Wasilla include:
o General administration;
o Parks and recreation;
o Library;
o Fire service;
o Capital projects.
All these were projected based on per capita expenditure multipliers
with a general formula of the form:
5.City of Houston
Revenues:Al though the composition of revenue i terns and purposes is
quite varied,there are only two important sources of revenue for the
Ci ty of Houston.These are the state and Mat-Su Borough.To project
basel i ne revenues for Houston,per capita revenues estimates were
obtained for each important revenue item and applied to the projected
population of the city.
Expenditures:To project expenditures,per capita expenditure
multipliers for the various cost items were obtained and used with the
projected population of the city.The applicable expenditure items
oj ncl ude:
o Local government administration;
o Fire service;
o Parks and recreatibn;
o Road maintenence;
o Solid waste.
87
6.Municipality of Anchorage
For the Municipality of Anchorage,expenditure projections were made
using the per capita cost method.Per capita expenditures for major
expenditure items were applied to the population projections;the total
expenditure was then obtained by summing over the individual items.
The most important components of expenditures are as listed below:
o Pol ice;
o Fire service;
o Mibulance;
o Parks and recreation;
o Li brary;
o Health services;
o Transportation;
o Sewage service;
o Solid waste disposal;
o Water supply.
7.City of Fairbanks
As with the Municipality of Anchorage,only the expenditures were
projected for the City of Fairbanks.The per capita cost approach was
used.The items included in the expenditure projections are:
o Police;
o Fire sevice;
o Ambulance;
o Parks and recreation;
o Library;
o Health services;
o Transportation;
o Sewage service;
o Solid waste disposal;
o Water supply.
88
~,
F.Impac t Proj ecti on s
Project impacts were projected using the same formulas as were used in
the baseline projections.One difference in methodology concerns
estimation of property tax revenues associated with the population
influx.The approach was to use the baseline derived per capita
assessed valuation together'with the total population (including
population influx)to estimate total assessed valuation.Tax revenues
are then derived,as in the baseline projections,using the same mill
rate multipliers.
Incremental revenues and costs were projected for vari ous aspects of
the project.The aspects considered in the fiscal calculations include
the direct increment associated with the direct project populations,
and the increment associated with the total population influx.Pr~ject
scenario total revenues and expenditures (Baseline+Project -direct and
secondary)are also projected.
G.Reports
Reports are organized by jurisdiction.The revenues and expenditures
are reported as well as indications of deficits.The revenue
projections reported include baseline revenues,incremental revenues
due to direct population influx,increments due to total
project-related population influx,and overall revenues in the "with
project lJ scenario.Similar information is reported for expenditures.
The reports display total revenues and total expenditures for each
jurisdiction,rather than individual revenue/cost items.However,
back-up tables that report on the detailed computations can be designed
and produced to facilitate local plannning.
For the jurisdictions where both revenues and expenditures are
projected,!>aseline deficits and "with Broject"scenario deficits are
reported.In additi on,the percent increase (decrease); n the
89
jursidiction's deficit as a result of the project is reported.Two
sample reports are included as Table 10 and 11.These two reports are
similar.but differ in the time period of reporting.Table 10 covers
the period from 1985 to 1993 while Table 11 reports on the remainder of
the project development and beyond to the year 2005.
90
1 1 J 'I ')1 1 ]1 J J ]1 I
F ISM/F ISB5MSV/fIBHORIH
06/16/63 ~T I I :50 :55
Table 10
fISC~L MODULE REPORTS
REVENUES ~ND EXPENDITURES
IMPACTS ON BUDGETS
(Thou sa n d s I
Mot-Su Borough Generol fund
USER·lBG
Year 1965 1986 1987 1988 1989 1990 199 I 1992 1993
lD
I-'
------------------ ------------------------------------
REVENUES
PROJECT REl",TED
Dlract Portion
Project Total
B",SElINE PRO'JECTION
TOT'"L REV ENUE·S
EXPENDITURES
PRO J ECT REl ~.T E 0
Direct Portion
ProJact Total
B~SElINE PROJECT ION
T01 ...L EXPENDITURES
Bosal Ina Oat lelts
Totol bellcts
~Incroose In delict
FISM/FISB5MSV/FIBHOR2H
06/16/83 AT 12:15:13
Table 11
FISCAL MODULE REPORTS
REVENUES AND EXPENDITURES
IMPACTS ON BUDGETS
(Thousandsl
Mllt-Su Borough General fund
USER ..lBG
Yeor
REVENUES
PROJECT RELATED
Direct PortIon
Project Totol
:~BASEl.INE PROJECTION
i
TOTAL REVENUES
EXPENDITURES
PROHCT RELATED
Direct Port Ion
Project Totol
BASELINE PROJECTION
TOTAL EXPENDITURES
Bosel Ina Def lefts
Toto!Daflets
$'1:r a ~_I I._\f 1 ~,
1994 1995 1996 1991 !998 1999 2000 2001 2002 2003 2004 200
!.11II!"liI
REFERENCES
Alaska Department of Labor,Wage Rates for Selected
OCcupations,1981.
Alaska Department of Labor,Di vi si on of Research and Ana1ysi s,
personal communication,January 30,1981.
A1 aska Department of Labor,Division of Research and Analysis,
personal communication,December 15,1981.
Alaska Department of Labor,Statistical Quarterly,various
issues.
Alaska Department of Transportation and Public Facilities,
Traffic Division,personal cOl1ll1unication,September 21,1982.
Alaska State Department of Transportation and Public
Facilities,Planning and Research Division,personal
communication,September 22,1982.
Alaska State Department of Transportation and Public
Facilities,Maintenance and Operations Division,personal
communication,September 23,1982.
Alaska Railroad,personal communication,January,1981.
Anderson,E.and J.Chalmers,-Econoroi c/Demographi c Assessment
Manual:Current Practices,Procedural Recommendations,and a
Test Case,Mounta1n West Research,Tempe,AZ,1977.
Arctic Environmental Engineers,Solid Waste Disposal Study,
prepared for the Matanuska-Susitna Borough,1977 and 1978.
Burchell,R.W.and D.Listokin,The Fiscal Impact Handbook,
The Center for Urban Policy Research,Pr1nceton,NJ,1978 ..
Community of Cantwell,Inc.,1982 Population Census,conducted
in coordination with the U.S.Postal Service,Cantwell,AK.
Denver Research Institute,Socioeconomic Impacts of Power
Plants,prepared for Electric Power Research Institute,
February,1982.
Frank Orth &Associates,Inc.Susitna Hydroelectric Project
Environmental Studies,Subtask 7.05:Soc;oeconom1c Analys1s
Phase I Report,prepared for Acres Affier1can,Inc.and the
Alaska Power Authority,April,1982.
Goldsmith,S.and Huskey,L.,Electric Power Consumption for
the Railbe1 t:A Projection of Requ1rements -Techmcal
Appendices,tnst1tute of Soclal ana Econom1c Research,
prepared for State of Alaska House Power Alternatives Study
Committee and Alaska Power Authority,May 1980.
93
Leistritz,F.L.and S.Murdock,The Socioeconomic Impact of
Resource Development:Methods for Assessment,Westview Press,
Boulder,co,1981.
Matanuska-Susitna Borough Engineering Division,personal
communication,January 3,1983.
Matanuska-Susitna Borough Planning Department,Matanuska-
Susitna Borough Population Survey,Palmer,AK,1981.
Matanuska-Susitna Borough Service Area Coordinator,personal
communication,December,1981.
Railbelt School District Superintendent,personal
communication,September 30,1982.
Reaume,D.M.,uAlaska Regional Economies:1980 to 1982 11
,
Daily Journal of Commerce,Seattle WA,December 25-26,1980.
Stenehjem,E.J.and J.E.Metzger,A Framework for Projecting
Employment and Population Changes Accompanying Energy
Development,Argonne National Laboratory,Argonne,IL,1980.
Tuck,S.H.,Economic Development Planning for Anchorage:A
Theoretical and Empirlcal Analysis,Anchorage,1980.
U.s.Army Corps of Engineers,Engineer Institute for Water
Resources,Constuction Workforce,Fort Belvoir.Virginia.
June,1981.
Valley Hospital,personal communication,October 14,1982.
94
.-
,-
NATIONAL MARINE
FISHERIES SERVICE
ALASKA POWER AUTHORITY
,-.334 WEST 5th AVENUE·ANCHORAGE,ALASKA 99501
Mr.Robert W.McVey
Director,Alaska Region
National Marine Fisheries Service
P.O.Box 1668
Juneau,Alaska 99802
August 3,1983
Phone:(907)2n-7641
(907)276-0001
Subject:NMFS January 25,1983 Letter of Comment on the November 15,
1982 Draft Exhibit E of the Draft FERC License Application
for the Susitna Hydroelectric Project.
Dear Mr.McVey:
National Marine Fisheries Service's January 25,1983 comments regarding
the November 15,1982 Draft FERC Exhibit E for the Susitna Hydroelec-
tric Project,and Alaska Power Authority responses to those comments,
were inadvertently omitted from Chapter 11,Exhibit E,of the February
28,1983 formal License Appl icat ion submittal to the Federal Energy
Regulatory Commission.
In order to rectify this omission,this letter transmits our point-
by-point responses to your agency's comments.Your letter and these
responses will be incorporated into the License Application document
authorized by the FERC for distribution to the resource agencies and
the publ ic.-
-I
I~
1.
General Comments
Comment:It appears that many of the basic economic prem~ses upon
which this project was planned have now changed.We believe the
License Application should fully consider the impact of these
events and discuss their effect or impact on overall project
feasibility,the need for Watana to be operational by 1993,and
the economics associated with providing sufficient downstream
flows to minimize fishery impacts.
Response:Following submittal of the License Application on
February 28,1983,the FERC requested similar information concern-
ing project economics and downstream flows.Portions of Exhibits
Band D were revised (as of July 11,1983)and information added
that specifically addresses the economic issues as they apply to
instream flows.For example,in the revised application three new
flow regimes,which consider project economics and instream flows,
were cons idered in addit ion to the seven flow regimes originally
Mr.Robert W.McVey
August 3,1983
Page 2
described in the February 1983 License Application.The revised
License Application will be available to the resource agencies in
the near future.
2.Comment:•••we recommend that Exhibit E of the License Application
include a presentation and analysis of the 1982 data.
Response:
Data from the 1982 field season were incorporated throughout
Chapters 2 and 3 of the February 28,1983 submittal,to the extent
possible.Additional information from the 1982 field season was
provided in Appendix E.2.A of the July 11,1983 submission.
3.Comment:We recommend that the License Application detail ongoing
and proposed studies.
Response:An interagency meeting (including NMFS)was held by the
Power Authority on July 18,1983 to describe the 1983 aquatic
studies progam.Details of the proposed 1984 fiscal year (FY)
field program (July 1,1983 to June 30,1984)were also submitted
(on July 11,1983)to the FERC as part of the supplemental infor-
mation requests.The Power Authority will provide additional
details to the study plans when study scopes for FY 1984 are
.finalized.
4.Comment:We recommend the License
incl ude a more precise descript ion
Application be
of impacts and
expanded to
present the
A.Flow releases based upon weekly rather than monthly
averages.
B.Quantification of "normal"spillages,below the 1 in 50 year
event,passed through the outlet/cone valve facility.
C.Potential peaking operations at Watana without the Devil
Canyon Dam.ACRES has identified this as a possiblity.What
circumstances would dictate such operation?What daily and
hourly fluctuations would result?How would such fluctua-
tions be attenuated by tributary input and the river distance
between Watana and Devil Canyon?
D.Compensation flow pumps at the Devil Canyon facility.What
flows will they provide?How were these flows established?
Are these pumps still planned for this facility?
Response:A and B -The November 15,1982 draft License Applica-
tion has been expanded to include weekly analyses in addition to
the monthly analyses.This has resulted in a quantification of
"normal"spillages,below the 1 in 50 year event,passed through
the outlet/cone facility as described on p.E-2-l1l.
B/C/2
.-
Mr.Robert W.McVey
August 3,1983
Page 3
C.-The potential for peaking operations at Watana without the
Devil Canyon dam has been defined in the February 28,1983 license
submittal (p.E-2-104).A daily variation of not more than 2000
cfs is anticipated and would be attenuated through natural storage
in the river channel prior to reaching Portage Creek.A flow
routing study has not been performed for determining river stage
variation between Watana and Portage Creek.However,the daily
flow variability of no more than 2,000'cfs is not expected to
cause significant changes in water surface elevation downstream
from Devil Canyon.A 2,000 cfs change in flow from 20,000 cfs
would cause approximatley a one-quarter foot change in mainstem
stage neglecting the natural attenuation.It is our judgement
that this change will not adversely affect the downstream fisher-
1es.However,this will be confirmed by future studies.
D -The compensation flow pumps at the Devil Canyon facility have
been eliminated as they were not considered cost effective.The
value of the dewatered reach to the fisheries resource was not
considered significant.
5.Comment:We continue to be concerned about development of a
release schedule which would mi tigate impacts to fisheries.The
draft Exhibit E states that reduced flows could impair fish migra-
tion,de-water spawning and rearing habitat,prevent access to
slough and side channel habitats,and lower or eliminate inter-
gravel flows to slough and side channel spawning grounds.The
minimum flows proposed in Exhibit E,however,were not developed
using any recognized in-stream flow predictive methodologies,and
may not constitute the preferred flow regime for minimizing such
effects.The license exhibits do not explain how.the 12,000 cfs
minimum operational flows for August and September were deter-
mined.
Response:A section entitled Project Operation and Flow Section
has been added to Chapter 2,Exhibit E of the License Application.
The section explains how the minimum operational flows for August
and September were determined.Although Exhibit E states that
these impacts could occur,specific mitigation measures to avoid
or minimize these impacts have been added to Chapter 3 of the
Exhibit E.
Potential impacts to fisheries are being refined.As this process
continues,the operational flows and the specific m1t1gation
measures will also be refined in consultation with appropriate
resources agencies.The present schedule and plan calls for
completion of many of the instream flow related studies during the
1983 field season.The -results of these studies will be incorpor-
ated into aquatic habitat modeling efforts being performed by the
Arctic Environmental Information and Data Center (AEIDC).Initial
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 4
results of these modeling efforts are anticipated to be available
in late 1983 followed by final results in mid-1984.
6.Comment:We believe that maximum winter flow limits should be
required as well,particularly in light of potential staging
should ice cover develop below Devil Canyon.
Response:We concur that maximum winter flow limits should be
established.The ice modeling studies will be used to predict the
mainstem stage increases during ice cover conditions.This in-
formation will be used to predict fishery impact and potential
flood conditions for the town of Talkeetna.Mitigation measures
including setting maximum winter flow limits will then be estab-
lished.This will be done during the continuing studies and will
assist in the interagency negotiations concerning instream flow.
7.Comment:We recommend that the License Application contain a
specific,detailed flow release schedule,developed through a
quantifiable in-stream flow analysis and coordinated with NMFS,
U.S.Fish and Wildl He Service and the Alaska De artment of Fish
and Game ADF&G,which would m~n1m1ze impacts and/or enhance
conditions for spawning,feeding,passsage,out-migration,and
overwintering in the Susitna River.
Response:An expanded discussion of one flow select ion procedure
is presented in the revised Chapter 2,p.E-2-S6.Also,Exhibit B
has been revised to examine three additional flow regimes (Cases
E,F,and G)that consider a wider range of flow alternatives.
These flow regimes are being assessed through a quantifiable in-
stream flow analysis that will be coordinated with NMFS,USFWS,
ADF&G,Alaska Department of Natural Resources,Alaska Department
of Environmental Conservation,Alaska Department of Transportation
and Public Facilities,the Alaska Railroad,and the Corps of
Engineers.This analysis will be performed on an incremental
basis whereby the effects of flow alteration can be examined on a
continuous basis over a range of flows rather than on just a
discrete individual flow basis.The final flow regimes will be
negotiated during interagency discussions and negotiations.
8.Comment:The Watana and Devil Canyon dams will cause changes to
the existing water temperature regime of the Susitna River,gener-
ally releasing cooler water during summer months and warmer water
in winter.Temperature variations affect the ability of fish to
migrate,spawn,feed,and develop in the Susitna system.Ice for-
mation will be delayed or possibly not occur.Exhibit E discusses
this matter at length but does not present an accurate description
of post-project temperature alterations.A model was developed to
project temperatures,uet it has been operated with only one year
of data (1981).Further,this model was run only for the months
of June through October.
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 5
Response:Additional temperature modeling results were presented
in the February 28,1983 license submittal (p.E-2-l18 to E-2-l20
for Watanaoperation and p.E-2-164 to E-2-l67 for WatanalDevil
Canyon operation).These model results cover the period of June
through December.A criterion was established to match outflow
temperatures to inflow temperatures as closely as possible.It is
our judgement that for .the year modeled (1981),the model reason-
ably describes post-project temperature alterations.At Watana..,
it was possible to match summer outflow temperatures to inflow
temperatures although the outflow temperature does not exhibit as
high or as Iowan extreme as the inflow temperature.For a period
in the spring and a period in the fall,it was not possible to
match temperatures.At Devil Canyon,it was not possible to match
natural water temp~ratures until late in the summer.
The APA does appreciate the concern of NMFS that the model was run
with only one year of data.The APA is currently carrying out
studies to examine the effect of various hydrological and meteoro-
logical conditions on outflow temperatures including low flow and
average flow years to complement the high flow year (1981).
r
9.Comment:Realizing the importance of an accurate understanding of
the thermal structure within the reservoirs and of outflow
temperatures,we believe additional information is warranted.We
recommend that modeling be done for both reservoirs throughout the
year,and the resultant data be incorporated into the riverine
temperature model calibrated with at least two seasons data.
Response:As discussed in the response to Comment 8,additional
modeling is currently being undertaken.This modeling effort will
include both reservoirs and all seaspns.As per the NMFS sugges-
tion,the resultant data will be incorporated into the riverine
temperature modeling with at least two years data.
It is our judgement that one year of modeling has demonstrated
that summer temperature control is possible.
I~
'10.Comment:NMFS recommends that the final License Application con-
tain the results and analysis of the 1982 field data base being
.gathered by the Alaska Department of Fish and Game,et al.,and
results of an expanded study of sloughs in the Devil Canyon to
Talkeetna reach which would provide a larger and more representa-
tive sample than currently available.
Response:To the extent possible,additional 1982 field data
collected by the Alaska Department of Fish and Game were included
in the February 28,1983 License Application submittal.
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 6
In addition,detailed information on these sloughs in the Devil
Canyon to Talkeetna reach was provided in Appendix E.2.a in the
July 12,1983 submission.The 1982 field data will also be
incorporated in future analyses.
The sloughs which were selected for
percentage of spawning salmon 1n
Talkeetna.
study
the
contain
sloughs
the greates t
upstream of
11.Comment:Exhibit E discusses the impact of project construction
and operations on river ice formation.Apparently,post-project
ice formation will be delayed due to higher release temperatures
from Devil Canyon.Currently,ice originating from the upper
Susitna contributes 75 to 85 percent of the ice load to the lower
river.With this input reduced or delayed by the project,ice
formation on the lower river will be affected.This impact is not
adequately discussed in the Exhibit.
Response:As stated in the February 1983 license submittal,the
reduced ice contributions to the lower Susitna River will result
in about a four-week delay in the formation of ice downstream from
Talkeetna.Future ice studies will review this information and
provide more detail concerning ice development and staging.
12.Comment:Ice formation above Talkeetna will also be delayed by
the project.The location of the ice front in this reach has
important implications to fisheries habitat withip.the mainstem,
side channels,and sloughs.In areas with ice cover,staging is
expected to occur which would increase water surface elevations,
possibly increasing upwelling,overtopping the upstream berms of
sloughs,and causing high velocities and scour to occur.
In those areas where ice formation does not occur,water eleva-
tions would drop below naturally occuring levels,leading to
potential de-watering of spawning gravels and reductions in up-
welling areas.Exhibit E predicts that the ice front should occur
at some location between Talkeetna,RM 100 and Sherman,RM 130 and
will depend upon the upstream temperature,i.e.,the Devil Canyon
outflow.As no model was completed for winter riverine or reser-
voir temperatures,the full scope and measure of these effects
cannot be assessed.
Response:Although no winter reservoir temperature modeling was
completed for the November 15 draft,the locat ion of the down-
stream ice front was bracketed based on preliminary information.
Since the November 15 draft,the results of the reservoir tempera-
ture and instream ice modeling were completed and included in the
February 1983 license document.Discussions on the ice-related
impacts during Watana and Watana/Devil Canyon operation were
B/C/2
.....
Mr."Robert W.McVey
August 3 t 1983
Page 7
expanded (p.E.2.89 t E.2.l24 -E.2.l27 t and E.2.169 -E.2.170).
Reservoir temperature modeling results for both Watana and Devil
Canyon reservoirs were used as input to riverine temperature
modeling.Additionally t maximum and minimum expected reservoir
outlet temperatures t for both Watana and Devil Canyon reservoirs t
were used as input boundary conditions for riverine temperature
modeling to bracket the maximum upstream and downstream locations
of the ice front.
To futher refine and expand these ice m?deling results,further
instream ice studies are currently being undertaken.These
studies will define the ice front location for various inputs t the
time of ice formation t the ice staging,and the ice breakup.
13.Comment:Measures to mitigate unavoidable impacts to fisheries
resources are presented in the Exhibit.Many of those measures
designed to mitigate construction impacts effectively address this
concern.Development of a flow regime that minimizes loss of
habitat and maintains normal timing of flow related biological
stimuli is also proposed.We recommend that such a release
schedule be included in the final License Application.
Response:In the License Application submitted on February 28 t
1983 t seven alternate flow regimes were considered (see Exhibit
B).These regimes ranged from those which optimize project
economics (Case A)to those which consider flows that minimize or
eliminate impacts to fish (Case D).In order to expand the range
of possible flow regimes which would encompass any plausible flow
regime,three additional flows (Cases E,F,and G)were added to
Exhibit B in July 1983 t including one (Case G)that reflects aver-
age pre-project or run-of-river conditions.Final flow regime
selection will be made following interagency review and negotia-
tions.
At present t there is no indication that flow provides stimuli for
outmigration.Instead,it may be related to other factors such as
photoperiod_.
14.Comment:The Exhibit proposes to mitigate fishery losses by
physical modification of side sloughs and creation of mainstem and
side channel spawning areas.This vague commitment to an approach
that is only a paper concept dependent upon the results of ongoing
or proposed studies does not allow us to fully eval uate the feas i-
bility of the proposed project nor to assess the effectiveness
with which project impacts can be mitigated.
Response:The revised mitigation plan in the License Application
submitted February 28 t 1983 has further developed the details
associated with the various habitat enhancement measures.
B/C/Z
Mr.Robert W.McVey
August 3,1983
Page 8
A detailed comprehensive mitigation planning effort will be com-
pleted through consultation with the various resource agencies.
This effort will be based,to a large extent,on already completed
field studies and on the aquatic habitat modeling studies by the
AEIDC which will be compelted in Fy84.The modeling studies are
necessary to determine the level and extent of mitigation measures
needed.
15.Comment:We support the concept of retaining the habitat value of
side sloughs through physical alteration.Further,we recommend
that Exhibit E incorporate a slough mitigation plan which
identifies the sloughs to be modified,the design criteria,and
the operational plan and target fish species specific to each
slough.Details for the mitigation goals and operational
monitoring efforts for this plan should be included.The
applicant should note,however,that we feel the release schedule
proposed in Exhibit E should be refined based upon an accepted
instream flow predictive methodology and the specific requirements
of the selected species.We believe this is essential to serious
consideration of a slough modification program.
Response:An expanded slough mitigation plan is incorporated into
Chapter 3,Exhibit E of the February 28,1983 License Application
submittal.As mentioned in the response to Comment 14,a stepwise
approach to mitigation is currently underway.This approach first
involves completion of modeling studies to quantiatively assess
any positive or negative impacts.The second step will be to com-
plete the detailed plan,in consultation with the various resource
agencies,to mitigate these impacts.
16.Comment:Exhibit E states that if alternative mitigation schemes
prove infeasible,a hatchery could be developed.While we regard
such artificial methods to be the least desirable form of
addressing fishery losses,we realize that slough modification is
largely untried in Alaska and that these mitigative efforts may
indeed fail.Therefore,we recommend that Exhibit E should
advance this discussion beyond the statement that "a hatchery
could be developed."Informat ion should be incl uded within
license Exhibit E which describes the number of hatcheries needed,
locations,sizes,what the production target for each species
would be,and cost estimates.
Response:The salmon hatchery alternative loS a low-priority
alternative that is not anticipated to be needed.The Power
Authority believes that full mi~igation can be achieved by an
B/e/2
,~
,....
Mr.Robert W.McVey
August 3.1983
Page 9
adequate flow regime and/or employing the habitat enhancement
techniques described in revised Section 2.4.4,Chapter 3,Ex-
hibit E.A report..!.!on the assessment of hatchery potential
and siting has been prepared for the Power Authority and will be
considered in future mitigation planning efforts.
17.Comment:None of the mitigative measures presented comply with
FERC rules and regulations under Section 4.41 (F)(3)(iii);i.e.,
costs for these features are not presented,nor are design plans
for mitigation features included.
Response:Cost of mitigation is discussed in Chapter 3,Section
2.7 of the February 28,1983 License Application.Cost estimates
are shown in Tables E.3.39,E.3.41, E.3.45,and E.3.47;design
drawings are presented in Figures E.3.26 through E.3.31.
Additional details and refinement to the mitigation facilities
will result from on-going mitigation planning efforts.This will
include extensive consultation with the resource agencies.
1.1 Kramer ,Chin and Mayo,Inc.1983.Susitna hatchery siting
study.Prepared for the Alaska Power Authority and Acres American
Incorporated.
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 10
Specific Comments -Chapter Two
1.Comment:Page 15,para.4.Breakup.The section should describe
when breakup normally occurs,specifically the dates of the ear-
liest,mean.and latest recorded events.
Response:Breakup information for the Susitna River at Talkeetna
is contained in Table 4.6 in the Ice Observations 1980-81 report
by R&M Consultants.
2.Comment:Page 38,para.3.This section should consider that at
least eight sloughs exist above Gold Creek.several of which
support large numbers of spawning salmon.e.g.,Slough 21.While
Gold Creek may be a logical point at which to gauge flow,it does
not necessarily guarantee that upstream flow will be sufficient to
maintain habitat value in these sloughs.Exhibit E should discuss
this concern and recommend necessary measures to guarantee ade-
quate flow to these sloughs.
Response:Flows at Gold Creek are used as an index of flows
throughout the Susitna basin above Talkeetna.By targeting flows
to be accommodated at Gold Creek.flows throughout the basin can
be apportioned on a drainage area ratio basis.Since the drainage
area between Watana or Devil Canyon and Gold Creek will not be
altered,reduction or increase of flow at Gold Creek is indexed to
changes at any point in the river above Talkeetna.The rationale
is discussed at p.E-2-l10.
The sloughs upstream from Gold Creek that support fish are down-
stream from Portage Creek.Since the drainage area between Watana
and Gold Creek is approximately 980 square miles and the drainage
area between Portage Creek and Gold Creek is approximately 176
square miles,the discharge at the most upstream slough will be
about 17.7 percent less than the total discharge contributed from
the drainage area between Watana and Gold Creek if it is assumed
that the runoff per square mile does not vary over this drainage
area.For example,if the Gold Creek flow is 12.000 cfs,of which
8.000 cfs is released at Watana and the remaining 4,000 cfs is
contributed from the drainage area downstream from Watana,the
flow at the slough immediately downstream from Portage Creek would
be approximately 11,300 cfs.(Under natural conditions,a flow of
4,000 cfs from the drainage area between Watana and Gold Creek
would imply a Gold Creek discharge of 20,000 cfs.)This flow,1n
conjunction with proposed mitigation measures,would be used to
maintain the productivity of the sloughs.With distance down-
stream,the flow would increase such that the flow adjacent to
sloughs just upstream from Gold Creek would be close to the 12,000
cfs flow at Gold Creek.
It must also
stream of Gold
analysis.
B/C/2
be remembered that the water level at sloughs
Creek are being indexed to Gold Creek for future
up-
Mr.Robert W.McVey
August 3,1983
Page 11
-
.-
3.Comment:Page 47,Section (v)Impacts on Sloughs.The section
notes that data to confirm the areal extent of upwelling at low
flows are unavailable at this time.Currently only one slough has
been investigated sufficiently to predict project influences on
groundwater and upwelling.This slough is not representative of
all such sloughs in the Devil Canyon to Talkeetna reach.
Under existing winter flows,ice formation causes staging equiva-
lent to an open water flow elevation exceeding 20,000 cfs.
Filling flows of 1,000 cfs,for which ice formation may be delayed
or fail to occur,could significantly impact sloughs through de-
watering gravel spawning areas and overwintering habitat.
Response:While it is true that groundwater studies have focused
on slough 9,studies have also been conducted at slough 8A.These
studies have been useful in understanding the mainstem-ground-
water-slough upwelling interaction.Although there certainly are
differences among sloughs in the Devil Canyon to Talkeetna reach
(path length,groundwater gradient,soil properties,tributary
inflow etc.)~the groundwater processes are similar.
Because of the potential for adversely affecting groundwater
upwelling rates and area during the filling of Watana Reservoir,
filling flows have been revised 1n the February 1983 License
Application submittal.Natural flows will be provided from
November through April during the filling period.
.....
,....
4..Comment:Page 49,para.2.As the temperature of groundwater is
considered a function of the average annual temperature of the
mainstem Susitna what will be the impacts of the second filling
year release temperatures to the groundwater?How long would any
change persist?No data are presented to support the statement
that groundwater temperatures will not change.
Response:The impacts of the second filling year release tempera-
tures on the groundwater would depend on the location downstream •
Immediately downstream of the damsite,the mainstem water
temperature would be a constant 4 degress C from the first winter
of filling through the second summer of filling until the outlet
,facilities can be operated.This would tend to cause an increase
in groundwater upwelling temperature just downstrea~from the dam,
assuming existing conditions approximate 3 degrees C.Farther
downstream climatic condition.s will have an effect on mainstem
water temperatures.For example,at Gold Creek,water tempera-
tures will be cooled in October to less than 4 degrees C,but will
be above natural conditions.Winter temperatures (i.e.,November
to March)will be a degrees C.April temperatures are likely to
be above existing conditions,but will be close to 0 degrees C.
T.emperatures will continue to be above natural conditions
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 12
until natural temperatures begin to rise above 0 degrees C in
early May,when the ice is flushed out.At that time,natural
temperatures will be greater than filling temperatures and will
remain so for the sUllDJler or until the outlet facility can be
operated.thus,although the warmer fall temperatures and April
temperatures during filling will tend to compensate for the cooler
summer water temperature at Gold Creek,the net effect will be a
cooler average for the approximate one year period.However,the
lower average water temperature for this period will only be short
term.Although this dynamic process has not been modeled,the
temperature differences during this period would be dampened by
the buffering capability of the soil and groundwater,as it is
now.Hence upwelling temperatures during the filling process
would likely be within 0.5 degrees C of existing temperatures.
5.Comment:Page 51,para.3.Monthly Energy Simulations.The
referenced program utilized load forecasts developed by ISER,
Woodward-Clyde,and Battelle.These forecasts are now seriously
questioned in light of recent developments (see General Comments).
We recommend these simulation studies be updated and run with the
most recent load forecasts available.
Response:Simulation studies were updated and run with the most
recent load forecasts available.The results were included in the
License Application revisions submitted to FERC on July II,1983,
and will appear in the Application distributed for agency and
public review.
6.Comment:Page 58,para.1.Reservoir and Outlet Water Tempera-
tures.This suggests that winter outflow between 1 degree and 4
degrees C can be selectively withdrawn through a multiple intake
structure.This control would be dependent upon the thermal pro-
file of the reservoir during winter,a set of conditions which has
not been modeled.Therefore,we question the validity of the
statement which suggests one degree water temperatures would be
available upon request.Information presented by Acres during the
Nov.29 -Dec.3 workshop showed winter temperatures in Eklutna
Lake to be between 0 and 3.6 degrees in the upper 2 meters,while
isothermal conditions exist below this level.
Response:We concur that temperature control of the outflow would
be dependent upon the thermal profile of the reservoir.We also
agree-that 1 degree C water may not necessarily be available upon
request.The analysis was meant to bracket the range of outflow
temperatures expected.Experience at the W.A.C.Bennett dam in
British Columbia,Canada has shown that winter outlet temperatures
from an intake 150 feet and 250 feet below water surface have been
as low as 1 degree C or less.With a deeper intake,it would also
be theoretically possible to maintain an outlet temperature of 4
degrees C.Winter thermal modeling results of Watana and Devil
B/c/2
Mr.Robert W.McVey
August 3,1983
Page 13
Canyon is included in the February 28,1983 License Application
submittal.
,.....
I
-
7.
8.
Cc:mnnent:Page 59,para.2.Ice.It is not clear what impact
will occur to the lower River from reduction of ice flow from the
.upper Susitna.How far downriver would ice formation occur?When
does freeze-up normally occur1
Response:The reduction.of ice from the upper Susitna will cause
a delay in the ice format ion process downstream of Talkeetna.
Since the reach below Talkeetna has not been modeled,a quantifi-
cation of the delay has not been·made.However,it is anticipated
that the lower river will be ice covered with both Watana and
Watana/Devil Canyon in operation.Discussions of the ice forma-
tion processes are presented in the February 1983 License Applica-
tion submittal (p.E.2.90,E.2.127,and E.2.170).As discussed in
the response to your General Comment No.12,further instream ice
modeling for the Devil Canyon to Talkeetna reach will be conducted
during FY84.In addition,the need for ice modeling studies down-
stream of Talkeetna is presently being examined,but a decision
regarding the necessity for detailed ice modeling below Talkeetna
must await the results of field studies to be conducted this
coming winter.
Comment:Page 91,para.2.Mitigation of Watana Impoundment
Impacts.This section states that a proposed 12,000 cfs flow at
Gold Creek would provide salmon access to most of the sloughs and
would assist in maintaining adequate groundwater levels and
upwelling rates.There are no studies which would support these
conclusions,as only one of approximately thirty-six sloughs has
received detailed study.Similarly,current information does not
permit the development of mitigation measures within the sloughs,
as stated in the last paragraph of this page.
Response:The statement that a proposed flow of 12,000 cfs would
provide salmon access to most of the sloughs was deleted from the
February 1983 License Application final submittal.The statement
that a flow of 12,000 cfs would assist in maintaining adequate
groundwater levels and upwelling rates remains relevant.Under
natural conditions,in September and early October,when Gold
Creek flows drop below 12,000 cfs,upwelling continues to exist.
The water table is necessarily lowered to maintain a balance with
the mainstem water level.This is further discussed in Section
4c.1.2(f)and 4.1.3(d)of the February 28,1983 License Application
document.However,as discussed in Appendix E.2.A of Chapter 2 of
the License Application to be distributed to the resource agencies
for review,this reduction in water table depth is of a magnitude
which may not be significant.It is our judgement that a flow of
12,000 cfs in conjunction with mitigation measures,will provide
salmon access to most sloughs.
B/c12
Mr.Robert W.McVey
August 3,1983
Page 14
9.Comment:Page 93,para.2.Nitrogen Supersaturation.While we
support the concept of installing cone valves at the outlet works
of both dams,the subject requires further discuss ion.These
valves will only operate (and afford gas supersaturation benefits)
during spillages below the 1 in 50 year high flow event.Accord-
ing to the discussion presented on pages 79 through 81,such
spillages would be a relatively uncommon event (for the 32 year
period simulated,there were 4 years during which spillages
occurred).The discussion on these valves should present data on
their frequency of use and explain the criteria by which they are
planned and installed.This should include the following:
1.Potential temperature impacts resulting from withdrawal
from these outlet structures.
2.Potential impacts to river ice formation attributed to
operation of these valves during winter.
Response:The discussion on Nitrogen Supersaturation in the
February 28,1983 submittal was expanded to include frequency of
use,volumes discharged and maximum annual discharge of the fixed
cone valves (Sections 4.l.3(a)(v),pp.E-2-111 through E-2-112 and
4.2.3(a)(v),pp.E-2-163 through E-2-164).The rationale for the
use of these valves is presented on pp.E-2-87 to E-2-l88.The
valves have been proposed as one means in which to decrease the
potential for gas supersaturation.
Potential temperature impacts resulting from withdrawal from these
outlet structures can be found ~n Sections 4.1.3(c)(i)and
4.2.3(c)(i)of the license document.Operation of the Watana
fixed-cone valves will not be a problem.However,operation of
the fixed-cone valves at Devil Canyon could have an adverse impact
on the downstream fishery.As stated in Section 4.2.3(c)(i),this
effect will be minimized by releasing flow at Watana and generat-
ing power at Devil Canyon to the extent possible.During project
operation,the fixed-cone valves will not normally be operated
during winter.Only in the event of a power outage would their
operation become necessary.
10.Comment:Page 95,para.1.Temperature.The discussion of
Canyon pos t-proj ect temperature mitigation is inadequate.
advantages are gained by the multiple release structure?
Devil Canyon reservoir stratify during summer and winter?
Devil
What
Will
B/e/2
Response:The advantages of the multiple release structure at
Devil Canyon are discussed in Section 4.2.3(c)(i)of the February
1983 license document.Results of the Devil Canyon modeling,are
presented in Chapter 2 of Exhibit E the February 28,1983 license
document.Based on the results of the thermal modeling of Devil
Mr.Robert W·.McVey
August 3,1983
Page 15
Canyon Reservoir,thermal stratification will occur between May
and December.See Figures E.2.213 and E.2.214.
Specific Comments -Chapter Three
,...
1.
2.
Comment:Page 8,para.2."Since the greatest changes in physi-
cal habitat·s are expected in the reach between Talkeetna and Devil
Canyon,.fishery resources using that portion of the river were
considered to be the most sensitive to project effects."Trans-
forming the mainstem Susitna River into a reservoir is also a con-
siderable change.Later in this paragraph is the statement "The
mitigations proposed to maintain chum salmon should allow sockeye
and pink salmon to be maintained as well."We are unable to
locate specific mitigation plans for chum salmon.Those concept-
ual plans presented for slough modification and mainstem spawning
bed construction deal principally with one life history stage.
The statements made here that improved mainstem conditions will
replace loss of slough rearing habitat and that juvenile over-
wintering areas are not expected to be adversely affected by the
project are not supported.In fact,preliminary data presented
elsewhere in the Exhibit indicate that overwintering habitat will
be impacted and that sloughs may provide important rearing
habitat.
Response:The Power A~thority concurs that changes of physical
habitat in the impoundment zone are also considerable.The
referenced paragraph 'should refer to changes that affect anadro-
mous species.In that case,the Talkeetna to Devil Canyon reach
is where the greatest changes in physical habitat associated with
these specie.s are expected to occur.
The mitigation plans for the sloughs are primarily focused on chum
salmon because of their proportionally greater use of the sloughs.
However,other species of salmon that utilize the sloughs such as
sockeye and pink salmon are also being considered in the plans.
Additional studies to support impact assessment and mitigation
planning are continuing,as detailed in an interagency meeting
held July 18,1983 to describe the 1983 field season studies.
These inc!ude studies on all life stages.The revised mitigation
plan has further developed the details associated with the various
habitat enhancement measures and addresses the overwintering and
rearing habitat concerns.See Section 2.4.4(a)of the revised
Chapter 3.
Comment:Page 12.Species Biology and Habitat Utilization in the
Susitna River Drainage.Estimates of adult salmon presented in
this section depict only escapement.A more meaningful estimate
should be made using catch to escapement ratios,as done in chap-
ter five.For instance,in 1982 77,000 pink salmon migrated above
Talkeetna.However only one fish in every 3.8 escaped the commer-
B/c/2
Mr.Robert W.McVey
August 3,1983
Page 16
cial fishery.Using the 3.8 to 1 ratio,this reach of the Susitna
accounted for over 350,000 pink salmon of which over 277,000 were
available to the commercial fishery.Escapement estimates alone
fail to indicate the high values associated with anadromous fish-
ery resources.
Response:These computations have been provided (Chapter 3,
Section 2.l.5(a)).
3.Comment:Page 76.Slough Habitat·.This section does not des-
cribe impacts associated with lowered winter river stage during
filling.Should upwelling and backwater effects during winter
prove critical to developing eggs or juvenile salmonids,any
reduction in these areas could create significant damage.
We question the figure presented as the number of sloughs in which
salmon spawn within the Chulitna to Devil Canyon reach.Using
information supplied by the ADF&G and from Exhibit E,adult salmon
have been observed in 26 of these sloughs.Exhibit E should
clearly present the total numbers of sloughs in this reach and the
1981 and 1982 data on spawning adults.
Response:There will be no reduction of flow during winter
filling periods (see revised Chapter 2 as well as revised Chapter
3,Table E.3.26).The number of sloughs utilized by salmon is
based on data from ADF&G's 1981 and 1982 field studies.For both
years,20 of the 34 surveyed sloughs between Devil Canyon and
Talkeetna have supported spawning salmon (p.E~3-95 of revised
document and individual species discussions in Section 2.2.1).
4.Comment:Page 77.The discussion presented on impacts to slough
habitat is not clear.As Exhibit E states that groundwater up-
welling in the sloughs is probably driven by the mainstem stage,
which would cause a decreased flow in the sloughs (post-project),
why does this section state that under post-project conditions
only the backwater areas (of the sloughs)would be affected?
The second paragraph of this page states,"With mainstem flows
above 1'4,000 cfs,a backwater forms at the mouth of the slough."
How is this known?Which slough is being discussed?Is this true
for each slough?The same paragraph explains that,during the
1982 field season,flows in the 12,000 to 14,000 cfs range occurr-
ed and afforded opportunity to observe fish passage at flows below
normal August levels.These flows appeared to hamper or restrict
fish passage into sloughs.Backwater effects were not seen at
flows of approximately 12,000 cfs,yet project low flow limits for
August have been established at 12,000 cfs.This section under-
scores the problems associated with such proposed flows.It is
apparent that some significant changes occur to the slough habitat
B/c/2
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I
-
Mr.Robert W.McVey
August 3,1983
Page 17
within a relatively narrow range of flows;changes which may have
important biological implications.
Response:The discussion has been expanded to address these con-
cerns,see pages E-3-95 to E-3-97 of the revised document.Addi-
tional analyses.of the backwater effect are provided in Appendix
E.2.Aof the July 11,1983 revised License Application.
5.Comment:Page 87,para.5.While the described floods may trans-
port sediment and scour the river bed,reduction or elimination
through flow regulation may not necessarily be beneficial.The
Exhibit presents no data to support the comment that high mainstem
veloci ties limit fish usage (page 87,par a.2.).Further,such
high flow events may be critical to maintaining side channel and
slough habitat through flushing and replenishment of gravels and
by removing vegetation and beaver dams which may reduce habitat
value.This point is not discussed in the following sections of
slough or side channel habitats.
Response:The data to support the statement that high streamf10ws
appear to inhibit upstream salmon migration occurs in the refer-
enced ADF&G documents (see page E-3-l09 of the February 1983
License Application).As discussed in the revised Section
2.2.2(b)(ii),these high flows are beneficial in flushing fines
from spawning gravels.The mitigation plan (Section 2.4.4,p.
E-3-l68)provides a means for mitigating this loss of a flushing
flow.·
6.Comment:
changes
expected
Page 103,para.3.Slough Habitat.
in streamflow during the open-water
to affect slough habitats.
We disagree that
season are not
-
r
r
,-
7.
8.
Response:The statement referred to the additional impacts to
sloughs caused by the Devil Canyon dam above those already imposed
by the Watana dam.This has been clarified (see p.E-3-l32).
Comment;Page 116.Aquatic Studies Program.We believe this
discussion suffers from omission of the majority of the 1982 field
study results.We strongly believe that two years of study are
the minimum required as a basis to discuss the impact of hydl:o-
electric development on the Susitna River.
Response:Additional 1982 data have been incorporated throughout
the document.
Comment:Page 130.Measures to Minimize Impacts.It is stated
that "A flow release schedule will be used that minimizes the loss
of downstream habitat and maintains normal timing of f10w-related
biological stimuli."The flow schedule presented in Exhibit E,
Chapter 2 does not minimize habitat loss,nor does·it maintain
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 18
normal flow related biological stimuli.This section should also
discuss installation of compensation flow pumps at Devil Canyon
which would provide flow between the dam and tailrace channel.
Response:An expanded discussion of the flow selection procedure
is presented in the revised Chapter 2,p.E-2-56 (July 1983
update).The compensation flow pumps below Devil Canyon have been
removed from the project.In addition,see response to General
COllDUent 13.This response describes how the Exhibit B has been
revised to examine three additional flow regimes (Cases E,F,and
G)•
9.COllDUent:Page 130,para.2.Measures to Minimize Impacts.The
section states that "Instream flow requirements are being deter-
mined for each species/life stage/time unit combination.i •Who is
performing these studies?How will they be determined?Again,it
is impossible to understand what flow regime,if any,is actually
being suggested within Exhibit E.Is the release schedule pre-
sented in Table 2.17 just a "first cut?"This is apparently the
case.Considering that the final release schedule is to be based
on future studies as suggested here and may be modified to accom-
modate outmigration (page 3-132,para.1)and will need to consid-
er temperature and volume (page 3~143,para.1);why is a flow
regime proposed in the absence of such information?
Response:ADF&G and AEIDC are continuing to evaluate the effects
of the flow regime and develop,in consultation with the resource
agencies,a release schedule to minimize impacts.These efforts
will be relying on the AEIDC hydraulic modeling efforts to evalu-
ate various mitigation flow alternatives.
l~Comment:Page 131,para.1.This states,in effect,that slough
habitat will either be enhanced or degraded by the project,and
that actual impacts to habitat are the subject of ongoing studies.
These ongoing studies should be described.What will be investi-
gated?Which sloughs will be studied?
Response:The referenced text properly belongs in the impacts
section.The discussion has been revised to focus on mitigation
(p.E-3-l62).The on-going studies were presented in detail to
NMFS and other resource agencies during a meeting on July 18,1983
at the APA.The APA plans to continue to inform and consult with
the resource agencies concerning any existing future aquatic
studies.
-Extensive field and modelling efforts that address impacts to
sloughs (and other habitats)are continuing.These efforts are
being conducted by the ADF&G and the Arctic Environmental Informa-
tion and Data Center.Intensive efforts are focused on sloughs
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 19
8A,9,11,and 21 with additional studies on other sloughs.The
primary relationships being investigated are:
ll.
.....
12.
13.
1.flow inmainstem versus flow and groundwater in the sloughs;
2.habitat (as measured by velocity,depth,and substrate)
changes with flow;
3.species abundance and distribution;
4.incubation and emergence of salmonids;
5.overtopping of the head end of the slough;and
6.timing of outmigration and rearing.
Connnent:Page 132,para.4.This states that flows of 12,000 cfs
are sufficient to undertake rectifying impacts by modifying
habitat.How is this known?The paragraph should discuss the
studies upon which this is based or qualify·any such conclusions
as preliminary and subject to.further study.
Response:The text has been revised to indicate the preliminary
nature of the discussion,although considerable field observations
are available to substantiate the statement (see Trihey 1982d
reference in revised Chapter 3).
Connnent:Page 133,para.1.Winter Flows.The statement is made
that "Since minimal impacts are expected during both filling and
operational winter flow,rectifying measures are not needed."
This is not supported.On page 131,para.I,we learn slough
habitat may be degraded by winter flows and that these impacts are
the subject of ongoing studies.Page 94 presents a lengthy
discussion of impacts attributed to altered winter flows.
Response:The referenced sentence has been changed in the
February 28,1983 submittal.It should only have been in refer-
ence to filling flows.Since the filling flow regime from
November 1 to April 30 is proposed to reflect the inflow to the
reservoir,only minor impacts are expected and no mitigations are
proposed.
Connnent:Page 133,para.5.Reduction of Impacts Over Time.
"Post-operational monitoring will be conducted to evaluate the
effectiveness of mitigation measures (see Section 2.6)~11 The
license application should detail what monitoring will occur and
how the effectiveness of mitigation efforts will be evaluated.
B/C/2
Mr.Robert W.McVey
August 3,1983
Page 20
Response:The expanded discussion on monitoring starts on p.
E-3-l80 of revised Chapter 3.
14.Comment:Page 136,para.3.The discussion of hatchery develop-
ment is inadequate.
tives fail,it will
what measures would
In the event that other mitigation alterna-
be important to present a clear picture of
be taken to compensate.for fisheries losses.
Response:The salmon hatchery alternative is a low-priority
alternative that is not anticipated to be needed.The Power
Authority feels that full mitigation can be achieved by an ade-
quate flow andlor employing the habitat enhancement techniques
described in revised Section 2.4.4.If necessary the hatchery
alternative will be investigated in more detail in the future.
Recent efforts in considEf7ation of a hatchery include a siting
study for such a facility-•
15.Comment:Page 137,para.3.We believe that the water tempera-
ture of 5°to 6°C during the second filling year will present
significant adverse impacts to salmon.Addition of a low level
portal could apparently avoid much of these effects.We recommend
such a device be incorporated into the final design.
Response:This option is being evaluated in light of the'temp-
eratures anticipated during the second year of filling.This
evaluation includes field studies by the ADF&G on egg incubation
temperatures,laboratory studies by the USFWS on incubation
temperatures,and a literature review.Results of the field and
laboratory studies are expected to be completed in FY84.If
indicated by these studies,provision of a lower level intake
would be considered in the detailed design phase of the project.
16.Comment:Page 143,para.1."Continuing reservoir thermal model-
ing will allow an evaluation of available water temperatures
throughout the year so that -a detailed r-elease plan can be devel-
oped.The release plan will need to consider both water tempera-
tures and volume in order to minimize impacts."We strongly agree
with this,and recommend that the license applicat ion contain just
such a release plan which would most effectively minimize impact.
Response:This evaluation is continuing through hydrologic model-
ing efforts.In fact,the importance of this effort was given
high priority by the Power Authority.This has resulted in an
expansion of efforts to complete this evaluation.
l/Kramer,Chin,and Mayo.1983.Susitna hatchery s~t~ng study.
Prepared for the Alaska Power Authority and Acres American,Inc.
B/e/2
Mr.Robert W.McVey
August 3,1983
Page 21
Specific Comments -Chapter Ten
1.Comment:Page 28,para.6.Diversional Emergency
Facilities.The release levels referred to do not avoid
effects on the salmon fishery downstream.
Release
adverse
2.
Response:We concur that release levels referred to do not com-
pletely avoid adverse effects on the salmon fishery downstream.
However,these flow releases permit the development of mitigation
measures to these effects.
Comment:Page 30,para.3.Figure E.2.90 indicates that three,
rather than four portals would be constructed at Watana.We
question which is correct and how the numbers arid position of the
portal were considered in minimizing impact.Also we cannot
concur that -temperatures will be controlled within acceptable
limits.
Response:Figure E.2.90 actually shows that four portals would be
constructed at Watana.Thus,Figure E.2.90 is in agreement with
Chapter 10.Since water nearer the surface of the reservoir will
be closer to natural temperatures it is desirable to draw water
from the surface.However,because the reservoir will be drawn
down in late spring it will be necessary to have an intake portal
at an elevation near the surface.As the reservoir fills,the
water surface elevation will increase.Therefore,in order to
continue to draw water from close to the surface an intake portal
at a higher elevation must be provided.As the filling process
continues,additional intakes mUst be provided to take advantage
of the warmer surface waters.The elevation of the top intake is
near the maximum reservoir operating elevation.As the reservoir
elevation is drawn down in the fall and winter the process is
reversed.Water is drawn from near the surface to take advantage
of the cooler surface waters.The selection of four portals is
based on engineering considerations (i.c.the number of portals
that could be technically and economically constructed)and the
thermal profile of the reservoir at various times of the year.
The degree of temperature control is discussed
General Comment No.8.It is our judgement
within the natural range can be provided during
However,this judgement is being confirmed
studies.
in our response to
that temperatures
the summer period.
through on-going
r 3.Comment:Page 30,para.4.We are not aware of studies which
have occurred to mitigate project impacts through provision of
streamflow at Gold Creek.These should be described.
B/c/2
Mr.Robert W.McVey
August 3,1983
Page 22
Response:A discussion of the project operational flow selection
process has been added in Chapter 2 of Exhibit E.Although
specific studies addressing flow selection have not been completed
at this time,the studies being funded by the Power Authority are
directed towards ultimately providing a basis for flow selection.
4.C01mnent:Page 31,para.5.According to presentation by ACRES
American at an APA-sponsored workshop in Anchorage during the week
November 29 to December 3,1982,no temperature model has been run
for Devil Canyon reservoir.How,then,can the utility of a
multi-level draw-off at Devil Canyon be known?This again under-
scores the lack of understanding of project temperature impacts.
Response:As of the November 15,1982 draft,no temperature model
had been run for the Devil Canyon reservoir.However,preliminary
modeling of Watana reservoir indicated a multi-level intake at
Watana was beneficial.Hence,it was assumed that a multi-level
intake at Devil Canyon would also be beneficial until this could
be verified by modeling Devil Canyon reservoir.The results of
the Devil Canyon reservoir modeling are presented in the February
28,1983 License Application document.
The Alaska Power Authority appreciates the effort expended by NMFS per-
sonnel in formulating comments on the Draft Exhibit E.If you have any
questions regarding our responses,please do not hesitate to contact
Mr.Thomas J.Arminski,Deputy Project Manager,Permitting,Alaska
Power Authority.
Sincerely,
~~'1--JlJ
Executive Director
TA/dlc
cc:Brad Smith,NMFS,Anchorage,Alaska
William Wakefield II,FERC,Washington,D.C.
Dwight L.Glasscock,H-E,Anchorage,Alaska
Jane Drennan,PMS,Washington,D.C.
B/C/2
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NATIONAL PARKS SERVICE
COMMENTS CONTAINED IN THE NATIONAL PARK SERVICE LETTER OF
JANUARY 14,1983
We have reviewed the proposed Susitna Project recreation plan as pre-
sented in the draft license application Exhibit E and have the fo1low-
i ng conments.Cultural resource management issue comments were ad-
dressed previously in the December 3,1982,letter from our archeolo-
gist,Dr.Floyd Sharrock.
The recreation plan appears to be well-conceived.A diversity of rec-
reation resource opportunities are planned with facility development in
stages which will permit future modification where it is appropriate.
The plan also reflects excellent coordination between its authors and
appropriate public agencies and the private sector.
We support the following recommendations,many of which were shared
with the EDAW,Inc.,representatives at the December 1,1982,workshops
for recreation and aesthetics.
Comment 1
Before construction begins,existing river conditions from upstream
of the project (perhaps the confluence of the Tyone and Susitna
Rivers)to Gold Creek should be recorded on film.A high qual ity
motion picture with narrative describing preconstruction resource
conditions could be an effective interpretive tool for the visitor
center(s).A permanent film record of the Devil Canyon whitewater
is especially important.A film record of the project construction
process and the project in operation,including a description of
the recreation opportunities,should also be made and perhaps com-
bi ned with the preconstruction film for use at the vi sitor cen-
ter(s).
Response
A high quality movie as described will be considered as part
of the visitor interpretation program.The detailed program-
ming,functional design,and final engineering for the visitor
center(s)will occur during Phase II design development.
Comment 2
If normal operation of the Watana Dam wi 11 ml ml1ll ze the danger now
associ ated with kayaki ng the unregulated Devi 1 Canyon whitewater,
consideration should be given to providing pUblic access to the
Susitna River below the dam prior to the completion and operation
of the Devil Canyon Dam..
Response
This suggestion will be considered.
Comment 3
Consideration should be given to providing public access from the
project transportation corridor to Portage Creek for fishing and/or
kayaking.
Response
Access to Portage Creek was examined in Exhibit E as a recrea-
tion opportunity.Because of fragile salmon spawning grounds
and localized wetland conditions at the creek,trail access
was determined to be undesirable.
Comment 4
Appropriate day use and/or overnight facilities should be consid-
ered for Gold Creek.These facilities could accommodate:river
users coming out of the project,backpackers who enter the project
area via the Devil Canyon Dam construction right-of-way,and other
recreationists using the Alaska Railroad who wish to layover in
the Gold Creek area.
Response
Recreation use of the Susitna River below the Devil Canyon
damsite and within the transmission intertie will be consid-
ered as part of supplemental transmission corridor recreation
planning.This will occur prior to June 30,1983.
Comment 5
The status of the Stephan Lake-Prairie Creek corridor is presented
on pages E-7-83,84 as a lower priority resource area.The pri-
ority should be elevated to Phase One implementation as negotia-
tions with Cook Inlet Region,Incorporated,and/or the village cor-
porations could be lengthy.Public access to the Talkeetna River
(a potential State Recreation River)via the Stephan Lake-Prairie
Creek corridor is an important issue that needs to be resolved
early so that public use may continue during project construction.
Response
Access to the Stephan Lake-Prairie Creek corridor by air will
continue at Stephan Lake.Current recreation use on the
Prairie Creek-Talkeetna River run typically means a fly-in to
Stephan Lake and rafting or kayaking out;this usually takes
three days.Other recreation use of Stephan Lake incl udes
liPortsmen's lodges,a commercial lodge,and private cabins
from which people enjoy hunting and fishing.Public use will
continue as currently defined.The potential for public camp-
ing will be dependent upon the above-mentioned agreements and
if Phase Five provides the necessary time to negotiate and de-
sign any public facilities as needed without restricting
existing use.
-
-
-
Comment 6
There is an incorrect statement in paragraph 6,page E-7-15,that
shou1 d be revi sed.The text incorrectly states that the Su sitna
River has been studied for potential inclusion in the National Wild
and Scenic Rivers System.A study and evaluation under the author-
ity of the Wild and Scenic Rivers Act has never been undertaken.
Response
Text has been revised.
Comment 7
Recently it came to our attention that the electrical transmission
corri dor between the Watana Dam and Go1 d Creek wi 11 now be relo-
cated closer to the transportation corridor to facilitate mainten-
ance.We trust that careful attention will be given to the devel-
opment of appropriate mitigation measures to safeguard,as much as
possible,the scenic values associated with the corridor.
Response
All project facility relocation and/or design refinements will
be studied and visual mitigation measures applied to protect
scenic values.An aesthetic mitigation measure app1 ied to the
new transmission corridor was locating the corridor out of
primary viewsheds toward the Talkeetna Mountains.This was
accomplished by placing the transmission corridor along the
north side of the road.
-
i",
i
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FISH AND WILDLIFE SERVICE
-
-,
COMMENTS CONTAINEO I~THE U.S.FISH AND WILDLIFE
SERVICE LETTER OF JANUARY 14,1983
GENERAL COMMENTS
Comment 1
The Fish and Wildlife Service (FWS)has been requested by letter dated
15 November 1982,from Acres J'rneri can Incorporated,to forma"y revi ew
and comment on the Federal Energy Regul atory Commi ssi on (FERC)draft
license application Exhibit E for the Susitna Hydroelectric Project.
Thi s response is being provided as parti al fulfillment of your request
and is intended to be a constructive evaluation in regard to fish and
wil dl ife resources.We hope that our comments wi 11 be of val ue in
drafting the final license application.
Response
The receipt of the FWS comments within the regulated minimum 60
day review period was appreciated.
Comment 2
The following FWS letters were also provided in response to formal pre-
application requests on this project:
1.June 23,1980,letter to EricYould.
2.'December 17,1981,letter to Eric Yould.
3.December 30,1981,letter to Eric Yould.
4.January 5,1982,letter to Eric Yould.Response April 4/R2.
Si nce these 1etters were formall y requested as part of the FERC
pre-appl ication coordination process we consider it appropriate that
our responses be specifically addressed as part of the Exhibit E.
Response
The four letters cited are incl uded in section of Chapter 11.
Letters previously forwarded to FWS in response to letters 1,3
and 4 are al so incl uded.As requested,a speci fi c response to
letter 2 has been included in Exhibit E,Chapter 11.
Comment 3
The foll owi ng letters were provided as informal consultation to facil i-
tate the Susitna Project planning process:
1.November 15,1979,1etter to Eri c Youl d.
2.April 16,1982,testimony presented to the Al aska Power Authority
(APA)Board.
3.August 17,1982,letter to Eric Yould.
4.October 5,1982,lester to Eric Yould.
We anticipated seeing in the draft Exhibit E specific responses to the
concerns and recommendations raised in the letters and testimony
provided.This is consistent with advice provided by the FERC 1•In
that this did not occur,we recommend that the APA respond in the
Exhibit E to the specific comments and recommendations which are
contained in these letters and testimony.
Response
The FWS letter of October 5,1982 and testimony of April 16,1982
are considered as formal consultation since this input was pro-
vided in response to requests from APA.This letter and corre-
sponding response is included in Appendix 11.E of Chapter 11.All
spec ifi c comments and recommendations received from the Fi sh and
Wildlife Services to date are responded to in Exhibit E.
Comment 4
The response provided by this letter,our previous letters (both those
formally and informally requested),the testimony presented to the APA
Board,and the 1etter recently provided to you on 19 November 1982,
constitute the official position of the FWS on this project.
Response
This correspondence is noted as the official position of the U.S.
Department of the Interior,Fish and Wildlife Service.
Comment 5
The principal authority of the FWS to provide comments and recommenda-
tions rests in the Fish and Wildlife Coordination Act (48 Stat.401,as
amended;16 U.S.C.661 et seq.)2.The Coordination Act requires that
fish and wildlife conservation be given equal consideration with other
project features throughout the Federal lead agencies'planning and
decision-making processes.The Act also requires consultation with
State and Federal fish and wildlife resource agencies to ascertain what
project facilities,operations,or measures may be considered necessary
by those agencies to mitigate and compensate for project-related losses
to fish and wildlife resources,as well as to enhance those resources.
The reports and recommendat ions of the fi sh and wi 1dl i fe resource
agencies on the fish and wildlife aspects of such projects must be
presented to action agency decision-makers and (where appl icable)to
Congress.The Coordination Act requires more than a consultative
responsibility;it is an affirmative mandate to action agencies.Like
the National Environmenta1 Policy Act (NEPA)(42 U.S.C.4321 et seq.),
it requires early planning and post-construction coordination and full
consideration of recommendations made by resource agencies.
.,...
Our recommendations,under the Coordination Act,must be,lias specific
as is practicable with respect to features recommended for wi ldl ife
conservation and development,lands to be utilized or acquired for such
purposes,the results expected,and shall describe the damage to wild-
1 ife attributable to the project and the measures proposed for mitigat-
ing or compensating for these damages.1I
Similar language is found in NEPA's Section 102(2)(B)that agencies
identify and develop methods and procedures which will insure that
presently unquantified environmental amenities and values may be given
appropriate consideration in decision-making,along with economic and
technical considerations.
Both the Coordination Act and NEPA,necessitate,commsurate with the
scope of a project:
~
l.
2.
F""3.
A description and quantification of the existing fish and wildlife
and their habitat within the area of project impacts;
A description and quantification of anticipated project impacts on
these resources;and
Specific mitigation measures necessary to avoid,minimize,or com-
pensate for these impacts.
1"""\
I
I
.....
Response
The authority of the FWS under the Fish and Wildlife Coordination
Act is recognized.The APA has made considerable effort to
actively solicit input from State and Federal fish and wildlife
resource agencies.The APA has especially encouraged any specific
recommendations regarding project features,operations or measures
the resource agencies may consider necessary to mitigate or com-
pensate for project-related losses to fish and wildl ife resources.
Comment 6
We have reviewed the draft Exhibit E in consideration of these
statutes.The adequacy of the review documents has been exami ned in
respect to whether or not the information,analysis,and mitigation
plan provided would allow the FERC to be in compliance with the
requirements of these environmental madates if they issued a license to
the applicant.
Response
A number of reviewers question the adequacy of the studies to date
and the sufficiency of the Appl ication.The Alaska Power Author-
ity perceives a sequential process,each step requi ring progres-
sively more refined study,analysis and design •
Step 1 -Feasibility
In it i all y t engi neeri ng and envi ronmental studi es are undertaken to
determine the feasibil ity of the Project.Studies identify major
Project characteristics t critical resource and design issues t and
economic feasibil ity of the Project.The Feasibil ity Report of
March t 1982 t represented the culmination of this step.
Step 2 -Prelicensing
Prelicensing studies continue t expand and refine the analysis in
sufficient detail to allow rigorous analysis of the Project with
respect to technical detail of design conceptst economic feasibil-
itYt impact assessment t and mitigation planning.These studies
provide the basis for:The Application for License;fonnal agency
consultation;and Federal Energy Regulatory Commission (FERC IS)
preparation of an Environmental Impact Statement (EIS).The con-
tents of the Application for License are specified in FERC regula-
tions.The Power Authority's interpretation of the general intent
of the prel icensing studies and these regulations is that studies
have to be of sufficient detail to identify all of the major
impacts of the Project and to allow effective mitigation planning t
but not in the detail that is required to support final design
prior to construction.The studies should be sufficient to pro-
vide a basis for the development of realistic mitigation plans for
construction and operation.
Studi es perfonned to thi s standard rel y on ex i st i ng informati on
and a rigorous sampling program t and estimates and predictions
such as can be appropriately drawn t based upon professional
judgment.The FERC regulations t themselves t speak in terms of
lIexpected impacts ."t"lI an ticipated impacts ..q
ll "pos s ible
changes ••••11
Inherent in the decision to proceed with licensing is that studies
have sufficient quantification to support the Application.What
constitutes sufficient quantification is a judgmental decision.
FERC's regulations state only that the information should be
"•••commensurate with the scope of the project •••"While the
level and sophistication of quantification varies from study to
studYt in sum t the current studies allow impacts to be determined
and mitigation activities planned with a resolution more precise
than the range of variations that naturally occur t both tempor-
arily and spatially.
One of the objectives of the studies is to support mitigation
planning to the point of "•••proposing mitigation measures or
facilities including functional design drawings t proposed opera-
tion and maintenance procedures t costs t etc."Functional design
drawings reflect preliminary engineering and environmental analy-
sis necessary to prove the practical ity of the proposed facil ity
and drawings that demonstrate the conceptst spatial and structural
characteristics of the proposed facilities.These drawings are
not design drawings from which construction could proceed.
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The Power Authority feels that the studies on the Project to date
adequately meet the objectives of prelicensing studies.Ongoing
studies will expand and support the current analysis and be pro-
vided to FERC (and resource agencies)in time for FERC's devel~p
ment of their Draft EIS (OEIS).Ongoing and proposed studies will
support the refinement of the proposed Prbject flow regime and of
the other mitigation measures during the design phase of the
Project.The Design Phase will be concurrent with the development
of the actual license and its attendant stipulations.
Comment 7
Our review has been undertaken in light of our former correspondence,
including the 16 April 1982,testimony presented to the APA Board by
Deputy Regional Di rector LeRoy Sowl.Except for item (8)we fi nd the
testimony as val id today as it was at that time.It is apparent that
the consultation process has failed in so far as the intent of the FERC
regulations 3 •We have written numerous 1 etters on this project to
assist APA in planning measures to protect and enhance fish and wild-
1 ife resources.Responses to our letters have been non-existent,or
too late to deal with the problem of concern(e.g.,FWS letters dated
October 5,1982,and November 19,1982).An illustration of what we
have found to be an inadequate level of consultation can be found in
the December 15,1982,response to our November 19,1982,letter.We
considered our requests to be fully within the intent of the FERC
regu 1ati ons 4•
Response
A review of comments by resource agencies on the draft of Exhibit
E for the Application for License'indicates that the preponderance
of comments address adequacy of study pl ans and the result.A
smaller number of comments address the nature of the 1 icensing
process and the Alaska Power Authority1s performance to date.
Only a few agency comments convey statements of pol icy or recom-
mendations with respect to Project design,and mitigations of
construct ion or operat i on.Chapter 11 of Exhi bit E contai ns the
formal consultations with agencies and includes point by point
responses to their comments on the November 15,1982,draft of
Exhibit E.
Subsection (d)Section 4.40 states that appropriate State,federal
and local resource agenci es must be given the opportunity to
comment on the proposed project prior to filing of the Application
for License.Further definition on consultation requirements is
spelled out in Section 4.41 (f),which outlines the components of
the Environmental Report,Exhibit E.While procedural require-
ments are outlined,the objectives of the consultation process are
not.The objectives of the consultat i on process are discussed in
Application Procedures for Hydropower Licensing,Exemptions,and
Prel iminary Permits,Federal Energy Regul atory Commi ssi on (FERC),
April,1982.Objectives include:
first Step -Predraft Consultation
-Provide a basis for analysis of the environmental and natural
resource management aspects of proposed projects;
-Identify problems that should be considered;
-Meet the FERC's requirements under fish and Wildlife Coordina-
tion Act,Endangered Species Act,National Historic Preservation
Act,and other Federal statutes;
-Agenci es must understand the project and its effects;and
-Provide an opportunity for agencies to comment on and define any
studi es needed to ident Hy potential impacts and recommend ade-
quate protective and mitigative measures.
Second Step -Formal Consultation
-Formal request for review of draft application (in writing to
document);and
-Results of studies (if possible,a copy of the application).
Third Step -Response to Agency Comments
-Applicant1s responses to agency review comments
Step 1 -Predraft Consultation
A long history of interaction with State,federal and local
resource agencies dates back to Bureau of Reclamation and Corps of
Engineer's (COE),studies of the Susitna River potential.Ini-
tially,resource agencies encouraged the investigation of the
Susitna River as a more benign alternative to the Rampart Project
on the Yukon River.
Several configurations were studied before the current arrangment
was i dent Hi ed by the COE as represent i ng the best accommodat ion
between power development and envi ronmental protection (see Exhi-
bit B,Chapter 1).COE studies culminated in a final Environmen~
tal Impact Statement issued in July of 1979.Agency consultation
during COE studies extends back into the early 1970s.The con-
cerns raised by agencies during the review of the COE EIS have
been further studied during the studies for the license applica-
tion.
Because of
assumed the
and general
attributes.
engineering
the existing COE studies when the Power Authority
project in 1979,there existed a well defined Project
familiarity on the part of resource agencies with its
As the Power Authority planned environmental and
studi es to support the more demand;ng FERC 1 i cense
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applicat i on,resource agenci es were again invited to comment on
important resource issues,study design and recomment mitigative
activities.The subsequent study program incorporated many of the
comments received from agencies.
To coordinate interactions between resource agencies and the Power
Authority,the Susitna Hydro Steering Committee evolved.This in-
formal interagency Commi ttee proveded a mechani sm for exchanges
between the Power Authority and resource agencies.Design
develorments,study plans and Phase I master contracts were
reviewed by the Steering Committee and their comments were incor-
porated,in part,into Project studies •
The first t~years of Project studies culminated in a Feasibility
Report and many attendant reports.Volume 7 of this Report out-
lines public review and comments on the Project,and Volume 12
dOCllTlents agency consultation to March 1982.The Feasibil ity
Report was wi del'y disseminated and recei ved conspi cuous agency and
public review.In response to these comments on the Feasibility
Report,the Power Authority rescheduled the proposed date for sub-
mitting the application for license from June of 1982 to the 1st
Quarter of 1983 (February 28,1983).Major refinement of study
programs was undertaken to address issues rai sed duri ng the
review.In part,the postponement of submittal was to allow for
the inclusion of additional environmental data.
As part of the refi nement and redi rect i on of envi ronmenta 1 study
programs,a series of workshop meetings occurred in May and June
of 1982.In these meetings,the Power Authority and the resource
agencies redefined the study programs.Terrestrial studies were
reviewed again during an extensive weeklong workshop during August
23-27,1982.Agency personnel,topi cal experts and project per-
sonnel participated in this workshop (see Appendix 11.6 in Chapter
11).
On September 2,1982,the Power Authority,by way of letter,
informed the resource agencies of the intended schedule for pre-
paring and filing the application and requested any guidance an
agency could offer with respect to the project configuration and
mit 19at ion planning.
In summary,duri ng Step 1 of the three-step consultati on process,
resource agencies and the public were presented wi th extensi ve,
i:nformal a.rld f.ormal opportuoites to familiari ze themselves with
the proposedPr'ojectand Project studies.The evolving natu.r~of
the project and studies have-,been extensively r-eported and
ref Teets accommodation to agencey and publ it prefefe;nces.
Step 2 -Formal Consultation
Formal preapplication consultation was initiated with the dissemi-
nat i on of the draft Exhi bit E on November 15,1982.The draft
Exhibit was sent to resource agencies with the request that they
review and comment on the draft by January 15,1983.A review of
the Project (essentially unchanged since the Feasibility Report in
March 1982)took place on the first day.Topical sessions
followed in which Project personnel reviewed haseline conditions,
impact analysis and mitigation planning.Sessions included:
1 -Project description,1/2 day
2 -Hydrology/Hydraulics/Temperature/Channel Norphology,
1-1/2 days
3 -Aquatic Ecosystems,1-1/2 days
4 -Terrestrial Wildlife and Habitat,1 day
5 -Wetlands,1/2 day
6 -Archaeology/history,1/2 day
7 -Socioeconomic,1/2 day
8 -Recreation,1/2 day
9 -Aesthetics,1/2 day
10 -Land Use,1/2 day
Step 3 -Applicant's Response to Review Comments
The Exhibit E of the Application for license reflects substantial
modifications in response to the informal comments that occurred
during the workshop of November 29 through December 2,1982.
Specific responses,and often redrafting of the text of the
Exhibit E,have followed receipt of formal agency comments.
Chapter 11 of Exhibit E contai ns all agency responses to the
request for revi ew of the draft Exhi bit Eo Each comment by an
agency has received a response.
Comment 8
Attached to this letter are our formal comments on the FERC draft
1i cense appl i cati on Exhibit E for the Susitna Project.Comments are
provided on Chapters 2,3,5,7,8,9,and 10.We have also reviewed
Chapters 1,4 and 6.However,we do not at this time have any comments
to offer on these chapters.
The comments provided are organized into general comments and specific
comments for each chapter.In our attempt to be as responsive as poss-
ible within the limited time frame APA has established for our review
and comments we have not been abl e to organi ze our comments into a
comprehensive listing of deficiencies,clarifications,information
needs,and recommendat ions.Many of these comments have been 1eft
within the context of the section within which they are raisp..We feel
by commenting in this way it will assist you in consistently correcting
the deficiencies identified.
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Response
The FWS complete letter of January 14,1983 with attached comments
is contained in Appendix I,Chapter 11 of Exhibit E.In Appendix
J of Chapter 11 are responses to these comments.
Comment 9
The following comments are generally app1 icab1e to several chapters
and,in some cases,are applicable to all of the chapters:It is our
understanding that the projections of future power needs used in the
license application are generally agreed to be high 5 and are being
reevaluated for submittal to the FERC after the license application is
submitted (Acres American Deputy Project Manager John Hayden,personal
communication).The changes in the load forecasts are dramatic.In
the Acres American report evaluating economic tradeoffs of flow
regimes 6 the asumed moderate load forecast for the year 2010 is 7,791
gegawatt-hours (GWh).In the 1atest Batte"e Newsl etter7 the
moderate forecast is 4,986 GWh and the low forecast is 3,844 GWh.The
significant decl ine in projected power demands has 1 arge impl ications
to many of the project assumptions which have constrained mitigation
planning,for example:available water for downstream flows;mode,
timing,and routing of construction access;and scheduling of work.
The license application should fully discuss the implications of the
latest load forecasts.
Response
There is no single projection of future power needs used in the
license application.Instead,there is a range of forecasts
sufficiently wide to cover most perceptions about the Railbelt
region's future.Battell e has indicated,based on a 1 imited
review of their earlier work,that a more current outlook for
state oil revenues would tend to appreciably lower their base case
set of forecasts.Battell e l s 1 imited revi ew·did not address the
influence of Susitna power costs on power demand,nor did it take
account of recent actual Rai"lbelt power generating growth rates
approximately three times greater than the forcasted average
annual.mid-range growth rate of 3.5 percent.Thus,we disagree
with the contention that the projections used in the license
application are generally agreed to be high.
The license application contains an explanation of the analytical
tools used for power demand forecasting,presents a set of fore-
casts based on wide ranging sets of assumptions,and includes a
thorough sensitivity and multivariate analysis addressing alterna-
tive futures.It is readily acknowledged that the pace of future
load growth cannot be predicted with precision,especially in
Alaska.Fu rther,the outlook will change from year to year.It
is important that decision makers are kept abreast of the most
current outlook,and this will be done.At the same time,this
variability and uncertainty cannot be used as an excuse to
indefinitely postpone decisions,nor to annually alter the project
configuration to conform to that year's outlook.
With the respect to the Watana Proj ect in pa rti cul ar,it is impor-
tant to note that the Project's timing is insensitive to forecasts
of future load growth.Since it is designed to be fully utilized
in displacing existing generation,the need for the Watana phase
is dependent on the cost and avai 1 abi 1 ity of al ternati ve genera-
tion,but not on load growth.
The combination of Watana and Devil Canyon will provide power to
first displace fossil fuel-fired generation,and subsequently to
accommodate any growth in demand over the next several decades.
The two proj ect phases are of approximate equal output,thereby
allowing phased development to match the growth in demand.
The financing approach to Susitna is designed to insure that the
cost of Susitna power,even in the early years of operation,is
equal to,or less than,the variable generation costs facing Rail-
belt util ities.
Assuming that such a finance plan is implemented,Railbelt utili-
ties should be willing to shut down their fossil fuel-fired plants
and purchase Susitna power.In the Railbelt today,total annual
generation,excluding self-supplied industrial demand,exceeds
3,500 GWh.Netting out the generation potential from existing
hydroelectric facilities (which would not be displaced),leaves a
present-day market of 3,300 GWh.The most pessimistic Battelle
forecast calls for another 450 G~rh before 1990,giving a total
potential market of at least 3,750 GWh when the Watana Project is
completed.Watana will be able to provide 3,450 GWh,and
therefore,be fully utilized immediately upon its completion.
The Devil Canyon phase/of the Project would then be added sometime
later,as Railbelt demand increased and the need dictated.[)evil
Canyon's additional 3,330 GWh would be available to accommodate
demand growth whether that resulted from popul ati on increases,
increased per capita use,conversi on from fossi 1 fuel s to el ectri-
city,or industrial demands.
With respect to the specific planning decisions mentioned by the
Fish and W-ildl ife Service,several comments can be made.The
schedul ing of work on Watana and choice of construction access
mode,timing,and routing were,and remain,independent of changes
in the outlook for future load growth.Irrespective of when the
Project is needed,a primary concern of the Power Authority is to
mi nimi ze the durati on of constructi on and,therefore,interest
during construction and the Project cost.Further,introducing
any increased risk of Project delay,once construction has begun,
has serious implications for the ultimate cost of this capital
intensive Project.The scheduling of work and the choice of
access have been significantly influenced by these concerns;the
decisions have not been driven by the load forecast.
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Comment 10
The intent of the Coordination Act and NEPA is that environmental
resources be given equal consideration with project features.Consis-
tent with NEPA,as well as the APA Mitigation Policy,avoidance of
adverse impacts should have been given priority as a mitigation
measure.We have found this generally not to be the case,for example:
mode,timing"and routing of construction access;scheduling of work;
type and siting of the construction camp/village;recreation develop-
ment;instream flow regime;and filling schedule.Other examples can
be found in our Specific Comments..
Response
It is the Power Authority's intention to build the optimal power
producing Project commensurate with environmental,cost,and other
considerations.Needless to say,decisions about Project design
and operation require the balancing of these several considera-
tions.
As major design decisions are made,environmental information
pertaining to that decision is developed and fed into the
decision-making process.For example:
Avqi dance of adverse impact has been an important factor from the
earli~st stages of Project formulation.
The middle Susitna Basin was originally considered as a preferred
location for hydroelectric development,not only because of the
relative economics,but also because of its compatibility with the
natural environment.Compared to other potential large hydro-
electric development sites (e.g.Wood Canyon on the Copper River),
the middle Susitna location has less potential environmental
impact.Within the Basin itself,consideration of environmental
impact resulted in the early elimination of the Gold Creek,Tyone,
and Olson projects,three of thetwel ve damsites identified in the
middle portion of the Susitna Basin.Lesser environmental impact
was one of two primary reasons why the Watana-Devil Canyon
combination was selected as the basin development plan over the
High Devil Canyon-Vee scheme •
Extensive analysis of the access route was accomplished.This
analysis incorporated many facets of analysis:construction cost;
logistic costs of the construction period;risks to Project
schedule;impacts on fish,wildlife,and habitat;and impacts on
adjacent communities.Balancing all of these considerations,an
access route was selected which was identified as not being the
envi ronmentally preferred route.Nevertheless,envi ronmental
att.ributes were given more than equal consideration during the
decision process;other considerations simply domi nated,as was
documented during the analysis.
Compa rab ly,the type and 1ocat i on of the construct i on vill age
reflects the balancing of several considerations,primary among
them:impact of work force on adjacent communities;safety and
producti vity of the work force;Project costs;and envi ronmental
impacts.Factors other than proximate environmental impacts
governed the selection of the proposed camp configuration.
Most features of design and operation reflect a multidisciplinary
assessment of benefits and liabilities of several options.The
Environmental Report (Exhibit E)of the 1 icense appl ication
provides the analysis of the proposed Project and reasonable·
alternatives which permit the Power Authority,FERC,Agencies,and
the public to determine the benefits and liabilities of decisions
about design and operation of the Project and its mitigation
program.
Comment 11
Engineering and environmental studies do not seem to be interactive.
It appears that the findings of environmental studies have not been
integrated into the engineering design.This may be due in part to the
short time frame established for project planning.An examination of
the sequencing of the studies illustrates this problem.It is our
understanding that the Aquatic Studies Program,designed to be the
basis for determination of impacts to the aquatic system and associated
mitigation measures,was established as a five year study.We are now
two yea rs into thi s program.The analys is of the data to allow an
assessment of impacts and formulation of mitigation proposals may add
another year to this process.APA expects to obtain a license,and
begin construction in late 1984,or early 19858 •Obviously,this
does not allow for an impact analysis and mitigation planning based on
these studies prior to licensing.Mitigation planning,and an
assessment of the impacts of different mitigation options needs to be
undertaken in regard to project costs,viability,socioeconomic
considerations,and mitigation proposed for potentially competing
interests.This should all be considered throug the development of the
environmental impact statement,and certai nly pri or to 1i cense
issuance.
Response
The Power Authority seeks to effectively incorporate into the
decision-making process of the Project the findings and recommen-
dations of the environmental studies'program.Numerous design and
operation aspects reflect tempering the optimum power develop-
ment/mi n imum Project cost criteri a with envi ronmental protecti on
and its attendant costs.Proposed spawni ng season flows are
12,000 cubic feet per second (cfs)instead of the 6,VOO cfs that
optimum power operat ion waul d suggest.Fi xed-cone val ves have
been incorporated for the rel ease of excess flows without the
entrainment of dissolved gases,even though the problem would be
only occasional (and,at Watana,substantially upstream from any
existing anadromous fish populations).The number and location of
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borrow sites has been reduced to m1 n1m1 ze habitat impacts.Vege-
tat ion in the rese rvoi r wi 11 be cl ea red to avoi d potent ia 1 impacts
from floating debris to animals swimming across the reservoir.
Multilevel intakes have been incorporated to permit temperature
regul at i on of downstream releases.
A 1arge construction camp ;s pl anned and a number of transporta-
tion options for workers have been planned in order to reduce
impacts to the small adjacent communities •
In response to agency comments at the time of their review of the
Feasibility Report,additional environmental scientists were
assi gned to the Project,and the Power Authority staff was aug-
mented with two environmental scientists •
Interaction between the engineering and environmental rlisc-iplines
has occurred throughout the project development studies.This has
included significant input into important development decisions
including dam location,basic project configuration,access plans,
construction camps,and project operation.
The sequencing of studies identified,has not presented a signifi-
cant problem.During the preliminary design and feasibility
assessment of most projects,all study di sci pl i nes have 1ess
quantified data than would be ideal.Rather than identify this as
an insurmountable problem and thus failing to incorporate environ-
mental criteria into early planning,the approach has been to
integrate Sounrl professional engineering,economic,and environ-
mental judgment,as well as quantified knowns,into the planning
decisions.As additional data become available,decisions are
reassessed,impact predictions further quantified,and design
specifications and operation modes finalized.
Substantially before the point of finalization,however,prelimi-
nary assessments of Project impacts will be avail able and func-
tional design drawings can be produced for mitigation measures.
Thus,for example,a five-year plan for studying impacts of
aquatic ecosystems may be needed to permit the final design for
construction of facilities,although an adequate assessment of
impacts and mitigation plans can be made after two years of
studies to support a license application.The ongoing study
prog rams wi 11 pe rmi t refi nement in des i gn and ope rat ions of the
Project and its mitigation facilities.The Power Authority
believes it is not necessary for these studies to be completed
prior to any license application.
Comment 12
Numerous examples of lack of coordination and/or communication between
the groups responsible for the different study elements are evident.
Examples can be found by comparing discussions concerning minimum
downstream flow rel eases in Chapters 4 and 10 to what is found in
Chapters 2 and 3.Reservoir temperature modeling discussions in
Chapter 10 are not consistent with what is stated in Chapters 2 and 3.
Another example is found in the minimal level of concern expressed in
Chapter 10 for socioeconomic (Chapter 5)considerations,such as
impacts of license denial.More specific comments are included in the
attached document.Other Exhi bits were not provi ded to us for revi ew
although we requested them by letter dated November 19,1982.
Response
Although it is recognized that some inconsistencies existed in the
Draft Exhibit E submitted for review in November 15,1982,this
draft document and our final license application provide numerous
examples where extensive coordination among the various study
disciplines occurred.
Comment 13
Research of background information is frequently inadequate and incom-
plete.An example would be the discussions concerning subsistence
(Chapters 3 and 5).More adequate research of this very important area
appears justified.We have listed several readily available references
which would be of value in improving this discussion.
In Chapters 2 and 3 minimal information is brought into the discussions
concerning physical changes which have been observed at similar hydro-
power projects.We are sure that many of the potential impacts that
are di scussed for Susitna (e.g.,temperature concerns)are not uni que
to this project.The State's experience with the Trans-Alaska Pipeline
System (TAPS)project coul d have been drawn upon more fully as an
example,particularly in regard to socioeconomic (Chapter 5)discus-
sions.Another example is the discussion concerning natural gas and
geothermal electric generation as alternatives to Susitna (Chapter 10).
Very little use was made of existing information bases.
Response
Extensive use was made of existing information.A review of the
reference section of each chapter should serve to confirm this.
Additional references identified under specific comments have been
revi ewed.
Comment 14
Speculation is not always clearly distinguished from data-based conclu-
sions.This problem is most apparent in Chapters 2 and 3 and should be
corrected.
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Response
Although even most data-based concl usionshave a judgmental compo-
nent associated with them,a special effort has been made to
identify,for the reader,those conclusions based more on profes-
sional judgment than quantitative assessment.The inclusion of
these statements is evidenced by the following comment.
Comment 15
Lack of quantification is a recurrent problem in the Exhibit.Neither
base line data nor impacts are appropriately quantified (e.g.,Chapters
2,3,5,and 10).Statements in the document let us know what,IIMuch
of the discussion is based on professional judgment ,II (page E-3-3),
and,"Many of the statements are specul at i ve •••and •••unsupported,II
(page E-3-56).Other statements let us know that ongoi ng,or pl anned
studies,will fill these numerous data gaps to allow a quantification
of the resources and impacts which would let us go beyond ,lithe con-
ceptual mitigation plan,"(page E-3-116).Recognizing a problem does
not,in and of itself,correct it.We were particularly concerned with
this in our review of Chapter 3.In the Exhibit E,the existing re-
sources should be quantified.The potential impacts to these resources
should be quantified and then evaluated over the line of the project.
Only at that point can specific,effective mitigation measures emerge.
We consider quantification of exi st i ng resources and impacts and a
specific,effective mitigation plan essential to the development of an
acceptable environmental impact statement.
Response
See response to general comment 0 above.
Comment 16
The ongoing,and planned studies,which are frequently noted (particu-
larly in Chapters 2 and 3)should be fully identified so we can examine
them in regard to their scope.We cannot,otherwise,determine what
needs to be done and the time frame for accomplishment.Further dis-
cussion is provided in our Chapters 2 and 3 general comments,and
throughout our specific comments sections.
Response
The FWS determi nat i on as to what they perceive needs to be don,e
should be based upon a review of the data and assessments C6n-
tained within Exhibit E.~Any suggestions for specific studies
will be considered in planning future studies.
Comment 17
In several of the chapters (e.g q Chapters 2,3,and 5)we are faced
with mitigation options to contend with identified (although frequently
unquant ifi ed)adverse impacts.For exampl e,in Chapter 3 there are
di scu ss ions on the potent i alva1 ue of spik i ng spri ng flows fo r salmon
out-migration and the installation of a fifth portal on the multi-level
intake structure to provide warmer downstream temperatures during
filling.If these mitigation proposals have validity,they should have
been incorporated into the project design and operational plan.The
document does not provide an adequate mitigation plan as required.
In addition,mitigation measures which are presented should have proven
successful in Alaska,or in a similar environment.If the proposals
are not proven,then they would need to be demonstrated effective in
the project area.Further discussion is provided in our Chapter 3
general comments sections.
Response
The mitigation plans have been revised to state a preferred miti-
gation program.Additional options in some areas are discussed
and the procedures that would be followed to add these options or
substitute these options for the presently proposed program
element.
Comment 18
The need for an effective monitoring program through construction and
the operation phase is discussed in many of the chapters.However,the
program is not adequately described.We fully support the establish-
ment of a monitoring program.We hel ieve the program should provide
for participation by representatives of appropriate State,Federal,and
local agencies and be financed by the project.This panel should have
the authority to recommend modification of how activities are conducted
to assure that mitigation is effective.Recommended changes in the
mitigation program should be adopted through a mechanism established in
the license,mutually acceptable to all concerned bodies.
Response
It is the intention of the Power Authority to establish a monitor-
i ng program that responds to and impl ements the Arti cl es of any
forthcoming FERC license for the Project.
With respect to formul at i on of the specifi cs of the program,we
invite and al so expect your agency,as well as other regul atory
entities,to playa major role in this effort.With respect to
monitoring the effectiveness of mitigation measures and compliance
with stipulations of the license application,we see that as the
licensee's responsibility.
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We expect that no matter who does the monitori ng,thei r observa-
tions will establish whether the mitigation programs are achieving
their goals.If they are not,the mitigation programs will be
modified as will undoubtedly be required by the license.
Comment 19
Unfortunately the rush to meet the schedule for the license application
has resulted in poor quality control,Le.,countless typographical
errors,missing lines,misreferenced tables and figures,unclear
sentences,internal inconsistencies,inadequate documentation,missing
references in bibliographies,etc.This should have been eliminated in
a thorough editing prior to release for agency pre-license application
revi eWe Our revi ew for bi 01 ogi cal compl eteness was somewhat hampered
by this problem.
Response
It is recognized that the draft Exhibit E submitted for review and
comment was indeed a draft document.Considerable effort has been
made to improve the quality of our final license application.
Comment 20
In the previously referenced FWS letters and testimony,many of the
same concerns di scussed above and in the attached comments were rai sed.
It is our view that unless the issues raised in this letter are satis-
factorily resolved,we do not believe the application could provide the
basi s of an acceptabl e envi ronmental impact statement.In thi s respect
we consider the license application to be deficient.
Response
The Power Authority acknowl edges the concerns expressed in thi s
and previ ous 1etters submitted by the FWS.The Power Authority
contends that the 1 icense appl icati on sati sfactoril y addresses
these concerns.The final resolution of these concerns is
expected to occur during the FERC license review process.
Comment 21
We recommend that you strengthen the license application by including
information resulting from a thorough eval uation of the biological data
collected during the 1982 field season.This would enable an assess-
ment of the adequacy with the data base to support a sufficiently
quantified impact analysis and,in turn,a specific,effective mitiga-
tion plan.We believe a realistic appraisal could then be made as to
when any remaining deficiencies could be satisfied.
Response
1982 biological data and the accompanying analysis will be sub-
mitted toFERC when available.It is recognized this information
will improve the data base and allow for refinement of impact
predictions and mitigation plans.
COMMENTS CONTAINED IN THE U.S.FISH &WILDLIFE
SERVICE LETTER OF JANUARY 14,1983
CHAPTER 2 -WATER USE AND QUALITY
GENERAL COMMENTS
Comment 1
In examining Chapter 2,we were concerned that sufficient scope and
quantifications are not provided to allow a quantified impact evalua-
tion of the fisheries and other biological resources.The information
provided should allow for the developnent of specific and effective
measures which would fully mitigate for all adverse impacts.We are
1 eft with the definite impression that the project would,through
changes in streamflow,water quality,temperatures,ice conditions,
vegetation,and slough habitats,have significant effects upon the
resources of concern to use,particularly the fisheries.However,
quantificati on of the potenti al impacts is generally 1 acki ng as are
spec ifi c effective miti g ati on measures.Of course,the 1 atter cannot
be accompl ished prior to the former,despite the attempts found in this
chapter.
A significant portion of the lack of specificity found in Chapter 2 is
due to the fact that,although two years of data have been gathered
(1981 and 1982),the Exhibit E reflects only the 1981 data.We have
consistently stated that the 1982 data be analyzed and included in the
Exhibit E (see Deputy Regional Director LeRoy Sowl 's April 16,1982,
statement to the APA Board,and out 1etter dated October 5,1982,to
Eric Yould).Our position remains the same.
Response
Substantial additional quantification has been incorporated in
Chapter 2 since the original draft was distributed in November
15,1982.The sections on streamflow,water quality,water tem-
perature,ice conditions,vegetation,and slough habitats have
been expanded.Whenever possible,information collected in 1982
has been incorporated in the docllTlent.
Comment 2
This chapter does not identify what studies have been completed,what
studies were ongoing in 1982,and what studies are proposed.Until
this is provided,we cannot determine what studies we would like to see
modified,and what we see as being missed.Without this type of infor-
mation,the resource agencies are placed in a reactive mode,i.e.,we
can only comment on what shoul d have been examined in compl eted
studies.However,in so doing,we can better facilitate the appli-
cantls efforts to plan a project we can support.An example of a pro-
posed study which is not addressed in this chapter is the Arctic Envi-
ronmenta 1 In formati on and Data Center (AEIDC)study.The fo 11 owi ng is
a sunmary of thi s proposed study:
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The AEIDC proposal is designed to (1)accurately and comprehensively
predict system-wide streamflow and temperature effects of the dam(s)t
and (2)interpret effects of such changes in terms of aquatic habitats
and fish populations.
To;accompli,sh these general objectives t AEIDC proposes,using a 1 inked
system of simulation model s which requires data fr'om other project
studies t available literature sources t and professional judgment.
The study is a result of the need to consider the special aquatic habi-
tat relationships in the Susitna River basin and the need to account
for the interreTated effects of icet se&iment t streamfl OW t and tempera-
ture changes which will accompany construction t fill ing t and operati on
of the selected dam or dams.
Most assessments 0 f hyd roel ec tric proj ects are based upon impac ts asso-
cia,ted with c bange's in mean monthly streamfl ows and temperatures.How-
evert the actual impacts of the project may not be caused by the m:ean
events but through changes in the natural pattern of streamflow or tem-
perature variation.Further t a single set of mean monthly flows does
not actually reflect instantaneous flows "in the river;the actual pre-
dicted mean monthly d ischar~e wi 11 probably not occur during a given
month because of expected anomal ies in hydrologic stati sties..There-
fore t it is necessary to predict the'r'an~e of mean monthly flows
expected t based on reservoir inflowt power generation requiranents t and
downstream demands.
The AEIDC model system would depend heaVily upon a reservoir operation
model to generate an ex,haus'tive range of feasible weekly or monthly
flow regimes and the expected variation over a 30-yr forecast period.
The model system would include provisions for ice and sediment modeling
to account for changes in substrate distributiont bed elevation or
channel configuration which might resul t from project operation.At a
minim,um t ice and substrate modeling would support the assumptions that
hydraul ic boundary conditions either remain stable or change within
predictable limits with project operation.
The array of predicted weekly or monthly flows and temperatures may be
biologicall'y:i,nterpr'eted in several ways.TtTe available hab;itat data
base is heavily weighted at this time toward known chum and sockeye
salmon spawning areas in sloughs and side channels in the Susitna River
between Talkeetna and Devil Canyon.Access and spawning dynamics with
respect to mainstem discharg,e are the major simul ation goal's of several
ongoing field studies.The AEIDC modeling system could provide a time-
series approach to determine effects upon critical life history stages
of these species.It is possible that the entire riverine life cycle
of chum salmon might be simul ated under various flow regimes to predict
long-term populati on trends.A simi lar analysi s of sockeye salmon
might be possible.
The primary concept,again,is first to credibly and comprehensively
predict all project operations and their effect upon the habitat-
related physical parameters within the system;secondly,those effects
will be interpreted,through long-term forecasting,in terms of their
influences upon affected salmon populations.
We support the proposed AEIDC study.It shoul d prov ide the basi s for
determin ing proj ect in stream flow impacts and a reasonab 1e assessment
of mitigative alternatives.
Response
The ongoing 1982 and 1983 studies are reflected in the Power
Authority study contracted to the AEIDC,as summarized in the US
Fish and Wildlife general comments on Chapter 2.
Comment 3
It is apparent that the proposed instream flow rel eases are designed
for maximum power production and do not reflect biological needs.The
12,000-cfs figure for August reflects the maximum amount of water that
can be discharged without significant economic effects.It is our
understand ing that the proj ect rel eases wo ul d be 10,000 to 12,000 cfs
year round.No consideration was given to the potential impact of the
project during winter when flows of thi s magnitude might prove highly
detrimental to the fishery.The potential value of spiking flows dur-
ing the spring to facilitate smolt out-migration and flush the sloughs
of ice and debri sis discussed.However,these flows are not refl ec ted
in the proposed releases.
We consider it very important that the 1 icense appl ication contain a
specific,detailed flow release schedule,which is designed to mitigate
projectimpacts,protect or enhance conditions for fish spawning,feed-
ing,unrestricted fish passage,out-migration,and provide overwinter-
ing habitat for fish in the Susitna River.This schedule should be
developed through a quantified instream flow analysis which has been
coordinated with the FWS,National Marine Fisheries Service,and the
Al aska Department of Fi sh and Game (ADF&G).
Response
The proposed instream flow releases are not designed for maximum
power production and do reflect biological needs.If instrealll
flow rel eases were sol ely to maximi ze power produc ti on benefit,
Case A (8,000 cfs)woulq have been selected.This selection
process is described in Section 3 of Chapter 2.
The potential impact of the project during winter was considered.
Temperatures,ice front location,the delay in ice cover,and the
potential impact on sloughs have been discussed.Appropriate
mitigation measures have been incorporated to ensure that produc-
tive salmon sloughs will not be overtopped during the freezeup
process (Chapter 3).The impact of these flows on the fishery is
discussed in Chapter 3.
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The potential value of spiking to facilitate smolt out-mitigation
is being examined.However,because the desi red timing and mag-
nitude is not known at this time,a spring release was not
included in the minimum flows specified.
With the five-year slough maintenance program and the increased
upstream berms included in the mitigation plan,there will be no
need to flush the sloughs of debris and ice.
Conment 4
In response to the APA request oJ september 2,1982,the FWS,by 1 etter
dated October 5,1982,provided input specific to the draft Exhibit E.
This is in compliance with the FERC recommendation that information
included at the initiation of formal consultation,1I •••respongs to the
preliminary comments and recommendations of the agencies.1I Since
this was not done,our October 5,1982,letter should be made part of
our formal response on the draft Exhibit E.As such,the points raised
in that letter should be specifically addressed in the Exhibit E sub-
mitted as part of the 1 icense appl ication.Many of the points raised
would be most appropriately responded to in Chapter 2.
Avoidance of adverse impacts should,in compl iance with the APA Miti-
gation Pol icy document and NEPA guidel ines,be given top priority in
the license application.In particular,our concerns as to the deci-
sions which led to such project features as the camp/village,transmis-
sion line routing,construction access routing,turbine configuration,
filling regime,flow regime,etc,with regard to avoidance of impacts,
should be addressed.
Response
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All correspondence received from
addressed in Chapter 11 of Exhibit
priate chapters has also been
comments.
FWS has been specifically
E.The text in other appro-
mod ifi ed to address thei r
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Avoidance has been given top priority as an environmental mitiga-
tion measure.However,in compl iance with NEPA and the Power
Authority mitigation policy,our decision-making process has only
g iv en env i ronmenta 1 consi derati ons equal status with economic s,
not priority status.
SPECIFIC COMMENTS
2 -BASELINE DESCRIPTIONS
2.3 -Susitna River Water Quality
(a)Physical Parameters
(l)Water Temperature
W-2-001 -Mai nstem:Paragraphs 1 and 2:Those months whi ch are bei ng
referred to by wi nter and summer should be i ndi cated.
Response
The winter months normally include the months of October
through Apri 1 when the flow is predomi nant1y base flow
and water temperatures are approxi mate ly O°C,whereas
t he summer months inc 1ude the peri od after breakup
through the hi gh runoff peri od (September).Paragraphs 2
and 3 have been clarlf\ed to reflect the intended
meani ng.
W-2-002 -Sloughs:Paragraph 1:The fl rst step in understandi ng the
temperature relationship between the mainstem and the sloughs
is to measure the temperatures of both sites.Thi s has been
done.The relationship between the mainstem and the sloughs
regardi ng temperatures (as well as other water quality para-
meters)then must be establi shed.Thi s process,apparently,
is just beginning.To this end,one slough (#9)has been
exami ned.Thi s ex ami nati on has focused,correct ly,on the
ground water rel ati onshi p.Accordi ng to Tony Burgess (Acres
Ameri can),in hi s Susi tna Hydro Exhi bi t E Workshop presenta-
tion (12/1/82)on ground water upwelling and water temperature
in sloughs,the ground water regime can be modeled,but local-
ly the match is not very good:The ground water temperatures
near the surface do not match the predi cted temperatures.
Conti nued study is obvi ous1y i ndi catedfor Slough 9.After an
understandic,ng is dchi eved for that slough,the program would
need to be expanded to other sloughs,possibly Sloughs 8A,11,
19,20 and 21.These sloughs have been more i ntensi ve1y
exami ned than other sloUghs in thi s reach of the Susitna
Ri ver.We recommend that thi sgenera1 program be undertaken.
Response
The comment that the ground water re1 at;onshi ps for only
one slough (#9)have been examined and that the program
would need to be expanded to other sloughs,possibly
Sloughs 8A,11,19,20 and 21 is well taken and will be
considered for future studies.However,the Slough 9
studi es have provi ded an overall understandi ng of the
ground water processes withirn,the slougns..Gi ven the
similarities of the sloughs,i.e.,similar soil condi-
ti ons and hence permeabi 1ity,similar flow path lengths,
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and simi lar upwelling tempe'ratur€s~we expect simi lar
ground water processes in all the sloughs between
Portage Creek and Talkeetna.For example,ground water
measurements conducted on both Slough 9 and Slough 8A
,demonstr,ate that groundwater flow is in a downstream
direction and locally laterally toward the sloughs.
The ground water flow pattern as deduced from the model
compares reasonably well with measured field data.The
FWS comment~IIlocal]y the match is not very good ll
applies to the ground water condition's in the vicinity
of we 11 9-11.The poor match may be due to a number of
reasons.
- A surface stream exi sts in that area,probably due to
runoff from the upland areas.This could locally
recharge the alluvial aquifer;
-Pondi ng of surface water behi nd the rai lway embankment
has also been observed,and would lead to elevated
ground water levels;ar:ld
-Soil stratigraphy adjacent to the valley wall may be
much more vari able than in the center of the valley.
It may contain silty layers which would result in
perched water table conditi ons.The wells in thi s
area may therefor,e not b,e meas!lring the main alluvi al
water surface.
To address the questi on of why ground water temperatures
near the surface do not match the predi cted tempera-
tures,deep wells have been dri lled near Slough 9.
These wells are bei ng monitored for temperature and
piezometric head.These data along with continued
ground water temperature measurements near the surface
should provide the i nformati on nec.essary to address thi s
question.Results will be available in the June 30~
1983 supplemental report.
,W-2-003 -Tri butari es:Paragraph 4:The di fference in temperatures
of theChi,uli tna and ita lkeetna Ri vers should be referenced at
least by month.It would appear that the cooler temperatures
displayed by these rivers would be useful in an assessment of
post-project temperatures effects at the confl uence and
further downstream.We recommend thi s be examined.
Response
We concur that the temp'eraturesof the Chulitna and
Talkeetna Ri vers would be useful in an)as~s'essment of
post-project tempe,ratureeffects at the confluence.
Mont~ly data for June 1982 through September )982 have
been incl uded in Section 2.3.1(c).From approximately
mid-October through April,water temperatures in both
the Chul itna and Talkeetna Rivers are near O°C.
W-2-004 -Freezeup:Paragraph 3:The impact of thi s process shoul d
be fully expl ained in regard to river morphology and mainten-
ance of the present riparian zone.
Response
The discussion on freezeup has been expanded to provide
a more detailed explanation on the freezeup process in
Section 2.3.2(a).The impacts to river morphology and
riparian vegetation are discussed in Section 4.1.3
(c)(ii).
W-2-005 -Winter Ice Conditions:Paragraph 2:Pl ease refer to our
comments on Section 2.3 (a)(i)-Sloughs.The sloughs should
be identified by number,and percentage to which the state-
ments apply.
Response
The sloughs which were observed to have open leads
during mid-winter 1982 have been identified in Table
E.2.18.
W-2-006 (iii)Suspended Sediments:The percent contribution,by
season,from the maj or suspended sediment sources shoul d be
indicated.An analysis of the anticipated changes,by season,
due to the project operation should be made.
Response
Sediment sources and the contribution of suspended sedi-
ment by season have been included in Section 2.3.3(b).
Project effects are discussed in Sections 4.1.3(c)(iii)
and 4.2.3(c)(iii).
W-2-007 (ix)pH:The pH range,from 6.6 to 8.1,is broad and should
continue to be monitored.The potential exists for a lethal
pH shock to occur to aquatic 1 i fe with a change of 1.0 pH.A
change of this magnitude might be poss'ible from a reservoir
water release.A pH below 6.6 may be harmful to fish depend-
ing on the amount of free carbon dioxide present in excess of
100 parts per mill ion.Egg hatchabil ity and growth of alevins
could be adversely effected at a pH range between 6.5 and 6.0.
The need for a predictive water qual ity model is apparent
given the toxic heavy metal s that occur in the drainage.We
recommend that one be utilized.
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Response
Cantin ued monitoring of pH 1 ev el s will be taken into
consideration.No large pH variations are expected as a
result of a reservoir water release.Releases from
Watana will be withdrawn from the same four upper 1 evel
intakes as powerhouse flows.Adverse pH and free carbon
dioxide concentrations will not occur in this portion of
the reservoir.At Devil Canyon,the intakes for the
seven fixed-cone valves will be at elevations of 1050
and 930 feet.The lower of these intakes will be
approximately 100 feet above the reservoir floor.Con-
sequently,the acidic waters which will exist immediate-
ly adjacent to the reservoir floor,due to the leaching
process,will not be withdrawn and passed downstream.
Acceptable pH values are expected throughout the balance
of the reservoir.The utilization of a predictive water
qual ity'model will be considered.
(d)Other Parameters
W-2-008 (i i i)Others:The rail road right-of-way that parall el s the
Susitna River has been sprayed wlth various herbicides for
vegetation control for a period of years.Herbicides used
include amitrole,2-40,bromicil,and Garlon (tordon).
Streams of primary concern are Chase,Indian,Lane,and Gold
Creeks.A spill of Garlon occurred in Lane Creek in 1977.
Sloughs located along the railroad right-of-way could also be
recipients of some of the herbicide spray.No fish and/or
wil dl ife ti ssues have been analyzed for food chain herbic ide
impacts in the area.Due to the type of herbic ide used,we
are certain that detectable amounts will occur over a long
period of time.Please incorporate thi s information into your
disc us s ion.
Response
The use of herbicides along the railroad right-of-way
has been incorporated into Section 2.3.8(m}.Although
it is true that no ti ssue analysi s was undertaken,the
presence of these contaminants is not a project related
impact.Water sampl es at Cantwell and Gold Creek were
analyzed for endrin,lindane,methoxychlor,toxaphene,
2,4-0,and 2,4,5-TPsilvex.All concentrations were
below detection 1 imits (R&M 1982).Water sampl es
analyzed for h,erbicides by USGS at Susitna station in
1982 wer~also below detectable limits.
Project regulation of the Susitna River will serve to
reduce the dil ution of existing herbicides in the main-
stem by approximately one-hal f during the months of
May through September and increase the dilution effect
by a factor of approximately 6 from November through
April •
Herbicides will not be used for vegetation control on
the Susitna Hydroelectric Project.
2.4 -Baseline Ground Water Conditions
W-2-009 (d)Hydraulic Connection of Mainstem and Sloughs:It should
be noted that the sloughs provide valuable rearing habitat for
anadromous and resident fish.Additional comments concerning
the ground water connection and current studies are provided
under Section 2.3(a)(i)-Sloughs.
Response
The statement that slougchs provide valuable rearing
habitat for anadromous and resident fish has been added
to Section 2.2.4.Additional information can be found
in Chapter 3.
2.5 -Existing Lakes,Reservoirs,and Streams
W-2-010 (a)Lakes and Reservoirs:Paragraph 1:Project features
include transmission lines,access roads,transmission line
maintenance roads,railroad staging areas,etc,and should be
examined within the context of this section.The proposed
Recreation Plan would lead to the encouragement of impacts to
numerous lakes throughout the upper Susitna basin.Secondary
impacts resulting from the project would expand impacts to
additional systems.
Response
We concur that impacts to the water quality of existing
lakes and streams could occur due to project features.
Additional discussion has been provided in Section 2.5.
A listing of the lakes which could be subject to second-
ary impacts from the access roads and transmission lines.
is al so provided.Further information is al so provided
regarding the proposed recreation plan.
2.6 -Existing Instream Flow Uses
W-2-11 (b)Fishery Resources:Reference should be made to burbot and
Dolly Varden as important resident species.
Response
The importance of burbot and Dolly Varden as important
resident species has been noted in Section 2.6.2.
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W':'2-012 (g)Freshwater Recrui tment to Estuari es:Paragraph 2:It
should be noted that salt water ;ntrusi on and mi x;ng would be
re1 ated to ti da1 acti on .
Response
Salt water intrusion is related to tidal action.The
1arger the ti de range,the greater the mi xi ng and the
less the salinity intrusion.At the time of the August
18 and 19,1982 salinity measurements,spring tides
(i.e.,large tide range)were occurring in Cook Inlet.
Thi s would have the effect of reduci ng the salt water
intrusion.However,even with neap tides (i .e.,small
tide range)and the 90,000 cfs discharge at the mouth of
the Susi tna Ri ver,suffi ci ent mi xi ng would exi st to
prevent sa1i ni ty i ntrusi on upstream of the mouth.Thi s
information has been incorporated into Section 2.6.7 of
Ch apter 2.
2.7 -Access Plan
W-2-013 (a)Flows:Paragraph 2:The use of regressi on equati ons in
calcul atl ons of peak and low flows in 1i eu of actual di scharge
data should not be a substitute for the collection of data,
when si~ng culverts for engineering integrity or fish
passage.Washouts due to undersized culverts resulted on the
north slope haul road and,more recently,at the Terror Lake
Hydro construction site.
Response
During final design of the access road,culverts wi 11 be
si zed to mai ntai n fi sh passage accordi ng to the cri teri a
estab1i shed by the A1 aska Department of Fi sh and Game.
The recommendati on that actual di scharge data be co1-
1ected wi 11 be taken into consi derati on in the develop-
ment of future field studies.However,the value of
regression equations should not ~e underestimated.
W-2-014 2.8 -Transmi ssi on Corri dor:Base 1i ne i nformati on on the
t ransm;ss;on corri dor from the damsi tes to the Interti e has
been acknow1 edged as 1acki ng withi n the Exhibi t.As wi th
other project features,the Exhibit E should provide base line
data,impact assessment,and mitigative planning.We recom-
mend that this be done for this project feature.For further
comments,please refer to our letter dated January 5,1982,on
the Transmission Corridor Report.We provided this letter as
formal pre-license consultation and continue to view it as
such.
Response
The transmission corridor from the damsites to the
i nterti e has been rerouted subsequent to the draft
application.Both the transmission line and access road
now share a common corridor.Further infonnation can be
found in Chapter 2,Sections 2.8,3.6 and 6.2;Chapter-
3;Chapter 10,Section 2.4;Exhibit A,Sections 4 and
10;and Exhibit B,Section 2.7.
3 -PROJECT IMPACT ON WATER QUALITY AND QUANTITY
W-2-015 3.2 -Watana Development:Reference is made to Exhibit A.By
letter dated November 19,1982,we requested a complete copy
of all the Exhibits.This infonnation has not been received.
Response
Watana development explained in feasibility report.
(a)Watana Construction
W-2-016 (i)Flows:Paragraph 1:The significance of the loss of the
one-mile reach due to construction would more appropriately be
assessed in Chapter 3,under Fishery Resources,2.3.1(a)(i).
Response
The significance of the loss of the one mile reach due
to construction is assessed in Chapter 3 Section 2.3.1
(a)(i).
(ii)Effects on Water Quality
W-2-017 -Suspended Sediments/Turbi day/Vertical III uminat ion:Para-
graph 2:Anticipated suspended sediment and turbidity levels
should be compared,by month,to the ambient conditions.This
would allow an evaluation and understanding of potential pro-
ject impacts.The amount of spoil which would be generated
and the extent to which grading and washing of materials would
be needed is not addressed.This has obvious impl ications in
regard to water quality and spoil disposal.We do not at this
time have sufficient data or maps with which to provide speci-
fic input.We would recommend to the extent possibl e,borrow
material be obtained from within the future impoundment area.
It is stated that,"downstream,turbidity and suspended sedi-
ment 1ev el s shoul d remain essenti ally the same as basel ine
conditions."This would not appear to be the case during the
winter,when the ambient conditions are crystal-clear.
Response
Seasonal assessments of antic i pated suspended sed iments
and turbidity level s for the construction period are
provided in Section 4.1.1(c)(iii).Disposal methods and
,"
W-2-018
the extent of grading and washing have also been
addressed in Sections4.1.1(c)(iii)and 6.2.The
stockpi ling of gravel is expected to alleviate the need
for excavati on duri ng wi nter.Therefore,downstream
turbidity and suspended sediment levels during winter
should be close to ambient conditions.
-Contami nation by Petroleum Products:Spi 11 age of petroleum
productsi nto thelocalgrayli ng stream would have si gni fi cant
impacts on this fishery.An oi 1 spi 11 contingency plan should
be presented in the mitigation plan which is in compliance
with state and federal regulations.
Response
Federal law requires that as part of the management
procedures there wi 11 be an oi 1 spi 11 conti ngency plan
(40 CFR 102.7).Thi sis di scussed in Chapter 3,Secti on
2.4.3(c)(i i).
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W-2-0l9 -Concrete Contami nati on:The types of potenti al problems
associated with this activity should be identified and a
pollution control contingency plan should be developed as a
component of the proposed mitigatlon plans.Such a plan must
bei n compliance with state and federal regulations.The
Wastewater Treatment secti on (Page E-2-37)is a much more
appropn ate level of analysi s.
Response
W-2-021 (v)Instream Flow Uses:Anticipated impacts for flows greater
than the one 1n 50-year event should be described.
Response
The anticipated impacts for flows greater than 1:50-year
event are discussed in Section 4.1.1(f).
W-2-022 -Fisheries:Paragraph 2:The desirabi lity of avoiding t~s
fishery loss by gating the diversion tunnel should be dis-
cussed.
Response
An expanded discussion of the impacts of the diversion
tunnels on fish is contained in Chapter 3,Sections
2.3.l(a)(i)and 2.4.3(h).While it is valid to assume
that i ndi vi dual fi sh wi 11 not necessari ly be lost by
fi lli ng the reservoi r,the lost tri butary and mai nstem
habitat and the low habitat value in the reservoi r sub-
sequent to fi lli ng is expected to si gni fi cant ly reduce
the popul ati ons of fi sh suscepti ble to passage through
the diversion tunnels.The temporary mitigative measure
of structural protection from passage through the tunnel
will provide only short-lived benefits.It would be
more appropri ate to provi de mi ti gati ons that wi 11
provide long-term benefits.
W-2-023 (vi)Faci lities:General input is provided in our comments on
Chapters 5 and 10.The deci si ons regardi ng the type,admi ni s-
tration,and siting of the construction camp/village were made
wi thout input from resource agenci es.In addi ti on,the ti mi ng
constrai nts pl aced upon the constructi on of thi s project are
no longer supported by economi c studi es (Chapter 10,General
Comments).The Exhi bi t should be revi sed to reflect updated
forecasts.Reference is made to Exhibit F.Although we have
requested t~s Exhibit,it has not been provided.
Response
These comments are addressed under the appropri ate
chapters.
W~2-024 -Water Supply:It should be noted whether or not the
features descrfbed in thi s secti on were coordi nated wi th the
Alaska Department of Environmental Conservation.
Response
The detailed design of support facilities,including
water supply development,wi 11 afford an opportunity for
agency input.Water ri ghts appropri ati ons wi 11 be
pursyed as required by law.Please refer to Section 4.1
(g)(i)for addi ti onal di scussi ons.
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(b)Impoundment of Watana Reservoi r
(i)Reservoir Fi lling Criteria
W-2-025 -Minimum Downstream Target Flows:Paragraph 1:The factors
that went into thi s fi shery vs economi cs tradeoff analysi s for
determi ni ng the appropri atedownstream flows should be di s-
cussed in detai 1.At the Susitna Hydro Exhibit E Workshop
(conducted on November 29 through December 2),it was i ndi-
cated that the analysi s consi sted of determi ni ng at what
summer flows economi c benefi ts drop off.Gi ven that the
economi c analysi s upon whi ch thi sis based is generally con-
si dered out of date (Battelle Newsletter #4,Rai lbelt El ectri c
Power Alternati ves St udy),confi dence in thi s analysi s from an
economic perspective must be low.From a fishery perspective,
it is unacceptable.
Response
Section 3,Project Operation and Flow Selection,has
been added to the li cense document.Thi s secti on
di scusses the factors consi dered in the selecti on of
downstream flows.Al ternati ve operati on scenari os are
di scussed in Chapter 10.
W-2-026 Paragraph 2:Once we have an acceptable instream flow regime,
several gaugi ng stati ons wi 11 be necessary to assure proper
flows.It should be recognized that at least eight sloughs
are located above Gold Creek and that several of these
currently support fish.Flows to maintain or,if possible,
enhance t~e productivity of these sloughs should be provided.
Response
The sloughs upstream from Go 1d Creek that support fi sh
are downstream from Portage Creek.Si nee the drai nage
area between Watanaand Go ld Creek is 980 square mi 1es
and the drai nage area between Portage Creek and Gold
Creek is approximately 176 square miles,the discharge
at the most upstream slough wi 11 be about 17.7 percent
less than the total di scharge contri buted from the
drai nage area between Watana and Go ld Creek if it i s
assumed that the runoff per square mi 1es does not vary
over thi s drainage area.For example,if the Gold Creek
flow is 12,000 cfs,of whi ch 8000 cfs is released at
Watana and the remai ni ng 4000 is contri buted from the
.drai nage area downstream from Watana,the flow at the
slough il1ll1ledi ately downstream from Portage Creek would
approximate 11,300 cfs.(lJndernatural conditions,a
flow .of 4'0.00 cfsfrom the drai nage area between Watana
ant)Gold Cleek would imply a Gold Creek discharge of
ZO,OOO cfs.~Thi snow,in conjuncti on wj th proposed
W-2-027.
mitigation measures,would be used tomai ntai n the
productivity of the sloughs.With distance downstream,
the flow would increase such that the flow adjacent to
sloughs just upstream from Gold Creek would be close to
the 12,000 cfs flow at Gold Creek.
pararaPh 4:The out-mi grati on of salmon in the spri ng is as
like y related to photo-period and development as the other
factors listed.Very low flows in the spring could cause many
of the juveni les to rem~n trapped in backwater pools that are
normally flooded under pre-project conditions.
Response
During Watana reservoir filling,very low flows in the
spring may occur;however,this wi 11 not cause juveni 1es
to rem~n trapped in backwater pools that are normally
flooded under pre-project conditions.Local runoff from
the spring melt and/or rainfall in combination with
ground water inflow will provide sufficient flow for
out-mi grati on.
W-2-028 Paragraph 6:The proposed flows of 12,000 cfs have not been
demonstrated to mai nt ai n the i ntegri ty of slough morphology
and provi de the f1ushi ng flows needed to clean fi nes out of
gravel.Also,the potential problem of beavers colonizing
many of the sloughs,not being naturally controlled by flood-
ing,and therefore interfering with fish usage of the sloughs
should be addressed.Competi ng interests of aquati c and
terrestri al project components such as salmon vs beaver con-
flicts have been given minimal attention in theexhibit.
Response
Whi 1e the proposed flows of 12,000 cfs wi 11 not provide
the flushing flows to clean fines out of the gravel or
maintain the integrity of the slough morphology,during
wet years flows often will be sufficiently high to over-
top many of the upstream berms of those sloughs whi ch
have not been increased in elevation for fishery mitiga-
tion.(In sloughs where the upstream berm elevation
wi 11 be increased,the sloughs wi 11 be mai ntai ned on a
5-year rotating schedule.)If,during filling the flood
volume storage,criteri a are exceeded,Watana flows wi 11
be increased up to 30,000 cfs (Section 4.1.2(b)(ii)).
During project operation,once the Watana reservoir is
fi 11ed to the normal maximum operating level,outflow
wi 11 be increased to equal inflow up to the operati ng
capacity of the release faci 1i ti es.From the annual
flood frequency curves (Figures E.2.147 and E.2.199),
f1ushi ng flows of 20,000 cfs wi 11 occur once every 7
...years on the average wi th Watana only.When Devi 1
:...p'o,_.,.
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W-2-029
W-2-030
Canyon comes online,there is a 50 percent chance
annually that a f1ushi ng flow of at least 20,000 cfs
wi 11 occur.As energy demand increases,flushi ng flows
of 20,000 cfs wi 11 Occur about once every fi ve years.
The salmon vs beaver·component of thi s questi on is
addressed in responses to comment sin Ch apter 3.
pararaPh 7:Adequate i nstream flows for the wi nter peri od
shou d be estab1i shed accordi ng to fi sh requi rements.Thi sis
a critical period for fi sh and even minor dewatering may have
significant de1eterinus effects.
Response
We agree with the importance of ensuring adequate flows
for fi sheri es in the mai nstem duri ng the wi nter months.
Adequate mai nstem flows are most cri ti cal duri ng thi s
period when climatic conditions are harsh and the main-
stem i s bei ng uti 1i zed for overwi nter reari ng.Hence,
duri ng Watana reservoi r fi 11i ng,i nstream flows wi 11.be
increased to natural level s for the peri od November
through Apri 1.Secti on 4.1.2 has been modi fi ed accord-
i ng ly.
(ii)Reservoi r Fi lli ng Schedule and Im~act on Flows:Once an
acceptableinstream flow study has alowed an evaluation of
various flow regimes,an acceptable fi lli ng regime for the
project which would minimize impacts to aquatic resources can
be deve loped.Th e proposed fi 11i ng regi me h as been est ab-
1ished upon an inadequate biological information base.
Response
The summer (i.e.,May through September)fi 11i ng regi me
i s based on the mi ni mum operati on flows (See Secti ons
3.2 to 3.7).With average fi 11i ng conditi ons,the
reservoir 1eve1i s high enough by August of the second
year of fi 11i ng to permi t the release faci 1i ti es to
operate.Hence,the adverse temperature impact s from
4°C water being released through the low level outlet
c an be avoi ded.
W-2-031 (iii)River Morphology:Paragraph 3:The potential negative
impacts on.slough areas downstream of Talkeetna due to
decreasi ng the recurrence intervals of wh.at are now mean
annual bank-full floods are not addressed.
Response
The discus~on has been expanded.
(iv)Effects on Water Quality
W-2-032 -Water Temperature:The timing and consequences of the fill-
ing regime on downstream temperatures should be better
defined.Just as model ing needs to define operational thermal
changes,the thermal processes should be modeled for the fill-
ing period.From thi s we may be abl e to consider mitigative
measures.
Response
After the initial summer of filling,the Watana reser-
voir will necessarily cool to 4°C.From this point un-
til water can be passed throug h the rel ease fac il iti es,
the Watana outlet temperature will be 4°C.This is
because the outlet w"ill be approximately 400 feet below
the water surface at the end of the first summer of the
fill ing and there is no mechanism for any significant
heat tran sfer to the water at this depth.The vol ume of
water stored in the reservoir after October of the fi rst
summer of filling will be about 2.2 million acre-feet.
From November through April,0.5 million acre-feet of
4°C water will be evacuated from the reservoir and be
replaced by O°C water which was contributed as inflow
during this time.The O°C water,because it is less
dense than 4°C water,will tend to float on top of the
4°C water,although there will be some mixing of O°C and
4°C water;however,this will be confined to the upper
1ayers.Even with cool ing before the ice cover forms,
only insignificant cooling will occur at a depth of
175 feet.It is the 0.5 million acre-feet stored below
this depth which will be discharged during winter.In
spring,the ice on the reserv oi r surface wi 11 mel t and
the reserv oi r will warm to 4°C,probably by about the
end of May.Then the surface will continue to warm
above 4°C and slowly this warmer water will penetrate
deeper.Also,warm Susitna River water will be contrib-
uted to the reservoir.Although there will be some mix-
ing,the warmer surface water,because it is less dense,
will float on the denser 4°C water.Through mid-
September,approximately 1.8 million acre-feet of 4°C
bottom water would be released from the reservoir if the
low level outlet was continuously used.This would
still leave a reserve of 4°C water.However,it is
antic i pated that sometime in 1 ate July or August the
reservoir will be sufficiently full to allow discharge
through the release facility.
-Suspended Sediments/Turbidity/Vertical Illumination
W-2-033 •Watana Reservoi r:Paragraph 3:Di scussion should be pro-
vided on the impact of water qual ity changes on the photosyn-
thetic process downstream of the reservoir.
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-
-
Response
Vertical ill uminat;on in the reservoir will be 1 imited
by absorption and scattering of 1 ight by suspended par-
ticulate matter.Data from glaciany-fed Eklutna Lake
reveal a close correlation between the rate of exponen-
tial decay of illumination with de,pth and surface tur-
biditylevels,(R&M Consultants,1983).Quiescent
settling of particulate matter in winter allows rela-
tively low turbidities inearlysurnmerand ,a correspond-
ing maximum depth -of vertical illum"ination.If the
depth of the euphotic zone is taken as the depth 0 f
penetration of 1%of illumination available at the
surface,photosyntheti c activ ity in the reserv oi r may
extend from the surface to as much as 17 meters depth.
Suspended sed iment introduced by summer streamflow will
quickly increase surface turbidity 1 evel s and reduce the
depth of the euphotic zone accordingly.Mid to late
summer euphotic zone depths may be as low as 2 meters
(fig.E.2.147).With reduced surface turbidities in the
fall,an increase in vertical illumination is expected.
However during the breakdown of density stratification-
in the fall,turbul ent mixing of turbid strata in the
water column will increase turbidities once again,
reduc ingill uminati on somewhat until inverse temperature
strati fkation and ice cover formation occur.
The nature and concentration of suspended sediment at
the powerhouse intake will control turbidity and v erti-
cal illllTlination in the river downstream between Watana
and Talkeetna.The reduction in summer turbidity levels
from pre-project conditions will cause an increase in
vertical illumination and hence photosynthesis.In fall
and winter,relative post-project increases in down-
stream turbidities will reduce illumination intensity,
although 1 percent 1 ight penetration depths are 1 ikely
to be greater than 2.4 meters in open water areas with a,
gradual.increase in 1 ight penetration throug h the
wi nter.
W-2-034 Paragraph 4:It is stated that,"...the river will be clearer
than under natural conditions."This may be true during the
summer;however,it is our understanding that this will not be
the case during the winter.
Response
The statement that the river will be cl earer than under
,natural conditions was meant to reflect sunmer condi-
tions only.Section4.1.2(e)(iii)has been amended
accord ing ly.
W-2-035 •Watana to Talkeetna:We bel ieve the increase in winter
turbidity might be more important in terms of potential
fishery impacts.Quantification of potential changes should
be provided.The methodology by which the summer turbidity
levels were established and why it is not applicable to
predicting winter conditions needs to be explained.
Response
See response to ADF&G comment G-2-042.
W-2-036 •Talkeetna to Cook Inlet:Anticipated changes during the
winter should be discussed.
Response
The anticipated changes in suspended sediment and tur-
bidity in the Talkeetna to Cook Inlet reach during the
winter have been incorporated in Section 4.1.2(e)(iii).
(v)Effects on Groundwater Conditions
W-2-037 -Impacts on Sloughs:Paragraph 1:The potenti al impacts on
slough habitats are not clearly described.The discussion
provides the impression that there is a greater understanding
of the groundwater relationship between the sloughs and main-
stem than is warranted by studies to date.Please refer to
our comments under Section 2.3(a)(i)-Sloughs.
Response
The potential impacts on slough habitats have been
revised in Section 4.1.2(f)(ii).Further information on
slough hydrogeology can be found in the Ground Water
Studies Report (Acres,1983).
W-2-038 Paragraph 4:It is indicated that reduced staging would
result from the decreased winter flows.The potential impact
should be addressed in regard to the potential to dewater
spawning and rearing habitats.
Response
As discussed in the response to comment W-2-029 above,
natural flows will be released from November through
April.Si nce ice stag ing occurs in November and
December,reduced stag ing shoul d not occur.However,a
delay in ice cover formation and,hence,staging will
occur.
W-2-039 Paragraph 5:Although the temperature relationship of the
mainstem and sloughs does not appear to be well understood,
discussion should be included on this potential impact,par-
ticularly during the second year of filling when the differ-
ences from pre-proj ect cond iti ons are greatest.
-
..-
W-2-040
Response
The temperature re1 ati onshi p of the main stem and sl oug hs
is fairly well,altho~gh not totally,understood.As
discussed in Section4.1.3(c)(i),the slough water
temperatures are related to the long-term average
mainstem temperature which is approximately 3°C.For
about eight months during filling,the low level release
will be passing water which is near 4°C.Therefore,
near the Watana reservoir outlet and for some distance
down stream,temperatures will be warmer than the natural
winter conditions,but cooler from May to August,the
time at which the re1 ease fac il iti es will be operable.
The net effect will be an increase in temperature above
natural conditions for this time period of about 1°C.
Further down stream,temperatures at Go1 d Creek from
November through April.wi 11 have cool ed to an ambient
DOC and from May to "August will average 5 to 6°C (see
Figures E.2.141 to E.2.146).Hence,at this location
there wi 11 be a net dec rease in average temperature for
this period.However,the difference is less than 1°C.
When these temperature changes are considered in con-
junction with the buffering effect of the soil skeleton,
the impact on g round water upwell ing temperatures of
this eight-month period should not be significant.
Prior to and after thi s period,temperatures wi 11 be
close to ambient except for a period in the fall when
they will be warmer and a period in spring when they
will be cooler.
Vll Effects on .Instream Flow Uses:Please refer to our
comments on Section 2.3 a i -Sloughs,and 3.2(b)(v)-
Impact on Sloughs.The statements of no temperature effects
are not supported by data or citation.The reduction of flows
through these sloughs is not quantitatively defined.The loss
of scouring flows to clean fines,remove beaver dams,and
clear ice could result in significant loss or degradation of
slough habitat for fish.·
Response
For a discussion of the temperature effects in sloughs,
refer to secti on 4.1.3 (c)(i)•Flow rates throug h
sloughs contributed by upwelling will not change signi-
ficantly.However,without mitigation,there will be a
dewatering of the upper areas in some sloughs during
summer because of a lowering the mainstem water 1eve1
and,hence,ground water table.Refer to Section
4.1.2(f)(ii)for a complete discussion.The comment on
a loss of scouring flows is discussed in the response to
comment W-2-D28.
(c)Watana Operation
W-2-041 -Minimum Downstream Target Flows:The criteria are not
provided which led to the developnent of the "target"flows.
Apparently,no consideration is provided concerning maximum
flows,which may be a more important consideration during
winter than establishing a minimum flow level.
Response
Criteria considered in the developnent of the "target"
flows are prov ided in Secti on s 3.4 to 3.6.We concur
that consideration should be given to maximum flows
during winter.At present the max imum winter powerhouse
discharge as determined by the weekly energy simulation
program is 16,000 cfs.This maximum will be examined in
future project operation simulations.
W-2-042 •Monthly Energy Simulations:Paragraph 1:The potential
impacts of the water year 1969 extreme drought should be fully
addressed.The effect of this naturally occurring event
should be described in regard to Watana operations,how down-
stream flows would be maintained,and how it would effect the
biological resources.For example,we suspect that higher
down streams flows would be necessary to allow entrance to
sl oug hs during thi s period.
Response
The potent ia 1 impact 0 fad roug ht year suc h as water
year 1969 is discussed in Section 3.2.8.Downstream
flows would be maintained during the summer of the
drought occurrence.By the end of September,the reser-
voir elevation would be well below the normal level at
approximately El 2125.The available energy would be
distributed over the October to May time period.Dis-
charge from water taken out of storage would average
4000 cfs.With the natural flow averaging 1000 cfs
during this time period,total flow from Watana would be
5000 cfs.Thus,the minimum flow of 5000 cfs would be
maintained throughout the winter.Only with a 1 ate
spring breakup would there be a problem of maintaining a
flow of 5000 cfs.If this occurred Watana would become
a run of the river power pl ant until natural flows
exceeded downstream now requirements.
W-2-043 •Daily Operation:In that the Devil Canyon developnent may
not come 00.1 ine for many years,if ever,consideration Sh-ould
be given to operations without the Dev'iT Canyon dam.A
greater 1 evel of concern and di scussi on shaul d'be'forthcoming
on avoidan'Ce of potential impacts to the sloughS abeove Gold'
Creek.
Response
The operati on of Watana before Dev il Canyon comes onl ine
is di-scussed in Section 4.1.3(a)(1).Discussion of the
avoidance of potential impacts to the sloughs above Gold
Creek can be found in the response to comment W-2 -026.
-Floods
W-2-044 •Spring Floods:Paragraph 2:In that spring floods are part
of the pre-project reglme,discussion should be provided as to
the importance of thi s phenomenon and whether or not post-
project simulated spring floods should be included in the
post-project flow regime.
Response
During spring floods,there can be a substantial supple-
ment to in Watana discharges contributed by the drainage
area betweenWatana and Gold Creek.Examples of this
for daily simulations of years 1964,1967,and 1970 are
illustrated in Figures E.2.156,E.2.157 and E.2.158.In
the 1964 simulation,the spring flood flow is 24,000 cfs
at Gold Creek.
The spring floods are of paramoun t importance to the
project.This flow provides the necessary annual
storage which is subsequently rel eased for winter power
generation.Hence,at this time,no simulated spring
floods have been included in the post-project flow
regime.Further information on the consideration of
simul ated spring floods can be found in
Section 3.6.3(d).
W-2-045 (i i)River Morphology:Paragraph 2:The di scussi on on ice
process should be expanded.
Response
The discussion on ice processes has been expanded and is
contained in Section 4.1.·3(b).
W-2-046 Paragraph.3:The discussion leads to a view that eventual
loss of the slough habitats is in-evitable.The-flow regime
proposed~does not counteract this potenti a 1 problem.Avoid-
ance of thi s impact through flow modifications is consi stent
with the APA Mitig.atton Pol icy document and'NEPA.It illus-
trates a low 1 evel of biological Consideration in the formul a-
tion of the proposed i'nstrearn flow reg ime.
Response
The Toss of slough habitats ts'not inevitable (see
Chapter 3 s Secti on 2'.2.<2(b)(i 1),Fi sher fes.
The flow reg ime proposed does not av oid hab itat impacts.
It does,however,minimize certain impacts while
improving the technical feasibility of other mitigation
options.
Av oidance of fi sheries impacts strictly through flow
modifications is not consi stent with the Power Authority
Mitigation Policy since the passage of avoidance flows
would be in severe confl ict with other project
objectives (i.e.,economics and power production),and
alternative mitigation measures are available (i.e.,
slough modification and enhancement).
(iii)Water Quality
-Water Temperature
W-2-047 •Reservoi r and Outlet Water Temperature:Paragraph 2:1982
data from Eklutna Lake,which Watana Reservoir is expected to
mimic,was presented at the Susitna Hydro Exhibit E Workshop.
During the winter,Ekl utna Lake showed temperatures ranging
from 0°to 3.6°C in the upper 2 meters,dropping to isothermal
conditions below this depth.If Watana Reservoir exhibits a
similar shallow winter stratification,it would appear that
Watana could not be operated to,"•••take advantage of the
temperature stratification within the reservoir."
Response
See response to comment W-2-049.
W-2-048 Paragraphs 5 through 7:Given that the temperature model has
only been run for five months and has only one year of data
for that period (1981),this discussion must be considered
speculative.It is our understanding that input for this
model is lacking because previous data was tailored to an
earl ier temperature model which is no longer considered appl i-
cable to this project.It would seem premature to place much
faith in the new model based on the minimal level of testing
to date.We recommend that data from two full years be
inputted to the model and the results be provided in the
Exhi bitE.
Response
Your recommendati on that data from two full years be
inputted to th~DYRESM temperature model will be con-
sidered during the pl anning of future studies.
W-2-049 Parag raph 8:Thi s sug gests that wi nter out flow temperatures
between 1°and 4°C can be selectively withdrawn through a
multi-level intake structure.This would be dependent upon
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the thermal profile of the reservoir during the winter,a
period which has so far not been modeled.The statement sug-
gesting that one degree water temperatures can be selectively
obtained is speculative.It is also in conf1 ict with the
in formation provided at the Susitna MYdro Exhibit E Workshop
where Ek1utna Lake was presented as a model for Watana Reser-
voir.Ek1utna Lake showed winter temperatures between O°C and
3.6°C within the upper two meters of the surface.If Watana
Reservoir shows a similar winter stratification,one should
not expect to be able to tap temperatures other than 4°C with
the proposed multi-level intake structure.It would have been
appropriate to reference the Ek1utna study findings here as is
done on Page E-2-61.
Response
We concur that winter outflow temperatures wou1 d be
dependent upon the thermal profile of the reservoir.
The resu1 ts of the winter temperature model ing are dis-
cussed in Section 4.1.3(c)(i).Ek1 utna Lake temperature
model ing was underaken to determine the sui tabil ity of
the temperature model DYRESM in predicting temperatures
in a glacially fed reservoir.Watana would not neces-
sarily exanp1 ify the same temperature structure.There
is good agreement with actual Ek1utna Lake measurements
and model predictions from October through December.
It is possible that a period of calm,cold weather could
have caused an ice cover to form on Ek1 utna Lake in the
fall of 1981 shortly after the 1 ake reac hed an i sother-
mal temperature of 4°C,with the result that the ice
cover cou1 d have acted as a thermal insu1 ator preventing
further heat loss.This could have caused the Ek1utna
Lake profil e measured on April 16,1982,which showed
winter temperatures between O°C and 3.6°C within the
upper two meters of the surface.However,we do have
suspicions on the val idity of the measurements.Recent
temperature measurements taken on January 10,1983,
showed the temperature varying from O°C at the surface
tol.6°C at 2 meters,to 2.6°C at 10 meters,to 3.0°C at
15 meters,to 3.2°C at 20 meters,and to 3.4°C at 25
meters.
At Williston Reservoir in British Columbia,Canada,
winter temeprature profi 1 es were measured on Apr i1 14
and 15,1982 (Figure L1.168).These profiles indicate
a gradual inc rease in temperature wi th depth.Outl et
temperatures from the G.M.Shrum powerhouse,were 1.aoe
at thi s time.
In 1977,recorded water temperatures at the G.M.Shrum
tail race indicated a gradual temperature decrease from
3°C in early January to approximately 1.3°C at the end
of Jan uary.February temperatures varied between 0.4°C
and 109°C,averaging about 102°C.In March,tailrace
temperatures warmed up to about 2°C.Therefore,based
on the temperature model ing and experience el sewhere,
temperature regulation during winter is possible.
However,to state that a temperature of 1°C can be
maintained may have been optimistic.
W-2-050 •Slough Water
our comments on
Response
Pl ease refer to
Refer to the response to comment W-2-002.
W-2-051 -Ice:Paragraph 1:It should be clarified as to what would
be the impact of the reduced contribution from the upper
Susitna River.Estimations of post-project ice staging should
be compared to pre-project conditions and the methodology by
which the predictions were made should be expl ained,and/or
referenced.
Response
comment noted.
W-2-052 Paragraph 2:How ice is lost to the system post-project,
would dramatically change from pre-project conditions.The
impact of this major change in this riverine system should be
thoroughly explored,not merely noted.
Response
The post-project changes in ice conditions have been
expanded in Section 4.1.3(c)(ii).
W-2-053 -Turbidity:Paragraph 1:Please provide an exp1anation as
to why,"Turbidity in the top 100 feet of the reservoir is of
primary interest.
Response
Turbidity in the top 100 feet of the reservoir is of
primary interest because this is the layer in which
photosynthesis would occur.
W-2-054 -Nitrogen Supersaturation:Discussion should be provided
specific to the fixed-cone valves.It is stated that the
valves would discharge spills up to a one in 50-year event,
but we have no indication of the anticipated extent of their
use.Withdrawing water from the hypolimnion;they would often
be counterproductive to what is intended to be achieved
.....
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!
through use of the multi-level intake.The potential for
thermal shock in fishes,or shock due to rapid shifts in other
water quality parameters,should be evaluated.Rapid water
level changes would also be an obvious result of their use,
particularly between the dam face and the powerhouse.
Response
The anticipated usage of the fixed-cone valves has been
incorporated in Section 4.1.3(a).The rel ease facil i-
ties at Watana will be drawing water from between El
2025 and El 2085.This corresponds to an average depth
of 130 feet when the reserv oi r water surface is at El
2185.Si ncefl ow releases occur only after the reser-
voir is full and since this occurs in August or Septem-
ber,then if it is assumed that the temperature profil es
are appropriate and water is drawn uniformly over the
intake,the water temperature through the release facil-
iti es will be about 8°C.Hence,thermal shock will not
occur and most water wi 11 be wi thdrawn from the epi 1 im-
nion where no adverse water qual ity conditions are
expected to exist.
3.3 -Devil Canyon Development
W-2-055 (a)Watana Operation/Devil Canyon Construction:Paragraph 1:
The referenced Exhibit A has not been provided,although we
requested it.
r'"Response
See the response to comment W-2-015.
(ii)Water Quality
W-2-056 -Concrete Contaminati on:Pl ease refer to our comments on
section 3.2(a}(ii}-Contrete Contamination.
Response
r
I
l
Refer to Section 4.1.1(c)(vi)for a di scussion of the
potential impacts associated with concrete construction
activities.A detailed pollution control contingency
plan will be developed in compliance with appropriate
regulations.Refer to Section 6.2 for proposed mitiga-
tion measures.
W-2-057 (vi)Facilities:Decisions regarding the Devil Canyon support
facilities were made without input from resource agencies.
Response
Resource agencies will have an additional opportunity to
provide input on decisions regarding the Devil Canyon
support facilities during the detail design.
W-2-058 -Construction,Operation and Maintenance:The,II •••appropri-
ate preventative techniques ..."should be described and incor-
porated into the mitigation plan.
Response
Mitigative techniques are described in Chapter 3,
Section 2.4.3.and Chapter 2,Section 6.2.
(b)Watana Operation/Devil Canyon Impoundment
(iii)Effects on Water Quality
W-2-059 -Water Temperature:The abil ity to continue to selectively
remove very n arrow temperature bands woul d depend upon nlll1er-
ous unknowns,assuming the abil ity exists with operation of
Watana alone.Removal of such a sizable quantity of water in
so short a period of time certainly would have impl ications
for one1s ability to select temperature bands during certain
times of the year.It should be stated that the temperature
model upon which this all rests only has input from five
months of one year.
Response
Devil Canyon Reservoir will be filled either during the
fall or winter.The outl et temperature from Watana will
be close to 4°C.Hence,it will not be necessary to,
nor will it be possible to,select temperature bands
during filling.
The statement that the summer temperature model ing is
based upon five months of input from one year is cor-
rect.The val ue of the five months of summer reservoir
model ing is that it demonstrates that down stream temper-
ature control is possibl e with the proposed design of
the intake structures.
W-2-060 -Support Facilities:Please refer to our comments on Section
3.3 (a)(v8)-Construction,Operation,and Maintenance.
Response
See the response to comment W-2-058.
W-2-061 (vi)Instream Flow Uses:It is our understanding that
significant losses to the existing fisheries would result.
The basi s for the statement that,II •••additi onal fi shery
habitat will become available •••11 with Devil Canyon Reservoir
should be explained in detail.
Response
Refer to Chapter 3,Section 2.3.2(c)(i).
(c)Watana/Devil Canyon Operation
(i)Flows
W-2-062 -Project Operation:It is indicated in the Feasibility
Report Vol.1,page 13-32,that compensation flow pumps would
be installed.M explanation as to the function of these
dev ices,thei r purpose,the flows which they woul d prov ide,
whether or not they are to be in stall ed in one dam or both,
how water from this source woul daffect the water qual ity
parameters of the water rel eased from the powerhouse,and the
basi s fo r the flows whi ch wo ul d be prov i ded from thi s so urce
should be provided.We would also like to see an explanation
of the fixed-cone valves regarding their expected periodicity
of use (at least by month)and impacts on water qual ity para-
meters and flow levels.
Response
....
The compensation flow pumps have been eliminated.It is
our opinion that the cost of the compensation flow pumps
does not warrant prov id ing a fi shery flow in the 3300
feet that would be dewatered downstream from Devil
Canyon.The operation of the fixed-cone valves is dis-
cussed in Section 4.2.3(a).
r (ii)Effects on Water Quality
W-2-063 -Water Temperatures:Si nce Dev il Canyon Reserv oir has not
yet been modeled,the rationale for this discussion should be
presented.The thermal model s for Watana and Dev il Canyon
should provide information on the following:
(1)The temperature profile,depth to isothermal conditions,
and timing of mix ing :
(2)The timing of winter stratification;
(3)The extent of turbulence that would be generated at the
reservoir intake;and
(4)The capability of the intake structure to select from one
temperature layer in a stratified reservoir.
This should be included in the Exhibit E.
Response
Results of Devil Canyon Reservoir modeling have been
incorporated into Chapter 2,Section 4.2.3(c)(i).'
W-2-064 -Ice:Please refer to our comments on Section 3.2(c)(iii)
-Ice.Information should be provided on the extent of scour
in the sloughs under winter and spring breakup conditions.
Discussion should address where the ice front would develop
under ll wors t case ll conditions for post-project Watana and
Watana/Devil Canyon operations.Fl uctuating high power demand
in a record cold year and a record warm year should be dis-
cussed.Scenarios which would produce over-topping of river
ice and multiple breakups which may scour the river channel
shau1d bed e sc rib ed •
Response
In formati on on the extent of scour in the sl oug hs under
winter and spring breakup conditions is discussed in
Section 4.2.3(c)(ii).Worse case conditions are al so
described.
W-2-065 -Nitrogen Supersaturation:Pl ease refer to our comments
under Section 3.3(c)(i)-Project Operation.
Response
The operation of the fixed-cone valves is expl ained in
Section 4.2.3(a).The expected frequency of use for
v ari ous energy demands is ill ustrated.Except for
temperature,water quality is not expected to be signi-
ficantly different than powerhouse outflow water quality
conditions.
W-2-066 -Facilities:Erosion control measures should be described
and incorporated into the mitigation plan.
Response
Erosion control measures have been described and incor-
porated into the mitigation pl an in Chapter 3,Section
2.4.3(c).A detailed erosion control plan will be pre-
pared subsequen to FERC licensing.
W-2-067 3.4 -Access Plan Impacts:Paragraph 2:Reference is made to
Exhibit A.By letter dated November 19,1982,.we requested a
compl ete copy of the 1 icense appl ication.We have not yet
received this Exhibit.
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Response
See the response to comment W-2-015.
W-2-068 (a)Flows:Accurate discharge infonnation on the creeks is
needed to insure proper culvert sizing for fish passage.
Utilization of culverts rather than bridges could result in
more blockages to grayling migration due to beaver activity.
Response
We concur that accurate discharge information on the
creeks is needed to insure proper culvert sizing for
fish passage.During final design of the access route,
appropriate information will be collected to insure
proper culvert sizing •
W-2-069 3.5 -Transmission Corridor Impacts:Pl ease refer to our
letter dated January 5,1982,regarding the Transmission
Corridor Report.
Response
Our response to this letter is contained in Chapter 11.
5 -MITIGATION,ENHANCEMENT,AND PROTECTIVE MEASURES
W-2-070 5.1 -Introduction:Paragraph 2:It is stated that,II •••
miti gativ e measures,Ii were incorporated,II •••in the precon-
struction pl anning,design,and schedul ing,1I yet we see con-
struction camps/villages which were pl anned with no outside
coordinati on with resource agenc i es,or even consi derati on of
alternatives.The transmission corridor from the Watana dam
was also planned with essentially no resource agencies input.
We see scheduling (based on an out-of-date economic analysis),
determining access routing,timing of construction activities,
and reservoir filling with no input from resource agencies.
This has precluded an objective examination of alternative
mitigation measures.
Response
As detailed ;n Chapters 10 and 11,considerable effort
has been directed toward coordination with resource
ag enc ies and examinati on of alternatives.
W-2-071 Minimum flows are proposed with the impression that they were
arrived at through an as yet undisclosed fisheries vs.eco-
nomic tradeoff.In the draft Exhibit E,we have an eval uation
of economically determined flow releases,the basis for which
are not longer accepted by the economists that developed them
(Battelle Newsletter #4 (Final),Railbelt Electric Power
Alternatives Study,December 1982),competing against flow
releases.The 12,000 cfs flow release is apparently the
maximum discharge for August without signi ficant economic
effects.
Response
Refer to Sections 3.2 to 3.7 for the discussion on the
selection of minimum flows.
W-2-072 We suspect that the flexibility for providing instream flows,
once this issue has been resolved,is highly dependent upon
the hydraulic turbines which are selected for the project.We
recommend that a tradeoff analysis be presented to display the
relationship of different hydraulic turbine configurations
with both a one dam and two dam configuration related to maxi-
mizing flow release options vs.more flexible turbine system
alternatives.If the proposed turbines,in either dam,would
adversely effect future instream flow options than the deci-
si on as to the preferred turbine configuration should be
deferred until a specific,detailed flow release schedule,
developed through a quantified instream flow analysis,is
agreed upon which would mitigate impacts or enhance conditions
for spawning,feeding,passage,out-migration,and overwinter-
ing in ths Susitna River.
Response
Premature turbine Sl zlng is recogni zed as a generic F&W
concern since it can result in reduced discharge
flexibil ity.
As designed,however,the Susitna project is capable of
efficiently operating at any flow above 1500 cfs up to
the maximum of the powerhouse.
W-2-073 The proposed multi-level intake structure would provide the
flexibility to select a desirable temperature regime only if
the temperature bands exists in the reservoir of sufficient
size and of sufficient depth.It has not been established
that the multi-level intake would provide sufficient tempera-
ture control.At present,Watana Reservoir has been thermally
modeled for five months of one year.It is our understanding
that this is insufficient to even test the model for the five
months for which it was run.Devil Canyon Reservoir has not
been modeled,yet the recent incorporation of a multi-level
intake here 1eads one to bel ieve the appl icant expects thi s
reservoir might stratify.We recommend that modeling be
carried out for both reservoirs,throughout the year,and the
resultant data be incorporated into a river temperature model.
This should be based upon two years of data (e.g.,1981 and
1982)and presented in the license application.
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Response
We agree that the proposed multi-level intake structure
would provide the flexibility to select a desirable
temperature regime only if a temperqture band of suffi-
cient size and of sufficient depth exists in the reser-
voir.Based on the model ing effort to date,in our
judgment,temperature control is provided through the
mul ti-level intake.As with any model ing effort,addi-
ti onal model ing woul d prov ide added confi dence in the
ability of the multi-level intake to control outlet
temperatures.The Dev il Canyon reserv oi r model ing is
contained in Secti on 4.2.3(c)i).
W-2-074 Reference is made to the incorporation of fixed-cone valves to
prevent nitrogen supersaturation.The frequency,periodicity,
and anticipated volume of use is not addressed.Since they
woul d be drawing upon water very low in the dam and then
dumping an unknown vol ume of thi s water into an essentially
dry riverbed,we would expect potential adverse impacts to the
mitigation flow and temperature regimes.The potential
effects upon icing conditions and,depending upon the time of
year,salmon movements needs to be assessed.We recommend
that these potential impacts be discussed in the Exhibit E.
W-2-075
Response
see the response to comments in FWS covering letter.
W-2-076 5.2 -Construction:Please refer to our comments above,Sec-
tion 5.1:Paragraphs 2 and 3.
Response
See the response to comments W-2-070 and W-2-075.
W-2-0n Paragraph 2:Please refer to our discussion of instream flows
under Sections 5.1:Paragraph 2,3.2(b)(i)-Minimum Down-
stream Target Flows,and 3.2(c)Minimum Downstream Target
Flows.Additi onal pertinent comments can be found throug hout.
The statements contained in Section 5.3 can only be considered
specul ativ e;to date,t here are no stud ies to support them.
()lly one slough,identified as #9,has received detailed
study.In the November 1982 draft report provided at the
Susitna Hydro Exhibit E Workshop,Preliminary Assessment of
Access by Spawning Salmon to Side Slough Habitat above
Talkeetna,the author noted that until the 1982 field data are
analyzed,any statements regarding streamflows necessary for
chun salmon access to the side sloughs are provisional.It
should also be recognized that the examination of slough
access flows is not only without support,but one dimensional.
No analysis is put forth to examine other life phases of fish,
or project related changes in water quality parameters.
Response
As discussed in Chapter 3,Sections 2.3.1(a)(ii),
2.3.1(a)(iii),and 2.4.4(a)(i),the analysis did con-
si der other 1 ife phases.As has been disc ussed in other
comments and in Chapter 3,Section 2.4.2,mitigations
focused on chun salmon as the evaluation species.
Al tho ug h prov is i ona 1,statements reg ard ing sl oug h access
flows are not without support.
W-2-078 Paragraph 5:Changes in downstream river morphology have not
been fully assessed.It is premature to conclude that no mit-
igation would be necessary.The 1 ack of ice scour and flood
flows may cause sloughs to silt in and may reduce natural
cl eaning processes necessary to maintain productive spawning
substrate and rearing areas.
Response
The discussions on changes in downstream river morpholo-
gy have been expanded in Section 4.1.2(d).As discussed
in the fishery mitigation section in Chapter 3,sloughs
that will be adjacent to ice covered sections of the
mainstem and have berms constructed at their upstream
ends will be maintained on a five-year rotating basis.
At sloughs located upstream from the ice front,during
wet years,excess flow wi 11 be rel eased from the dam-
sites,providing flushing flows.
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W-2-079 Paragraph 6:It would seem appropriate to examine,in the
Exhibit E,methods of mitigating the potential thermal effects
anticipated during the filling period,to include extending
the filling period.
Response
Methods of miti g ati ng the potenti al thermal effects
anticipated during the second year of filling will
continue to be investigated during the detailed design
process.(}je potential mitigation is a shorter filling
regime.This would enable a flow release through the
outl et fac il ities early in the second sllllmer of
filling.
5.4 -Mitigation of Watana Operation Impacts
W-2-080 (a)Flows:Paragraph 2:Pl ease refer to our comments under
Section 5.1:Paragraph 2 and Section 5.3:Paragraph 2.
Response
Re fer to responses above.
W-2-.Q81 Paragraph 3:It is stated that,"Watana,when it is operating
alone,will be operated primarily as a base load plant."
Please discuss the extent to which it is intended to be
operated as a peaking faciT ity.Of particul ar concern woul d
be how it might operate under worst case conditions,such as
fluctuating high power demand during a record cold year.The
implications of scenarios like this should be explored in the
Exhibit E if Watana is being proposed for periodic peaking
use.
Response
It is intended that from October through April,there
will not be more than a 2000 cfs spread between maximum
and minimum powerhouse discharges within a 24-hour
period during Watana operation.
W-2-082 (b)Temperature and D.O.:Please refer to our ccmments
addressing the multi-level intake structure and reservoir
temperature model ing in sections 5.1:Paragraph 2,and
3.3(b)(iii)-Water Temperature.We have provided additional
comments on these subjects throughout.
Response
Refer to previous comments.
W-2-083 (c)Nitrogen Supersaturation:Please refer to our discussion
of the fixed-cone valves under Sections 3.2(c)(iii)-Nitrogen
Supersaturation and 5.1:Paragraph 2.
Response
Refer to previous comments.
5.6 -Mitigation of Devil CanyonjWatana Operation
W-2-084 (b f Temperature:Discussion should be provided as to why
mu ti-level intake ports are proposed at Devil Canyon.It
would appear that it has been concluded,without benefit of a
thermal reservoir model,that Devil Canyon would stratify.
Response
Refer to Section 4.2.3(c)(i)wherein a discussion on the
results of the Dev i1 Canyon thermal reserv oi r model ing
has been presented.
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COMMENTS CONTAINED IN THE U.S.FISH AND WILDLIFE SERVICE (FWS)
LETTER OF JANUARY 14,1983
CHAPTER 3 -FISH,WILDLIFE,AND BOTANICAL RESOURCES
GENERAL COMMENTS -FISHERIES
Comment 1
Periodically in the Fishery Section are disclaimers such as,"Much of
the discussion is based on professional judgment,"(Section 1.2,
Page E-3-3),or "Many of the statements are speculative ...and ...
unsupported,II (Secti on 2.3,Page E-3-56).at her st atementsl et us know
that ongoing,or planned studies,will fill these numerous data gaps to
allow a quantification of the resources and impacts (Sections
2.2(b)(ii),2.4(b)(ii),2.5,2.5(c)(ii),etc.)and let us go beyond,
liThe conceptual mitigation plan,"(Section 2.5,Page E-3-116)which is
provi ded in thi s chapter.Recogni zi ng a prob 1em does not,in and of
itself,correct it.We are concerned that the Fishery Section
generally fails to quantify the existing resources,fails to quantify
the potential impacts,and fails to provide specific mitigation mea-
sures to deal with identified,quantified,adverse impacts.Once we
have potential mitigation measures,these proposals would need to be
evaluated,for example,in regard to potenti al impacts on:project
costs,design,and feasibility;socioeconomic considerations;and fish
and wi ldli fe resources other than those for whi ch the miti gati on is
targeted.Thi s type of evaluati on would form the basi s of an accept-
able environmental impact statement and should be provided as part of
the license application.
Response
At the request of resource agencies,efforts were made to
di sti ngui sh between hi ghly specul ati ve comments and those of a
more quanti fi able nature.The i nclusi on of thi s i nformati on was
meant to assist the reader,not to discl~m the logic or validity
of the assessments presented .
Comment 2
The ongoing and planned studies which are frequently cited (Sections
2.2(b){i i),2.4,2.4(b)(i i),2.5,2.5(c)(i i),etc.)should be fully
identified so we can examine them in regard to their scope.We cannot,
otherwi se,determine what needs to be done and what is being done (with
assurances that it wi 11 be done).
Response
Agencies'determination of what they consider needs to be done
should be based upon their review of the information contained in
the FERC 1 icense application.The supply of this review to FERC
and the Power Authority will have a major influence upon what will
be done.
Comment 3
Potential impacts are frequently identified in the Fishery Section~
such as loss of the apparently important high spring flows for out-
migrations (Section 2.3[a][ii]).Potential mitigation to contend with
these anticipated adverse impacts are suggested~such as spiking spring
flows (Section 2.4[b][ii][SIC,iii]).If these mitigation proposals
have validity~then they should be incorporated into the design and
operations proposal.
Response
The mitigation proposals identified have merit.However,they
will not be incorporated until their environmental benefit vs.
cost is more fully evaluated.
Comment 4
Mitigation measures which are proposed should have proven success in
Alaska,or in a similar environment.If the proposals are not proven,
then they would need to be demonstrated effective in the proj€ct area.
For example,hatchery propagati on of grayl i ng may need to be demon-
strated as an effective alternative since grayling hatcheries have not
been particularly successful in Alaska.Likewise,the proposed slough
modifications are unproven and,thus~should also be demonstrated in
the Susitna system before project operation.
Response
This suggestion is compatible with our -approach as indicated by
our proposed evaluation of slough habitat enhancement.
Comment 5
We support the establ ishment of a monitoring program funded by the
p roj ect ~contai ni ng a board of representati ves from appropri ate state,
federal,and local agencies.The board should have the authority to
recommend project modification measures to assure that mitigation is
effective.The procedure by which this would occur should be incor-
porated into the 1 icense as an article.This type of monitoring
program should be discussed in the mitigation plan.
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Response
The Power Authority mitigation policy contains a provls10n for
program monitoring.If a board of representatives from
appropriate state,federal,and local agendes is established,it
wi 11 be necessary to determi ne the authori ty,fundi ng,and
composi ti on of such a board.
COMMENTS CONTAINED IN THE U.S.FISH AND WILDLIFE SERVICE
LETTER OF JANUARY 14,1983
GENERAL COMMENTS -BOTANICAL RESOURCES
Comment 1
At the recent Susitna Hydro Exhibit E Workshop,November 29 to
December 2,we were pleased to learn of the recent efforts to coordi-
nate botanical and wildlife data needs.Vegetation types within the
project area are apparently now being subcategorized and remapped on
the basis of more recent,larger scale photography and additional field
work.Analyzing the value of vegetation as part of wildlife habitat,
an information need we have consistently cited (e.g.,FWS letter to
Eric Yould,APA,October 5,1982),will better allow quantification of
project impacts and the development of mitigative measures.However,
these efforts render the current Botanical Resources Section at 1 east
partially obsolete.
Response
Paragraph 1:We concur that as the mitigation planning process
proceeds,the impact assessments and planning documented in
Exhibit E will become "at least partially obsolete."This is as it
should be.The Susitna project approach to mitigation is one of
iterative refinement based on continuing data analysis and close
coo pe rat i on bet ween p roj ec t eng inee rs,en vi ronment a 1 speci ali sts ,
and agency representatives.Exhibit E is based only on prelimi-
nary design commensurate with completed feasibil ity studies.As
the project enters the detail ed design stage,impact assessment
and mitigation planning will not only influence ongoing design,
but change with it as well.
Comment 2
Because there is no explanation of ongoing studies,the reader is left
with the perception that vegetation studies have been completed.We
recommend that descriptions of the following be provided in the Exhibit
E:(1)current remapping efforts for both overall vegetation and wet-
lands;(2)plans for summer 1983 ground truthing of this data;(3)1984
field work which may be necessary for verifying wetlands;(4)proposed
productivity studies relative to project moose studies (see Section
4.2[a][i],Page E-3-204,Paragraph 2 and Section 4.3[a][i],Page
E-3-281,Paragraph 3);and (5)schedules for completing these investi-
gations and analyses in conjunction with overall mitigation and project
planning.Such information is provided,to some extent,relative to
the Aquatic Studies Program,Section 2.5.
Response
Paragraph 2:All of the requested information has been incorpora-
ted into the mitigation plan for botanical resources (Section
3.4).F"'I
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Comment 3
In general,the description of vegetation types and potential project
impacts is thorough.Still,a major problem with this section involves
incomplete coverage of wetlands.Minor problems involve the need for
some additi onal maps and tables,confli cti ng citations of fi gures and
tables (e.g.,referring to Figure WI and Table W3 as Figure E.3.Wl and
Table E.3.W3 in the text).
Response
Paragraph 3:We appreci ate your statement that II In general,the
descri pti on of vegetati on types and potenti al project impacts is
thorough.1I We have recognized the need for greater documentation
of wetland areas,potenti al impacts to wetlands,and how these
impacts will be mitigated.All previous wetland mapping is incor-
porated in the revi sed Exhi bit E,and quantifi cati on of wet 1and
impact areas is provi ded to the extent justi fi ed by the mappi ng
detail.Our technical meeting of December 2,1982,on wetlands
was held to find ways to improve the project analysis of wetlands,
and a new mappi ng program descri bed in the text (Secti ons 3.2.3
and 3.4.2)is in its early stages as a result of that meeti ng.
GENERAL COMMENTS -WILDLIFE
Comment 1
We found the Wi ldli fe Secti on both too general and incomplete.Judg-
mental statements are rarely referenced (e.g.page E-3-376,last para-
graph)qualitative terms are seldom defined (e.g.·page E-3-315,last
paragraph;page E-3-310).Perhaps most critical is the minimal detail
and coverage of the mitigation plan.
Response
The comment concerni ng judgmental statements apparent 1y refers to
the prioritization of species.The utilization of a prioritiza-
tion scheme is inescapable.A discussion of its advantages and
drawbacks can be found in Secti on 4.1 Introducti on.The actual
priorities assigned are justified in Sections 4.1.2 and 4.1.3 and
speci fi c values of each speci es are referenced throughout the
text.The assessment of the importance of a species is obviously
dependent on the opinion and background of the assessor.Whi le an
ecologist might not agree with an assessment based on socio-
economic considerations,these priorities are legislatively man-
dated.Even from a soci opo 1i tic a1 vi ewpoi nt,di fferences in
pri ori ti es are arguable.In actual fact,the method is far from
bi03:ogically meaningful and the exact order in which species are
treated matters very litt le from that standpoi nt.See speci fi-
cally Section 4.1 paragraph 2,sentence 4.
Most of your comments relative to definitions of qualitative
evaluation lacking a succinct definition are premature.Where
quantification is available data are provided.Where we have
relied on relative,but unquantifiable analysis,the qualitative
terms used are justified as thoroughly as possible in the ensuing
text.The mitigation plan has been largely rewritten.
Comment 2
Lack of quantification is a serious problem throughout this section.
While baseline populations are occasionally estimated,impacts are
typically qualified only as major or minor,and no values are provided
for those mitigation measures which are recommended.
Response
Where data are available quantification is provided.Estimation
of popul ati ons is rarely possi b1e in wi ldli fe i nvesti gati ons.
Where a defensible estimate can be made it is provided.Obviously
if no popul ati on estimate can be made,other dat a may be used to
predict the proportions of the population affected by various
impacts.Your remarks regardi ng our consi stent use of current
populations rather than potential populations seem somewhat incon-
si stent with this comment.
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Comment 3
We are highly concerned with the lack of attention to habitat values,
although we have repeatedly cited the need for project evaluations to
consider habitat values as well as populations (please refer to FWS
letters to Eric You1d,5 October 1982,5 January 1982,23 June 1980,
and 15 November 1979;and testimony of LeRoy Sow1,FWS,before the APA
Board,16 Apri 1 1982).We appreci ate the i niti a1 efforts to evaluate
habitats for furbearers and birds,and the reported plans to model
carrying capacity for moose.Yet we see no evidence of how such evalu-
ati ons wi 11 be conti nued,expanded to other spec;es,and most i mpor-
tantly,used in developing timely,comprehensive mitigation measures,
which are an integral part of project plans.
Response
Where habitats can be evaluated and it is deemed appropriate,we
have attempted to do so.In general,habitat is a poorly defined
concept which attempts to define where animals are found.
The reasons for not utilizing the USFWS Habitat Evaluation Pro-
cedure (HEP)are both uti 1i tari an and phi losophi cal.Measures
simi lar in concept to HEP may be the appropriate tool for assessing
impacts for some species.Species which utilize their habitats in
a simple,easily defined and measured way lend themselves well to
such evaluati on.Other,more opportuni sti c,complex or poorly
understood species do not (see Mule 1982).Some species wi 11 never
1end t hemse 1ves tot hi s approach and other t echni ques are more
likely to prove efficient and effective.In its particulars,HEP
is neither effective nor objective for most Alaskan species.There
is no reason to assume that measures of vegetati on characteri sti cs
alone wi 11 accurately predict the value of a particular area to
every species,or that the biologist armed with such knowledge wi 11
be able to accurately predi ct the number of i ndivi dua 1s of each
speci es the area supports now or potenti ally under further i dea1-
ized (but for whatever reason not presently attained)conditions.
The development of a techni que for eva1 uati ng impacts to vari ous
speci es is necessary and HEP is an admi rab 1e fi rst attempt.How-
ever,the enforced use of this technique can only lead to poor
management deci si ons and a confused,inaccurate assessment of
impacts.
We would rei terate here that habi tat value must fi rst be based on
an understanding on the nuances and intricacies of habitat use and
wi 11 be useful only as a hypotheti cal construct for compari ng
general patterns of habitat use among speci es.Other methods of
evaluating impacts are equally useful and often may be more
effi ci ent.
Comment 4
Where population information is provided,it is,for the current situa-
tion.No accounting is given for long-term habitat potentials,for
example,(1)habitats may be able to support greater popu1at.ions
over the long-term (e.g.pi ne marten near Watana Creek):(2)habitat
values may decli ne as,through successi on,vegatati on proceeds to more
mature stages whi ch are less producti ve for moose;or (3)harvest
management goals may be modified and caribou populations allowed to
increase to where avai lable habitats are more completely stocked.
Response
Many sections have been rewri tten to address the li ke li hood of
alteration of management goals and the carrying capacity of habi-
tats.The range of possi ble changes in habi tat values for moose
is i nfi ni teo Where the project itself wi 11 affect such changes
they h ave been we 11 addressed.Moose in any area are dependent
upon the periodic occurrence of vegetative recession and we con-
sider the natural occurrence of thi s phenomenon before and after
project construction to be treated as thoroughly as is presently
possi ble.
Comment 5
We recommend provi di ng i nformat i on on conti nui ng st udi es (i nc 1udi ng
habitat modeling)and how data gaps identified here,in previous agency
comments,and the August 1982 Adapti ve Envi ronmental Assessment (AEA)
Workshop wi 11 be answered.Our Specific Comments below,further
address thi s need.Another major problem is that the Wi ldli fe Secti on
is not integrated,nor is it consistent relative to impact potentials
and mitigation options with other sections in Chapter 3 or with other
chapters in the Exhibit E.For example,in Chapter 3 the impacts dis-
cussions are based on no access along the transmission corridor;in
Chapter 5,such access is assumed (Section 3.7[c][i],page E-5-84).
Not only do we recommend that this problem be corrected,but that evi-
dence be pro vi ded as to thi s section has been integrated into project
designs and scheduling.That integration is most critical with regard
to the mitigation plan.Information should be provided on the mechan-
ism for notifying project engineers of key wildlife areas and at the
same time for the engineers to notify the environmental consultants and
resource agencies of design changes or mitigation measures they believe
are unfeasi b 1e.Ad di t i on ali nformat i on shou 1d be provi ded on t he pro-
cess to be followed for finalizing and then implementing mitigation
requi rements.
Integrati on of the vari ous report secti ons would be ai ded through an
overview discus~on of overall project objectives for wi ldlife,fish-
eries,vegetation,recreation,land use,and socioeconomics.
Response
Projects for which the APA has guaranteed support are described in
as much detai 1 as possible.No expansion of the studies mentioned
..-
-
to include other speci es is i ndi cated.For several hypothesi zed
impacts for which no production of occurrence or relative serious-
ness can be provi ded,moni tori ng programs are proposed.Appro-
priate levels and forms of mitigation must,in those instances,be
re legated to future assessment.The miti gati on secti on has been
rewri tten.
Comment 6
Present ly we fi nd apparent objecti ves of the Wi ldli fe Secti on often
contrary to recreation or socioeconomics;within the Wildlife Section,
objectives for one species may conflict with those for another species.
Because of the voluminous nature and complexity of material involved,
it is difficult to assess population status,habitat values,impacts,
and mitigation for each species relative to all other species.This is
particularly important where mitigation for one species may be at the
expense of another,as above.Thus we suggest some type of summary
chart which would show,by species:(1)populations;(2)habitat types
and values;(3)status (i .e.i ncreasi ng/decreasi ng,upper/lower basi n,
etc.);(4)values (commercial,recreational"and or subsistence with
monet ary fi gures where possi b le);(5)past and present harvest effort,
success,and management restrictions;(6)impacts;and (7)mitigation
alternatives.Please refer to our suggestions under Section 3.4 for
evaluating mitigation alternatives as prioritized under NEPA guide-
lines.The schedule for filling resultant data gaps could then be
outlined;additional mitigation needs or tradeoffs in benefits/impacts
would also be obvious.
Response
Objectives of proponents of recreation,wi ldli fe and soci 0-
economics are different by definition.Conflicts in mitigation
plans for project features proposed by recreation,soci oconomi c
and fisheries consultants have been identified and altered to
avoid such inconsistencies.We are aware of no internal inconsis-
tenci es in the wi ldli fe secti ons.
Comment 7
We recommend quanti fyi ng the 1eve 1 of mi ti gati on to be achi eved by
di fferent measures.Thi sis parti cul arly important where management
policies are unclear (e.g.housing and transportation of workers,har-
vest regulations,and prohibitions on use of the access road pre-and
post-construction wi 11 determine the magnitude of project impacts.)
Response
The mitigation section has been rewritten.
Comment 8
Fi nally,we are concerned that although the fragmentati on of project
impacts by project feature allows for a more comprehensi ble analysi s,
the report lacks a broad overview.Cumulative impacts are generally
ignored.We recommend that such impacts be compiled in conjunction
with a li st of unavoidable adverse impacts.
Response
Cumulative impacts are treated in Section 4.3.6.
Comment 9
Lack of key data has made it essenti ally i mpossi b le to more than out-
line the types of measures which should be included in the mitigation
plan.In many cases,no evidence is provided for the proven success of
recommended measures -in Alaska or similar environments.For such
unproven measure,demonstrati on projects should now be establi shed or
backup mitigation measures outlined for implementation if unproven
measures fail (e.g.blasting to enlarge the Jay Creek mineral lick,
provi~on of artifici al raptor nests).
The monitoring program we recommended under the Fishery Section should
also be extended to wi ldlife resources in the project area.
Response
Unproven measures:Any hope of mi ti gati on wi thi n the actual pro-
ject area wi 11 depend on the wi 111 ngness to allow an adapti ve,
experi ment a1 approach.However,all the measures proposed here
are based on an underst andi ng of known processes and bi 01 ogy and
all are deemed entirely feasible with a high probability of suc-
cess.The Susitna Hydroelectric Project Fish and Wildlife Policy
includes provi si on for monitori ng of wi ldli fe populati ons.
....
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SPECIFIC COMMENTS
1 -INTRODUCTION
1.2-Impact Assessments
W-3-001 Paragraph 1:Please refer to our Fi shery Section -General
Comments regarding quantification and the status of the
project studi es.
Response
Refer to general responses.
W-3-002 Para~raph 4:Several of these references do not appear in the
bi tih ography.
Response
This has been corrected.
1.3 -Mitigation Plans
W-3-003 Paragraph 8:Avoi dance of adverse impacts rarely appears to
occur,particularly in regard to project features.For
example,missed opportunities to avoid adverse fish and wild-
li fe resources impacts exi st in:project scheduli ng;mode and
routi ng of constructi on access;recreati on pl anni ng;siti ng,
admi ni strati on,and type of constructi on camp/vi 11 age;and
i nstream flow regime.
Response
Avoi di ng impacts through desi gn features or scheduli ng
activities to avoid loss of resources has received
highest priority,and this approach has been applied
whenever possible.Environmental values have been
given,and wi 11 ~ontinue to be given,equivalent consid-
erati on wi th other project parameters such as cost,
schedule,etc.However,plannning based solely on envi-
ronmental consi derati ons would be contrary to NEPA and
the Power Authority mitigation policy.
As identified in Chapter 10 and in our Development
Selecti on Report,si gni fi cant envi ronmental impacts were
avoided by selecting the middle Susitna basin.Impacts
were further avoi ded by rejecti ng damsi tes downstream
from Devi 1 Canyon or upstream from Vee Canyon.As a
consequence,ina number of subsequent p1anni ng deci-
sions'the magni tude of the impacts bei ng mi tigated di d
not justify the cost,schedule,or energy differential
between avoi dance and other accept ab le forms of miti ga-
t ion.
W-3-004 The monitori ng program,whi ch has been supported in several
chapters,should be fleshed out.The program should provide
for participation by appropriate representatives of state,
federal,and local agencies,be supported by the project,and
be able to recommend changes in the mitigation program to be
adopted through a mechanism established in the license,
mutually acceptable to all concerned bodies.
Response
See response to General Fisheries Comment No.5.
2 -FISHERY RESOURCES OF THE SUSITNA RIVER DRAINAGE
2.1 Overview of the Resources
W-3-005 (d)Selection of Project Evaluation Species:Paragraph 4:
Improving habitat conditions for an evaluation species would
be hel pful to other species with simil ar habitat requisites.
However,we would expect other species,with habitat require-
ments that conflict with evaluation species,to be adversely
affected.In addition,we recommend Dolly Varden and burbot
be included as evaluation species for the Susitna River
downstream of Devil Canyon.
Response
It is true that some species with a lower evaluation
priority may be more sensitive to change.In the
Susitna River,however,the four Pacific salmon selected
as eval uation species (chum,chinook,coho,and pink)
utilize almost all available habitats at some point in
their life cycle and are considered to be highly sensi-
tive to change.Mitigations that prove effective at
reducing impacts to the various salmon life stages
should mitigate most impacts to the other species.
These four species of salmon were selected as the evalu-
ation species downstream from Devil Canyon.Dolly
Varden and burbot are not considered to be more sensi-
tive to the identified habitat changes than the various
salmon life stages,thus mitigation of impacts to all
salmon life stages should mitigate impacts to Dolly
Varden and burbot.For example,Dolly Varden primarily
spawn,incubate and rear in tributaries during the
summer and overwinter in the mainstem or lower portions
of tributaries.A similar pattern is followed by
chinook,coho,and salmon.
W-3-006 Paragraph 6:It is stated that,II Improved conditions in the
mainstem are expected to provide replacement habitat •••
Juvenile overwintering habitats are not expected to be
adversely affected.II We a re unaware of specific data to
support these statements.
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Response
The discussion has been expanded to clarify and support
t he statement.
W-3-007 Paragraph 8:Eva1 uation species and 1 ife stages should be
listed for the Cook Inlet to Talkeetna reach.
Respon se
The fish evaluation species that were selected for the
Devil Canyon to Talkeetna reach also apply downstream
from Talkeetna.The text has been revised to indicate
this.
W-3-008 (i)Commercial:Species specific comparisons are made of com-
mercial harvest to escapement.Perhaps a better gauge would
be to provide estimated contribution to the commercial har-
vest,as is assessed in Chapter 5 (page E-5-70),or estimated
contribution to the run.This,however,also would simplify
the systems contribution,but would at least provide reviewers
with a better understanding of production •.
Response
These estimates have been made for the 1981 and 1982
estimated escapement past Talkeetna.
W-3-009 (ii)Sport Fishing:Paragraph 2:If more recent surveys are
available,this section should incorporate them.
Response
W-3-010
Surveys from 1978 through 1981 have been incorporated.
(iii~Subsistence Harvest:The following three ADF&G reports
woul allow for a more expansive discussion of this important
topi c:
1.Forster,Dan.November 1982.The Utilization of King
Salmon and the Annual Round of Resource Uses in Tyonek,
Alaska.ADF&G.55 pp.+appendices.
2.Stanek,Ronald,James Fall and Dan Foster.March 1982.
Subsistence Shellfish Use in Three Cook Inlet Villages,
1981:A Preliminary Report.ADF&G.17 pp.+appen-
dices.
3.Webster,Keith.April 1982.A Summary Report on the
Tyonek Subsistence Salmon Fishery,1981.Upper Cool<Inlet
Data Report Number 81-3.ADF&G.16 pp.+appendices.
Response
The expanded di scussi on of subsi stence harvest is in
Chapter 5.
2.2 -Species Biology and Habitat Utilization in the Susitna River
Drai nage
(a)Species Biology
(iii)Resident Species
W-3-011 -Arctic Grayling:Paragraph 8:The statement that,
IIAssumlng other conditions for spawning are favorable,..."
should be expanded to allow an understandi ng of what these
other condi ti ons are and why we should assume they would be
favorable.
Response
The text has been appropri ate1y revi sed.
W-3-012 (b)Habitat Uti 1i zati on
(ii)Talkeetna to Devi 1 Canyon
-Mainstem and Side Channels:References are made to low flow
and maximum flow.The flows should be quantified so that an
understanding of potential impacts and mitigative flows can be
related to how it would influence habitat.
Response
The text has been revised to include specific flow
values where avai 1ab1e.See Chapter 2,Section 2.2 for
a more detailed discussion of the river morphology and
sediment transport characteristics.
W-3-013 .Species Occurrence and Relative Abundance:The baseline
information and analysis should incorporate the 1982 field
season data.
Response
Substantial 1982 field season data have been incor-
porated into the baseli ne and ana1ysi s secti ons.
W-3-014 -Slough Habitat:Paragraphs 2 and 3:The effects of various
flow levels should be referenced by the number of sloughs
which would be impacted by the particular problem and the rel-
ative importance of the effected sloughs in terms of salmon
habitat.
Response
Information indicating the importance of the various
sloughs to spawning adult salmon has been added.The
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impact on each slough from operati ona1 flows is bei ng
addressed in the referenced AEIDC study.
W-3-015 Paragraph 4:The basi s for the i ntragrave1 temperature
statements should be provi ded,whether conjecture or based
upon a study of x number of sloughs.
Response
The referenced report (Atki nson 1982)is the basi s for
the statements;the study covered sloughs 8A,9,11,19,
20,and 21.
W-3-016 .Significance of Habitat
.Salmon:Paragraph 2:The relative value of tributary sites
(mouths?)vs sloughs may be a reflection of ease of study,or
effort.
Response
The text has been appropri ate1y revi sed to focus the
discussion on slough habitats.
2.3 -Anti ci pated Impacts to Aquati c Habi tats
W-3-017 Para~raph 3:Please refer to our di scussi on under Fi shery
Sectlon -General Comments.
Response
P1 ease refer to our response under Fi shery Secti on -
General Comments.
(a)Anti ci pated Impacts to Aquatic
Habitat Associ ated with Watana Dam
(i)Constructi on of Watana Dam and
Re 1ated Faci li ti es -Wat ana Darn
W-3-0l8 .Changes in Water Quality:Although turbidity levels may be
decreased,on the average,throughout the year,a more appro-
priate impact evaluation would be to examine turbidity levels
by season or month ~aquati c 1i fe stage.
Response
As stated in the text,turbi dity would vary with the
type and durati on of constructi on acti vi ty and may be
significantly influenced by rainfall events.The pro-
bable temporary nature of turbi d conditi ons would make
predi cti on of turbi dity levels on a season or monthly
basis not feasible.In any event,increases in turbid-
i ty as a result of constructi on acti vi ti es wi 11 not
exceed the DEC standards in 18 AAC 70.020.
W-3-019 Paragraph 11:Examples of "•••good engineering practices~and
a thorough SPCC plan~"should be provided in the mitigation
plan.The abbreviation of the plan should be spelled out.
Response
The appropriate discussion is included in the mitigation
plan (Section 2.4.3).
W-3-020 .Direct Construction Activities:Paragraph 1:Material
sources should generally be confined~unless unavoidable~to
that area which would be inundated by the impoundment~or up-
land sites.In that the Devil Canyon dam is not a certainty~
rehabilitation of Cheechako Creek should be planned.
Joyce~Rundquist~and Moulton (1980)is referenced several
times.We request that this reference be provided~and the
pertinent discussions from this paper be incorporated into
this section.
Response
The concerns are addressed in the mitigation section
(2.4.3(d)(ii)of Chapter 3).
Copi es of the Joyce~Rundqui st~and Moulton (l980a and
b)references which are USFWS/OBS publications are
available through John Stout of the U.S.Fish and
Wildlife Services~1011 E.Tudor Road~Anchorage~
Alaska.Pertinent discussion occurs in Section 2.4.3
(Mitigation)•
W-3-021 -Watana Camps~Village and Airstrips
.Construction and Operation of Camps~Village and Airstrips:
Paragraph 1:Reference is made to Exhibit A which has not
been provided~although we have requested it.
Response
Comment noted.
W-3-022 ••Indirect Constructiorl Activities:We expect secondary im-
pacts~avoidable and unavoidable~to be much greater than that
indicated by this discussion.We provided comments on this
topi c in response to appropri ate Chapter 5 secti ons ~where
this topic is also inadequately discussed.
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Response
Additional discussion of this topic has been included.
Secondary impacts are consi dered to be the most si g-
nificant construction-related impacts and this point is
more clearly stated.
W-3-023 (i i)Fi 11 i ng Wat ana Reservoi r
-Watana Reservoir Inundation
.Mai nstem Habi tats:Paragraph 4:Although overwi nteri ng hab-
itat would be increased,the overall impact would probably be
a net loss of habitat value.The discussion does not identify
what speci es mi ght benefi t from thi s increase in overwi nteri ng
habit at.
Response
Agreed -thi s poi nt has been reemphasi zed.The fact
that grayling,whitefish,burbet,lake trout,Dolly
Varden and scuplin are expected to uti lize the impound-
zone has been added.
W-3-024 Paragraph 5:The basi s for ~he statement,"Reservoi r tempera-
tures in the top 100 ft are expected to be in the range of 1°
to 2°C,1I should be provi ded.Fi rst,the reservoi r temperature
model has not been run for the period November through May.
Second,the statement is in apparent conflict with the infor-
mati on provi ded at the Susi tna Hydro Exhi bi t E Workshop in
which Eklutna Lake was presented as a model for Watana Reser-
voi r.Ek 1utna Lake shows wi nter temperatures between 0°and
3.6°C within the upper two meters.
Response
The basi s for the st atement regardi ng reservoi r temper-
atures is now provi ded inCh apter 2 on the basi s of
temperature model runs for the wi nter peri ode Data from
Eklutna Lake were considered in the modeling of Watana
Reservoir.
W-3-025 -Talkeetna to Watana Dam
.Mai nstem Habi tats:Paragraph 1:In that the ri ver would no
longer be clear,the effect of this change in turbidity upon
movement of juveni le salmon and resident fish should be
addressed.
Response
It is not known why it is expected that increased
winter tur~dity levels would affect movement of
juvenline and adult salmonids.If more study is needed
your recommendations win be considered when develop-
ing future study plans.
W-3-026 Paragraph 4:The apparent importance of the receding 1 imb of
high spring flows to stimulate outmigration is noted yet we
see no effort to simulate this in the recommended instream
flow regime.
Response
Other factors besides declining flows may influence
salmon fry out-migration,including photoperiod and
water temperature.Salmon fry out-migration will be
exasmined during Spring 1983.If more study is needed,
your recommendat ions wi 11 be considered in devel opi ng
the future study program.When the significance of
flow-related stimuli to smolt out-migration is defined,
the flow regime can be adjusted.
W-3-027 Paragraph 9:It is recogni zed that the outfl ow temperatures
du ri ng the second open-water season coul d have s ubstant ial
adverse impacts.This problem in relationship to how it was
handled at other hydropower projects should be discussed.
Response
No data from equivalent hydroelectric projects has been
found regarding i nfl uence of low water temperatures on
upstream migration of adult salmon.The discussion has
been expanded,but we are continuing to investigate the
problem.
W-3-028 .Side-Channel Habitats:Paragraph 3:Until an adequate
instream flow study is conducted,these statements will remain
speculative.
Response
Comment noted -this is being addressed by the refer-
enced AEIDC studies.
W-3-029 Paragraph 4:It should be stated whether or not rearing habi-
tat is considered limited.
Response
Any statements at this time on rearing habitat would be
speculative;this topic is being addressed by ongoing
studies.In many systems,rearing habitat does 1 imit
Chinook and coho populations.
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W-3-030 Paragraph 5:The decreased temperatures expected would
probably counteract any benefits deri ved through decreased
suspenderl sediments.
Response
The decrease in water temperature is li mited to the
second year of fi 1 n ng.Decreased suspended sed;ment s
duri ng the summer wi 11 conti nue for the li fe of the
project.
W-3-031 .Slough Habitats:The potenti al impacts during fi 11ing should
be di scussed.Fl ows and temperatures would be changed from
ambient.Until the ground water relationship,in regard to
flows and temperatures,is adequately establi shed the poten-
Hal for impacts should not be di smi ssed.Whether or not the
colder second year releases would have a delayed temperature
effect upon the sloughs should be examined.
Response
Potenti al impacts to sloughs are di scussed;the poten-
tial for impacts is not dismissed.The text has been
expanded to c 1ari fy these imp act s.
W-3-032 Paragraph 3:It should be explai ned that the basi s for these
statements is preliminary results from an examination of one
s 10 ug h (No.9).
Response
We have revised the text to incorporate your comment.
W-3-033 Paragraphs 4 and 5:The slough whi ch had a backwater form
above 14,000 cfs should be identified.It is not explained
whether this is typical of all sloughs,some sloughs,or even
just that one unidentified slough.It is apparent from this
secti on that 12,000 cfs would hamper or restri ct passage of
adults into an undisclosed proportions of the sloughs and
would not create a backwater effect for an unknown proporti on
of the sloughs.The biological basis by which 12,000 cfs was
chosen as the preferred flow for August should be explained in
light of the discussion of this section.
,...,
Response
Wie have revised;the text to reflect the
analy,si s of the potenti al problem of fish
sloughs.The basi s'for the proposed flow
presented in Ch'apter 2,Section 3.2.3(a)
natives are (H,sclJssed'in Chapter 10.
most recent
access into
rel eases is
and alter-
W-3-034 •Tri butary Habitats:Paragraph 4:It is noted that some
creeks may become perched under the proposed filling schedule.
The desirability and feasibility of altering the filling
schedule to avoid this impact should be discussed.
Response
The Chapter 2 and Chapter 3 texts have been revised to
discuss potential mitigative measures for perched
t ri butari es.
W-3-035 -Cook Inlet to Talkeetna Reach:It has not been clearly
established that the project would not adversely impact
fisheries below Talkeetna during reservoir filling and project
operation.
Response
It is recognized that small changes in flow can have
dramatic impats on habitat in some situations;however,
based on avai 1abl e data it is expected that impacts on
fishery resources resulting from the proposed flow
alterations will not be significant below Talkeetna.
If more study is needed regarding project impacts
in aquatic habitat/fisheries resources in the Susitna
Ri ver downstream from Talkeetna,your recommendati ons
will be considered for FY 1984 program.
W-3-036 .Mainstem Habitats:It is our understanding that millions of
eulachon spawn in the lower river.If this spawning run is
stimulated by certain temperatures or peaking spring flows the
project could significantly impact this species.secondary
impacts would occur to those species,such as bald eagle and
belukha whale,which feed on them.This potential problem
should be discussed.
Response
As indicated in the text,little change is expected in
water temperature in this reach,and reductions in long
term average monthly streamflows of 12 percent are
predicted at Susitna Station during May.These changes
are not expected to affect the spawning run of eulachon.
W-3-037 .Slough Habitats:Paragraph 1:This discussion is in appar-
ent conflict with Section 2.2(b)(iii)Slough Habitat -
Significance of Habitat..Salmon (page E-3-51)where it is
stated that these habitats may be used for spawning.
Response
The text has been appropri ately revi sed to refl ect the
current level of knowledge.
W-3-038 ••Tributary Habitats:Paragraphs 2 and 3:A 10 percent reduc-
tion in flows could mean a zero reduction in habitats of con-
cern or 100 percent reduction or·something in between.We
recommend that these flow reduction percentages be related to
their effect on habitats of importance to life stages of those
species of concern.
Response
We have identified the percentage reductions in flow.
These reductions will lead to some reduction in habitat,
primarily in side channel s and sloughs.The percentage
of habitat loss in these areas will depend on the
channel geometry;these relationships are being addres-
~ed by the AEIDC study.The tributarymouth habitats
discussed in the section bei ng referenced are expected
to be relatively insensitive to flow changes of this
magnitude.
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W-3-039 (iii)Operation of Watana Dam -Talkeetna to Watana Dam
-Talkeetna to Watana Dam
.Mainstem Habitats:Discussion should be provided specific
to the fixed-cone valves.There is no indication of the
anticipated extent of their use.In that they would be
withdrawing water from the hypol imnion they woul d often be
counterproductive to what is intended to be achieved through
use of the multilevel intake.The potential for thermal
shock,or shock due to rapid changes in other water quality
parameters,shoul d be eval uated.Rapid water 1evel changes
would also be a potential problem that should be explained.
Response
An expanded discussion of the fixed-cone valves occurs
in Chapter 2•
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W-3-040 Paragraph 8:Discussion appears to be in conflict with Para-
graph 16 of this section concerning suspended sediment trans-
port.
The text has been clarified to remove this conflict.
W-3-041 Paragraph 9:Sediment load and turbidity are not synonomous.
Turbidity should increase substantially over ambi'€nt winter
level s.
Response
The text has been clarified to remove the confusion
between sediment load and turbidity.
W-3-042 Paragraph 16:The observation that fish apparently overwinter
in the turbid Kenai River allows one to conclude that,over a
long period of time,these (unidentified)species can adapt to
turbid conditions.The concl usion that the Susitna stocks
can,in one year,adapt to Kenai River like conditions is a
big step.Please more fully discuss this potential problem.
Response
There is no evidence to suggest that a long period of
time is required for the species discussed to adapt to
turbid conditions.All species discussed are frequently
exposed to high turbidity 1 evels and ADF&G indicates
that substantial number of juvenile salmon may be
present in the mai nstem throughout the summer (ADF&G
comment E-3-71/3).Resident species were al so captured
in the mainstem throughout the summer.If these
juvenile anadromous and resident species can success-
fully rear in the open-water rna i nstem condit ions it
seems reasonable to expect that the moderate increases
in winter turbidity will have minimal effects.
W-3-043 -Cook Inlet to Talkeetna Reach:Please refer to our comments
under Section 2.3(a}(ii)-Cook Inlet to Talkeetna Reach.
Response
Comment Noted.
W-3-044 (b)Anticipated Impacts to Aquatic
Habitat Associated with Devil Canyon
i Construction of DeVl Canyon Dam and Related Facilities
-Devi Canyon Dam
-Alteration of Waterbodies:Paragra h 3:Please refer to
our comments on Section 2.3 a -Watana Dam -Direct
Construction Activities.
Response
Please refer to our response on Section 2.3(a)(i)
Watana Dam Direct Construction Activities.
W-3-045 Disturbance of Fish Populations:Please refer to our comments
on Section 2.3(a)(i)-Watana Dam -Direct Construction
Act ivai es.
Response
Please refer to our response on Section 2.3(a)(i)
-Watana Dam Di rect Constructi on Act iviti es.
~,
Response
Please refer to our response on Section 2.3(a)(i)
-Watana Dam Direct Construction Activities.
W-3-046 -Devil Canyon Camp and Village
•Construction and Operation of Camp and Village:Paragraph
1:Reference is made to Exhi bit A,whi ch we requested.It
I'"'"has not been provided.We have not had input into the deci s-
'ions regarding the type,administration,or siting of the
construction camp/village.Avoidance of impacts to fish and
,....wildlife resources should have been a major consideration in
these decisions.In that we did not participate in these
decisions and no alternatives to those which are considered
II pre ferred ll are examined in Chapter 10,we can only conclude
that little,or no,consideration was given to this mitigation
procedu reo
Response
The discussion of alternatives has been expanded in
Chapter 10.Al so,see our response to comment
W-10-010.
W-3-047 .Direct Construction Activity:Please refer to our comments
under Section 2.3(a)(i)-Watana Camps,Village and Aicrstrip.
Construction and Operation of Camps,Village and A"jrstrips.
Indirect Construction Activities.
Response
See responses under Section 2.3(a)(i).
W-3-048 (iii)Operation of Devil Canyon Dam
-Talkeetna to Devil Canyon Dam
.Ma i nstem Habitats:Parag raph 1:We as sume that the 500 cfs
flows in this reach would be provided by compensation flow
pumps,discussion of which does not appear to be provided in
thi s Exhi bit.An expl anat ion s houl d be provi ded as to the
function of these devices,thei r purpose,and how water from
this source would effect water quality parameters of the water
released from the powerhouse and the fixed-cone valves,and
the basi s for the fl ows whi ch woul d be provided from thi s
source.Please proviae the rationale for the statement that a
reduction in flows of the magnitude which would occur would
not be expected to·adversely affect fi sh popul ati<m s in thi s
portion of the river.
Response
Surface water i nfl ow wi 11 be the only fl ow in approx-
imately 1.3 miles of river between the dam and the
powerhouse outlet;this is a change in the project
operation since the draft Exhibit E was submitted for
review.Since this reach of Devil Canyon has not been
sampled because of safety considerations for the study
crew and the i nabil ity to maintai n gear set in high
velocities (9-16 ft/s),the loss to resident species
is unquanitified,but is not expected to be great.The
area used used by salmon for mill ing activity will be
displaced to the powerhouse outlet facilities.
W-3-049 .Slough Habitats:M explanation should be provided for the
statement that changes in streamflow during the open-water
season are not expected to affect slough habitats.We consi-
der the potent i al for si gnifi cant adverse effects to thi s
habitat type to be high.
Response
The additional alterations in streamflow,(i.e.,beyond
that incurred during the operation of Watana and filling
of Dev"il Canyon)are not expected to affect slough
habitats during the open-water season.
W-3-050 -Cook Inl et to Tal keetna:Small changes in flow,s can have
dramatic impacts on habitat.The relationship between flows
and impacts on habitat must be established before one can dis-
mi ss small changes in fl ows.We expect the AE IDC i nsteam
flow study will sufficiently define this relationship.
Response
It is recognized the small changes in flow can have
dramatic impacts on habitat in some situations;however,
based on the available data,it is expected that impacts
alterations will not be significant below Talkeetna.
W-3-051 with Access Roads and Auxiliary Roads
-Construction of Watana Access Road and Auxiliary Roads:
Once an acceptable access routing is agreed upon,studies
woul d need to eval uate the exi st i ng resou rces.On ly at that
point can specific mitigative measures be satisfactorily ad-
dressed based upon quatified impacts.We recommend that you
proceed in this matter.
....
Response
The recommendation for studies to evaluate existing
resources impacted by access routing is acknowledged and
will be considered,in devel dpment of future·study pro-
grams •
W-3-052 •Alteration of Water Bodies:The potential problem of
beavers damming culverts and thus interfering with fish pas-
sage needs to be addressed.
Response
Appropriate control measures as a part of routine main-
tenance will be undertaken to insure that beaver dams do
not interfere with fish passage needs.
.....
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W-3-053
W-3-054
-Construct ion of Devi 1 Canyon Access Road and Auxi 1i ary
Roads:Paragraph 1:We assume thatAPA has decided on a pre-
ferred access plan to Devil Canyon consisting of road or rail
access,or both.Whatever it is should be stated.
Response
The preferred access pl an to Devil Ca nyon cons i sts of
both road and rail access •
Paragraph 3:Although we have previously expressed our pref-
erence for rail access in lieu of road access,proper siting
of ra il is hi ghly important to mi nimi zi ng impacts,primarily
through avoidance.Coordination specific to this issue should
occur when siting decisions are being made.
Response
Coordination for proper siting of rail access has
occurred and is continuing to occur •
W-3-055 (ii)Operation and Maintenance of Roads
-Operation of Watana Access Road and Auxiliary Roads
•Disturbance to Fish po~ulations:Paragraph 3:In that "...
the increased accessibi ity of fish streams and lakes to
fishermen •••"would possibly be "•••the greatest source of
adversei mpacts •••II tt woul d appear to be consi stent with the
APA Mttigation Policy document and NEPA to give emphasis to
mitigation through avoidance of these impacts.
Response
Emphasis has been placed on avoidance of potential
impacts,whenever possible,to streams and lakes
resulting from increased accessibility.
W-3-056 d)Transmission Line 1m acts
i Construction 0 Transmlssion Line
-Watana Dam:Paragraph 1:Baseline information on the trans-
mission corridor from the damsites to the Intertie has been
acknowledged as lacking within the Exhibit.As with other
project features,Exhibit E should provide baseline data,im-
pact assessment,and mitigation pl anning.Avoidance of ad-
verse impacts would occur by a combined construction access/
transmission 1 ine access corridor north of the Susitna River
between the two dams ites.Thi sis our preference.For
fu rther comments plea se refer to ou r 1ette r dated J anua ry 5,
1982 on the Transmission Corridor Report.This letter was
provided as formal pre-license consultation and we continue to
view it as such.
Response
The transmission line has been realigned to follow the
Devil Canyon access road.
W-3-057 (ii)Operation of the Transmission Line
-Watana Dam
•Alteration of Water Bodies:Please refer to our comments
under Section 2.3(d)(i)-Watana Dam.
Response
Please refer to our response under Section 2.3(d)(i)
Watana Dam.
W-3-058 •Disturbance to Fish Populations:Please refer to our com-
ments under Chapter 5,Section 3.7(c)(i)-Aquatic Species.
Impacts of the Proj ect.
Response
This subject is addressed in the revised Chapter 5.
W-3-059 2.4 -Mitigation Issued and Proposed Mitigating Measures
(a)Mitigation of Construction Impacts Upon Fish and Aquatic
Habitats:Please refer to our comments under Fishery Section
-General Comments.
Response
r-Please refer to ou'r responses under Fish~ry Section -
General Comments~
W-3-060 i Stream Crossi ngs and Encroachments
-Mltlgatl0n:Pease re er to our cOO1ments under Section
2.3(c)1i)-Construction of Watana Access Road and Auxiliary
Roads.Alteration of Water Bodies.
Response
~The text has been appropriately revised.
W-3-061 •Methods of Install at i on:Paragraph 3:Certai n construct ion
practices should be scheduled to occur during the winter to
minimize and/or avoid adverse impacts.
Response
Construction practices will be scheduled whenever feas-
ible to minimize and/or avoid adverse impacts,as indi-
cated in the text.
:"..,
r
I
W-3-062
\\1-3-063
(ii)Increased Fishing Pressure
-Impact Issue:If the construction access and transmission
1 ine between the two damsites were in the same corridor the
impact coul d be partially reduced or avoi ded.Please refer to
our letter dated January 5,1982 on the Transmission Corridor
Report for additional comments.
Response
The construction access and transmission line have been
moved to the same corridor to minimize impacts.
(iv)Material Removal
-Mitigation:Please refer to our comments under Section
2.3(a)(i).Direct Construction Activities:Paragraph 1.
Response
The text has been appropriately revised.
W-3-064 Paragraph 3:Mining s,hould be scheduled to avoid confl tcts
with fish migrations,spawning,or other important occur-
rences.
Response
Efforts wi 11 be made to schedule ml m ng acti viti es to
avoid conflicts with fish migrations,spawning,or other
import ant concurrences.
W-3-065 Par agr aph 6:Please refer to our comment sunder Fi sher y
Section ~General Comments regarding monitoring.
Response
Pl ease refer to our responses under Fi shery Secti on -
General Comments regarding monitoring.
W-3-066 (vi i i l Susitna Ri ver Oi versi ons
-Mitigation:Grating of the diversion tunnel would prevent
losses to fish and should be considered as a mitigative
measure.
Response
Provi di ng fl sh screens or a bypass f aci li ty at the
di versi on tunnel is a miti gati ve measure of temporary
va 1ue si nce the habi tat of the fi sh that may pass
through the tunnel would be elimi nated with reservoi r
fi lling,and successful reproduction would no longer be
possible.The mitigation efforts would be more appro-
priately allocated to measures with long-term benefits.
W-3-067 (xl Clearing the Impoundment Area
-Mitigation:If it would minimize these impacts,then clear-
i ng should occur duri ng the wi nter.
Response
Clearing wi 11 be undertaken at a time of year that would
minimize impacts whenever fea~ble.
W-3-068 (b)Miti gati on of Fi lli ng and Operati on Impacts
(i)Approach to Mltigation:Although,"Avoiding impacts
through design features or scheduling activities to avoid loss
of resources,"i sli sted as top priority,in reality It has
not received this type of emphasis.
Response
Avoi di ng impact s through desi gn features or scheduli ng
activities to avoid loss of resources has received
-
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,.....
,
highest mitigation priority and this approach has been
appli ed whenever possible.Envi ronmental values have
been gi ven,and wi 11 continue to be gi ven,equi val ent
consi derati on wi th other project parameters,such as
cost,schedule etc.However,planning based solely
on envir.onmental considerations would,be.contrary to
NBPA and the Power Authority mitigation policy.
W-3-069 (ii)Miti gati on of Downstream Impacts Associ ated wi th Flow
Regime:Under General Comments for Chapter 2 we have provided
a synopsis of the AEIDC instream flow proposal which has been
contracted by APA.We bell eve that thi s proposal would pro-
vide the basis for a reasonable,quantified instream flow
impacts analysis which would allow an assessment of mitigative
alternatives.Si nee APA has contracted thi s study,we assume
that APA agrees with our view.The AEIDC proposal should be
fully descri bed in ei ther Chapter 2 or 3.It seems premature
to discuss mitigative flows prior to quantification of poten-
t i ali mp act s.
Response
The i nstream flow modeli ng present ly bei ng conducted
for the Power Authority by the AEIDC will,in con-
j uncti on wi th the input from ongoi ng fi sheri es and hy-
drauli c studi es,provi de a si gni fi cant input into the
assessment of flow alterati ons.Thi s assessment wi 11
assist in refining the proposed mitigation alternatives.
W-3-070 -Impact Issue:Paragraph 1:Reference is made to Exhi bit A.
Although we have requested this,as well as Qther Exhibits,it
has not been forthconring.
Response
See response to comment W-2-015.
W-3-071 -Measures to Minimize Impacts:Please refer to our comments
under Sections 2.3(s)(1i)-Talkeetnato Watana Dam.Slough
Habitats:Para~raphs 4 and 5 and 2.3(a)(ii)-Talkeetna to
Watana Dam .Mal nstem Habitat:.Paragraph 4:It is apparent
that the flow release schedule neither mlnimizes loss of down-
stream habitat nor maintains normal timing of flow-related
biological stimuli.
Response
Pl ease refer to our response under Secti ons 2.3(a)(i i)
Talkeetna to Watana Dam Slough Habi tats:Paragraph 4
and 5 and Mainstem Habitat:Paragraph 4.The text has
been modified to include alternative flow regimes to
habitat and provi de flow-
The optimal flow regimes
analys is of the ongoi ng
minimize loss of downstream
related biological stimul i 0,
will be determined for an
Aquatic Studies Program.
W-3-072 •Winter Flow Regime (November - A ril :Paragraph 1:Please
refer to our comments under Sections 2.3 a 11 -Cook Inlet
to Talkeetna Reach.Tributary Habitats:Paragraphs 2 and 3.
Response
Please refer to our response under Section 2.3(a)(i i)
Cook Inlet to Talkeetna Reach,Tributary Habitats:Par-
agraphs 2 and 3.
W-3-073 Paragraph 2:Weal so feel strongly both ways.
Response
Comment noted.
W-3-074 •Sununer Flow Regime July -October:Paragraph 3:Oi scus-
s 1 on shoul d e provi ded regar i ng the 1 nstream f ow studi es
which lead to the conclusion that 12,000 cfs is of sufficient
magnitude to allow rectification of project impacts.
Response
The proposed flow releases of 12,000 cfs for a portion
of the summer flow regime is equivalent to a volume of
water that has been allocated for mitigation of down-
stream impacts to fishery resources.This volume of
water was derived from a cost-analysis of lost power
production vs flow augmentation for fisheries.Chapter
2 contains an expand,ed discussion of the flow selection
methodology.
W-3-075 -Rectification of Impact
•Winter Flows:We strongly disagree with the conclusion
reached in this section.How this conclusion can be derived
from the i nformat ion provi ded in thi s chapter and Chapter 2
needs to be fully explained.
Response
The statement has been clarified.
W-3-076 •Summer Flows:We fully agree that the proposal must be
demonstrated effecti ve before it can be incorporated into a
mitigation plan.
Response
Comment noted.
W-3-07T -Reduction of Impacts Over Time:Please refer to our comment
under Section 2.4(a)(iv)-Mitigation,Paragraph 6.
Response
Please refer to our response under the same section.
W-3~078 -Compensation for Impacts:Paragraph 2:Please provide doc-
umentation on the s.uccess of this alternative in Alaska,or
similar environs.Several ideas are di,s,cussed in this sectioA
which should be considered for demonstrative projects during
the 1983 field season.
-
Response
The text has been modified to include documentation.
W..3-079 Paragraph 9:Oi scuss i on of the development of a hatchery
should be e*panded.If other mitigation alternatives prove
not to be feasible then we will need to fully understand what
could be achieved through hatcheries.
Response
-Measu res to~Min fmi ze Impact s
Additional discussion of hatchery development has,been
provi ded in the text.
W-3-080 (ii)Mitigation of Downstream Impacts Associated
with Altered Water Temperature Regime
~,
•Water Temperatures Duri ng Fi 11 1'ng Watana Re'servoi r:If the
addition of a fifth portal would,based upon thermal modeling
of the reservoir,provide additional temperature control dur-
ing filling,then we recommend that this be added.
Response
Comment noted.
W-3-0'81 .•Water Temperatu,res During Open'diti,(j)n of Watana Reservoli/r:
Paragraph 3:Please refer to!our comments under Section
2.3(a)(ii)-Watana Reservoir Inundation.Mainstem Habitats:
Paragraph 5.
Response
Please refer ,to our responses under Sect'i on2,•.ala'HiT).
r-
I
!
W-3-082 -Measures to Rectify Impacts:Documentation shaul d be pro-
vided on the succ:€:ss on this type of proposal 'im Alaska,or
other subarcuic systems.:.Demonstrat'iron afthe techniques
would need to occur prior to incorporation lnto the mitigation
plan.In that the sloughs are also uti'lized for rearing by
chi nook and coho ,JuvenUes,di scuss ion "shoul d be provided on
how chum salmon (we havl!(etsaumed -:-that chum is the species
whfch i's befng ma'na:geGf;ur :ail'tlh:ou!lh,it is not stated)would
interact with the other species.Al so,the mechani sms which
might allow entrance to chinook and coho salmon into the
sloughs while holding the chums from egressing needs to be
explained.
Response
The text has been revised.
W-3-083 -Compensation for Impacts:Documentation shoul d be provided
on the success of hatchery propagation of grayling.
Response
The text has been revised to include a discussion of the
steps requi red for successful hatchery production of
grayling.
W-3-084 (ii)Operation Mitigation
-Mitigation of Access and 1m oundment Impacts:Paragraph 1:
In that other study components e.g.wild ife,and recreation)
are also considering uses for the borrow areas,coordination
should be directed toward resolving potential problems.Maps
depicting the borrow pits and the agreed upon,"best"uses for
the individual sites should be provided.
Response
Maps appear in Chapter 2;Mitigation Measures appear in
Chapter 3.
W-3-085 -Mitigation for Downstream Impacts:Paragraph 2:We fully
support the statement that,"Conti nui ng reservoi r thermal
modeling will allow an evaluation of available water tempera-
tures throughout the year so that a detailed release plan can
be developed.The release plan will need to consider both
water temperature and volume in order to minimize impacts."
We recommend that this be carried out and the proposed release
plan be included in the license application.
Response
The proposed release plan is included in the license
application.Modifications to this plan may occur as
results of the design studies and aquatic studies are
acquired.
W-3-086 2.5 -Aquatic Studies Program:Please refer to our comments
under Fi sherySection -General Comments.
Response
Please refer to our response under Fi shery Sectlon -
General Comments.
W-3-087 2.6 -Monitoring Studies:Please refer to our comments under
Section 1.3:Paragraph 8.
Response
Please refer to our response under Section 1.3.
SPECIFIC COMMENTS
3 -BOTANICAL RESOURCES
3.1 -Introduction
W-3-088 (a)Regional Botanical Setting:A more complete description
should be provided for vegetation north of the Susitna ~ver
to the Dena li Hi ghway,through whi ch the proposed.access road
is to pass.The primary importance of botanical resources as
a key component of wi ldli fe habi tat should be restated here as
the object of t'hi s report (see Secti on 1.2,Page E-3-3,Para-
graph 1).
Response
Additions made;see Sections 3.1 and 3.1.1.
W-3-089 (b1 Floristics
(i)General:Paragraph 1:We suggest that the di fference in
numbers of plant species between the upper and lower basins
are a result of the followi ng:Larger study area;greater
time spent in sampling the upper basi n,and the numerous vege-
tation communities associ ated with elevati on changes and topo-
graphical diversity.
Response
We agree~A,statement to thi s effect has been added to
Section 3.1.2(a)~
W-3-090 Paragraph 3:Pl ease exp Tai n the quanti fi cati on of pTant spe-
c;es for the Wi How-to-Cook Inlet and Healy-to-Fai rbanks
transmi ssioncorridors,when no floristics work was done in
that area.(Section 3.2[e][i]and [ii]and Tables W24 and
W25.)
Response
Plant species of the Wi llow-to-Healy intertie corridor
were identified by Commonwealth Assoc.(1982)and are
listed in Appendix 3.0.Hectares,acres,and percent
total area of vegetation types within the Healy-to-
Fairbanks,Wi llow-to-Cook Inlet,and Wi llow-to-Healy
study corridors are presented in Tables E.3.??,E.3.78,
and E.3.79,respectively.
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W-3-091 (c)Threatened or Endangered Sped es:5i nee no pl ant speci es
are off;dally li sted,we suggest addi ti on of the word li C andi -
date ll pri or to any di scussi on of "threatened or endangered ll
plant species.In many places,the discussion would be more
accurate by referri ng to lip 1ant taxa"rather than spec;es
s'ince these plants are generally varieties or subspecies
rather than distinct species.Please clarify that the ca1ci-
phi li c pl ants referred to in Paragraph 4 of subsecti on (i)
refer to Murrayl s,not FWS,categor;es for threatened or en-
dangered.
Response
All of the above recommendations have been incorporated
in Section 3.2.1.
W-3-092 (rl)Contribution to Wildlife,Recreation,Subsistence and
Commerce:Because of thei r key functi on both as habi tat for
fish and wildlife resources and in maintaining water quality
relative to drainage,high water energy dissipation,flood
storage,ground water recharge,fi lteri ng surface runoff,
etc,wetlands and floodplains have been protected by Execu-'
tive Orders (11990,11998)and national leq;fs.illat.ion (e.g.'
C1 ean Water Act as amended in 1977).Sinl!e.vreg;e.1tati on is a
characteristic component of any wetlandl$",W~SU[gEst addition
of a general secti on here on the prevalence'o:ff w.~tj;Tands in the
project area and their widely recognized biol'ogi'cal and water
quality values (please also see our following comments on Sec-
tion 3.2[a][vi],Wetlands.)
Response
A separate and expanded discussion of wetlands and their
si gni fi cance has been added (Secti on 3.2.3).
W-3-093 {iii}Subsi stence:Use of area timber resources for bui lding
or heating homes is an additionalsubsi stence use whi ch should
be menU oned.
Response
Noted in Section 3.2.2.
W-3-094 3.2 -Baseline Description:Paragraph 1:A brief description
is needed here of the vi ereck and Dyrness hi erarchi cal veget a-
tian ·classification system for Alaska,levels used for this
study,and number of categori es mapped (note,thi s descri pt;on
should cover the vegetation type maps now under preparation).
An explanation for the mapping of up to 16 kilometers (km)
from the Susitna River and 0.8 km from the impoundments should
be pravl ded.
Response
All of the above recommendations have been incorporated
in Section 3.2.2(a).
W-3-095 Paragraph 2:A bri ef descri pti on should be gi ven as to samp-
ling intensity.Whether vegetation dominance within the pro-
ject area and/or susceptibi lity to project impacts were con-
sidered in study design should be explained.General informa-
tion on elevation,slope,aspect,and land form should be
briefly related here and in subsequent sections of the report
to better define areas and their vegetation cover.The preva-
lence of permafrost,a determining factor in some project im-
pacts (e.g.pages E-3-166,paragraph 2 and E-3-170,paragraph
3)should also be considered.
Response
Di scussions of sampling intensity and factors governing
study desi gn have been incorporated ina new and
expanded discussion of methods (Section 3.2.2[a]).Ter-
rai n features and permafrost occurrence are treated in
relation to vegetation patterns and project impacts in
the revi sed and expanded di scussi ons of plant communi-
ties (Sections 3.2.2[b-f]),wetlands (Section 3.2.3),
and imp act s (Section 3.3).
W-3-096 Paragraph 3:Successi ve descri pti ons of vegetati on types by
project area would be clarified here by defining closed,open,
and woodland forests,tall versus low shrublands,and wetlands
(also see comment under Section 3.2(a)[v]),rather than de-
fining them in the following sections (a)and (i).The dis-
cussion would also be aided by including an overlay of project
features on the vegetati on map,Fi gure WI,as well as resta-
ting information on the elevations range for each proposed im-
poundment area.We recommend the license application include
a larger,more readable vegetation map and that quantitative
data on how common or uncommon specific vegetation types are,
as well as the occurrence of various types relative to eleva-
ti on or aspect,be presented in the text as well as tables.
In so describing the revised vegetations classification,it
wi 11 be possible to better evaluate potential project impacts
on vegetation,and thus wi ld1ife habitats,by project feature.
Thi s recomended 1eve 1 of effort a1so app 1i es to the propo sed
access and transmission corridors.
Response
Definitions of vegetation types are consolidated in
Section 3.2.2(a).Project features are shown in Figure
E.3.3?In Agures E.3.39 through E.3.41,boundaries of
project features are overlain on the 1:63,360 scale
vegetation mapping of the middle basin.Project
features are discussed relative to locations,eleva-
ti ons,and vegetati on types in the impact secti on (3.3).
....
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[
....
Figure E.3.38,the 1:250,OOO-scale vegetation map of the
Watana and Gold Creek watersheds,is included as a
large-format enclosure.Data presented in tabular for-
mat,including percent cover,as well as more detailed
information on elevation ranges,aspect,and other ter-
rain features,are incorporated throughout the plant
community descriptions and tables presented in Sections
3•2•2(b-f).
W-3-097 (a)Watana Reservoi r Area
(i)Forests:Please see comment under Section 3.2 regarding
i nc1udi ng quantifi ed i nformati on in the text as well as
tables.Providing the range of elevation in which these types
were sampled rather than one average would show the extent and
overlap in distribution of each forest type .
Response
Quantitati ve data on percent cover and elevati on ranges
have been incorporated in text descri pti ons of forest
communi ti es.
W-3-09S -Spruce Forest:Paragraph 5:Black spruce forests on poorly
drained soi 1s would most likely also be classified as wet-
lands.Please refer to our comments under Sections 3.1(d)and
3.2(a)(vi ).
Response
Bl ack spruce forests on poorly drai ned soi 1s are
di scussed as wet 1ands in Secti on 3.2.3;quantit ati ve
data on percent cover are provided in Table E.3.55 .
W-3-099 (ii)Tundra:Please refer to comments under Section 3.2;par-
agraph 3 regarding providing quantitative data on the preva-
1ence of di fferent tundra types and of ranges rather than
average elevations.The wet sedge-grass tundra should also be
described as a wetland type.See Sections 3.1(d)and
3.2(a)(iv),as above.
Response
See response to W-3-092 and W-3-096 above.In addition,
Section 3.2.3 describes forest,shrub and tundra wetland
categori es as well as more completely descri bi ng aquati c
veget ati on.
W-3~lOO (iii)Shrubland:Refer to comments under Sections 3.2(a)(i)
and (1 i)above.
Response
Defi ni ti ons of shrub 1and community types and descri p-
tions of classHication procedures are consolidated in
the new methods section (3.2.2[aJ).
W-3-101 (iv)Herbaceous:For consistency with the rest of the report,
we recommend describing common species within the referenced
herbaceous pioneer communities.Corresponding tables on the
.herbaceous vegetati on types are mi ssi ng.
Response
Done;see Section 3.2.2(b)(iv),Table E.3.64,and
Figures E.3.53 through E.3.65.Percent cover of herba-
ceous communities is quantified in Table E.3.52 for a
portion of the study area (see response to W-3-102).
W-3-102 (v)Unvegetated Areas:Again,quantification of the extent,
and thus importance,of these areas should be provided.
Response
Quanti fi cati on of the areal extent of unvegetated por-
ti ons wi thi n the Watana and Gold Creek watersheds is
provided in the new Table E.3.51 as hectares and percent
of total area,based on mapping at a scale of 1:250,000.
New Table E.3.52 provides simi lar data for the area 16
km on each si de of the Sus,tna Ri ver from the Mac 1aren
Ri ver (RM 260)to Go ld Creek (RM 136.8),based on
1 :63,360-scale mappi ng.These data have been i ncor-
porated into the text.
W-3-103 (vi)Wetlands:This section is significantly lacking in three
a re as.Fl rst,the 1egi slat i ve 1y recogni zed import ance and
protection of wetlands should be described,including the U.S.
Army Corps of Engineers'(CE)definition of wetlands and regu-
1ati on of acti viti es on these areas.(Pl ease al so refer to
our comments under Section 3.l(d)regarding this concern.)
Secondly,there should be a discussion of how wetlands may be
a second level of classification applied to the vegetation
types previously discussed.Finally,as with other ongoing
studies,this section should cover the wetlands delineation
scheme agreed .to at the 2 Qecember1982 wetlands session of
the'Susitna Hydro Exhibi't E'Workshop.This agreement included
the followi ng:project consultants wi'll meet wtth the FWS and
CE to identify the appropriate detallfor wet'lands mapping;
exi sti ng wetlands mapswil 1 ,be improved on the basi s of addi-
tional aerial photography and overall vegetation remapping;
soils i nformati on wi 11 be obtai ned from the CE;ground truth-
tng,in consultatlon with FWS and CE,wi 11 be undertaken in
summer,t983;ifinal maps should be available by fall,1983;
F-
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and additional field checks may be necessary in summer 1984
(see page 5 of Wet 1ands Meeti ng notes,recei ved from John
Hayden,Acres Ameri can,Inc.).Gi yen the doubtful accuracy of
existing wetlands maps,it would be inappropriate to include
those maps in the li cense submittal.
Redefi ni ti on of wet 1ands to proper ly inc 1ude such types as
black spruce bogs,wi 11 ow and poplar along watercourses,and
herbaceous sedge-grass marshes,in addi ti on to the more com-
pletely aquatic types now described under the wetlands sec-
ti on.A defi niti on of "we t tundra"(paragraph 6)should be
included.The fi nal paragraph of thi s secti on would be a bet-
ter openi ng statement to the expanded di scussi on needed on
wetland values and types.
Response
We concur and have made substanti ve addi ti ons to the
wetlands discussion now in Section 3.2.3.The subject
section includes (1)a discussion of the legislative and
regul atory provi si ons governi ng acti ons affecti ng wet-
lands;(2)existing wetland maps of impoundment and
borrow areas at a scale of 1:24,000 (Fi gure E.3.66
through E.3.73),and of access corridors at a scale of
1:63,360 (Figures E.3.W29 through E.3.45);(3)a dis-
cussion of wetland types as a secondary classification
level based on Vi ereck and Dyrness (1980)vegetati on
types (Table E.3.81);(4)quantification of wetland
areas potentially affected by project components (Table
E.3.82);and (5)an explanation of agency consultations
and ongoing activities implementing the wetlands deline-
ati on program proposed at the 2 December 1982 wet 1ands
session of the Exhi bitE workshop .
Existing wetlands mapping is included in Exhibit E to
provide the FERC with information necessary to determine
the adequacy of environmental input to preliminary engi-
neering design and construction planning.
Section 3.2.3 describes forest,shrub,and tundra wet-
land categories as well as more completely describing
aquati c vegetati on.The 1atter is di scussed in further
detai 1 in Secti on 3.2.2(b)(v).
W-3-104 (b)Devi 1 Canyon Reservoi r Area:Pl ease refer to comments
under Section 3.2(a)regarding need for a brief elevational
and 1andform descri pti on.Agai n,there wi 11 be need for an
overl ay of the impoundment area on the (rev;sed)vegetati on
type map.We appreci ate i nc 1usi on of the percent of the i m-
poundment area covered by major vegetati on types.Pl ease re-
fer to our previ ous comments regard;n9 need for a compre-
hensive discussion and definition of wetlands.
Response
Brief elevation and landform descriptions are provided
in Section 3.2.2(b),which describes the Watana and Gold
Creek watersheds (the Upper Susitna Basin of McKendrick
et al.1980).The impoundment areas have been overlaid
on the 1:63,360 vegetation maps of the Susitna River and
environs (Figures E.3.39 through E.3.41).
W-3-105 (c)Talkeetna to Devi 1 Canyon:Cl ari fi cati on of thi s speci fi c
area is needed.Agai n,refer to comments under Secti on
3.2(a)(i)and (ii),above.While early,mid,and late suc-
cessional stages appear a suitable categorization for flood-
pl~n vegetation,these stages should be correlated with the
forest,shrub,tundra,wetlands,etc.classification previ-
ously used.
Response
The recommended areal clarification is provided in
Section 3.2.2(c)and Figure E.3.34.Correlations bet-
ween successi onal stages and vegetati on types are pro-
vided in Section 3.2.2(c).
W-3-106 (d)Talkeetna to Cook Inlet:Please refer to comments under
Section 3.2(a){i)and (il),above.We believe that existing
data do not substantiate the conclusion that the project will
have minimal impacts on vegetation in this area.Thus we
recommend mapping the area within the 10 year floodplain down-
steam of Talkeetna at least to the Delta Islands.Further
discus~ons on expected impacts should be initiated to better
pinpoint the precise area which should be covered.
Response
Effects of regulated flows on downstream floodplain
vegetation are discussed as an impact issue in Section
3.3.l(b)(i i i).The recommended mappi ng wi 11 be con-
si dered duri ng preparati on of detai led study plans for
fi scal year 1984.Further di scussi on on downstream
impacts to vegetation will be initiated at mitigation
planning workshops and technical meetings.
W-3-107 (e)Transmission Stubs and Intertie:Again,we suggest adding
a map,and elevation information,as well as quantifying the
vegetation type,for each of the following four subsections.
Response
The recommend additions have been made to Sections
3.2.2(e)(i-iv).Quantifications of vegetation types is
presented in Tables E.3.77 and E.3.80.Mapping is
provided in Figures E.3.39 through E.3.41 and E.3.48
through E.3.52.
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W-3-108 (i)Healy to Fairbanks:Paragraph 5:Reference to IIwet
lowland sites"should be expanded to discuss wetlands per our
comments on Secti on 3.2(a)(vi).
Response
Comment noted.
W-3-109 (ii)Wi llow to Cook Inlet:Paragraph 1:Here too,"wet sedge-
grass marshes'!,should more completely be di scussed as wet-
lands,see Section 3.2(a)(vi).
Response
The discus~ons have been expanded as recommended;see
Secti ons 3.2.2(e)(i and i i)and 3.2.3,and Fi gures
E.3.48-52.
W-3-110 Paragraph 2:The fi rst sentencei s contrary to data provi ded
in Table W25,please clari fy.
Response
In the revi sed Secti on 3.3.2(e)(i i),paragraph 3 now
reads,IIClosed coni fer-deci duous forest is the
predomi nant vegetati on type,coveri ng 29 percent of the
total area.1I
W-3-111 Paragraph 5:Pl acement of thi s paragraph between the fi rst'
and second paragraphs would be more logical.
Response
Thi s revi si on has been made as recommended.
W-3-112 (iii)Wi llowto Healy:The compatab1 lity of vegetation types
as mapped by Commonwealth Associates,Incorporated (1982)
wi th those mapped by McKendri ck et al.(1982)should be de-
scri bed.
Response
The referenced vegetation types are not compatible
beyond Level 1 of the Vi ereck and Dyrness (1980)
clas~fication system;noted in Section 3.2.2(a).
W-'3-113 (i v)Dams to Interti e:We questi on the comparabi li ty of vege-I ati on types mapped here at a scale of 1:250,000 wi th those in
a 11 other t ransmi ssi on corri dors which were mapped at
1:63,360,e.g.Tables W27 and W28 document difficulties of
mapping closed birch and balsam poplar types at the 1:250,000
scale.Thi s transmission corridor should be separately mapped
during ongoing mapping.
Response
Mappi ng of vegetati on types crossed by the Watana-to-
Go ld Creek t ransmi ssi on corri dor (i nc 1udi ng the ti e-i n
from Devi 1 Canyon)is presented at a scale of 1:63,360
in Figures E.3.39 through E.3.41.Quantification is
provided in Table E.3.80.
W-3-114 3.3 -Imeacts:Fragmenti ng thi s analysi s into a project fea-
ture by nnpact issue format is useful for a fi rst overvi ew.
However,the section lacks a comprehensive picture of cumula-
tive impacts to vegetation.That cumulative picture is essen-
tial for understanding overall impacts of the project on fish
and wi 1dli fe speci es occupyl ng areas wi thi n and beyond each
project feature.Although thi s secti on i denti fi es the full
range of vegetati on impact issues,there is no attempt to
quantify areas which may be potentially affected by chan~es in
vegetation cover.A given change may be both beneficlal to
one speci es of wi 1d1i fe yet adverse to another.By not com-
pletely prioritizing mitigation in the previous Fishery Sec-
tion and later Wildlife Section,the report fails to identify
the tradeoffs or objectives of a project-wide mitigation plan
or mitigation plan alternatives.For example,information
should be provided here on the tradeoffs analysis relative to
fish,wildlife and botanical impacts,as well as cost and de-
si gn consi derati ons in the siti ng of project support faci li-
ti es,roads and transmi ssi on 1i nes.We remai n concerned that
we were not consulted in the siting of project support faci li-
ti es.
Response
We concur.A secti on on cumul ati ve impacts has been
added.Discussions of individual impact issues have
been revi sed to provi de an esti mate of changes in
vegetation type over time for each area which will be
affected by development.Al though such esti mates must
of course be highly conjectural,as the timing of plant
successi on is dependent on c 1i mate,soi 1 type,slope,
aspect,elevation,moisture,fire,flooding,ice
scouri ng,use by wi 1d1i fe,and other factors all
complexly interacting over time,an effort has been made
to base our estimates on discussions such as those found
in:
Ni eland,B.J.,and L.A.Vi ereck.1977.Forest types and
ecosystems.In North Ameri can 1ands at 1atitudes north
of 60 degrees.Proceedi ngs of a s}fllposi urn held at the
University of Alaska,Fairbanks.September 19,20, 21,
and 22,1977.
Viereck,L.A.1970.Forest succession and soil develop-
ment adj acent to the Chena Ri ver in i nteri or Al aska.
Arctic and Alpine Research 2:1-26.
Areas whi ch wi 11·be affected by changes in vegetati on
are quantified in Tables E.3.82-86.Cost and design
considerations are discussed in relation to mitigation
in Section 3.3.4.The Alaska Power Authority will con-
sult further wi th resource agenci es in the si ti ng of
project support facilities during the detailed siting
and design program.
W-3-115 (a)Wat ana Development
(i)Construction
-Vegetation Removal:Paragraph 1:Again,we suggest re-
stating the elevation range wlthin which vegetation will be
removed.Spoi 1 areas should also be described.
Response
Elevation ranges of areas whi chwi 11 be affected by
vegetati on removal have been incorporated into the
impact discus~ons.Spoil disposal sites are described
for the Wat ana and Devi 1 Canyon f aci li ti es in the impact
and miti gati on analyses for bot ani cal resources (Sec-
tions 3.3 and 3.4,respectively).
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W-3-116 para~raPh 2:Pl ease provi de the percent loss expected for
birc forests as shown in Table W27.Loss of a vegetation
type relative to its abundance within the basin is half the
issue relative to the loss of vegetation;however the value of
each type rel ati ve to other types for selected wi ldli fe spe-
cies should also be provided.In some cases habitat factors
would also be considered;see our comments throughout the
Wi ldli fe Secti on.
Response
Percent loss expected for birch forest i s presented in
Section 3.3.1(a)(i).The relative values of vegetation
types as components of wi ldli fe habi tat aredi scussed in
Section 4.In revising the botanical resources and
wi ldli fe secti ons,we have made an effort to emphasi ze
the fact that habitat-based assessments of wi ldli fe
impacts are derived largely from vegetation type quanti-
fications provid~d in the botanical resource baseline,
impact,and mitigation discussions (Sections 3.2,3.3
and 3.4,respectively).
W-3-117 -Vegetati on Damage by Wi nd and Dust:Paragraph 1:Gi ven the
difficulty of reading the vegetation map supplied here and the
1ater need to understand the potenti a1 for lost nest si tes or
wi 1d1if e cover t please descri be the pri mar y tree speci es and
vegetation type(s)in which b10wdown may occur on the south-
side of the Watana damsite.
Response
A statement that wood1 and black spruce stands wi th a
typi cal rooti ng depth of less than 35 cm (12 inches)
wi 11 be the primary vegetation type subject to b10wdown
on the south si de of the Watana reservoi r has been
incorporated in Section 3.3.1(a)(iii).
W-3-118 para9raPh 3:Some relationship should be made between refer-
ence possible delays in snowmelt and vegetation types which
may be affected.~mi 1ar1Yt increases in cottongrass and de-
creases in mosses and lichens should be related to their
occurrence in vegetati on types adj acent to impoundment and
borrow areas.Such relationships should be the basis for
fully consi deri ng the impacts of project-i nduced changes on
vegetati on re1 ati ve to wi 1d1i fe (see our comments under Sec-
tions 4.3(a)[i]t [ii]t [ivJt and [v]).
Response
The relationship between potenti a1 delays in snowmelt as
a result of heavy dust accumu1 ati on and the vegetati on
types whi ch may be affected is di scussed bri efly in
Section 3.3.1(a)(iii).Where potential increases or
decreases in plant taxa are discussed relative to
project-induced climatic changes in Section 3.3.1(b)
(iv)t we have indicated the occurrence of these taxa in
veget ati on communi ty types present in the potenti ally
affected areas.
W-3-119 (ii)Fi 11ing and Operation
-ve~etation Succession Following Removal:In order to under-
stan the magnitude of vegetation alterations t some quantifi-
cation should be presented for the areas of forest t shrub t
tundra t etc.whi ch wi 11 be rehabi 1i tated duri ng project f111-
ing and operation.A scenario should be developed outlining
potenti a1 acreages of each affected vegetation type and the
various successional stages they wi 11 pass through during the
life of the project.
Response
Areal coverage of vegetati on types in locati ons to be
rehabi litated is quanti fi ed in Secti on 3.4.2(a).The
scheduli ng of rehab-Ili tati on on a locati on-by-locati on
basis is also indicated.We have provided rough esti-
mates of the length of time required for rehabi litated
areas to return to their pre-project vegetative cover,
and a general descripti on of the sl../ccessi onal stages
likely to occur during the license period,based
primarily on Nieland and Viereck (1977)and Viereck
(1970)as cited above.
W-3-120 •Forest Areas and Shrubland:Anticipated heights of each
vegetation stage,over time,should be included here.
Response
The requested information has been included.
W-3-121 •Tundra:The extent of permafrost should be descri bed,
please see our comment under Section 3.2.
Response
Areal extent and locati ons of permafrost are descri bed
in Exhibit E,Chapter 6,Sections 2.5.5 (Watana)and
2.6.5 (Devil Canyon),and shown in Figure E.6.3.2
through E.6.4.5 (Watana)and E.6.2.1 through E.6.2.9r(Devi 1 Canyon)..
W-3-122 Informati on is needed on successi onal patterns in herbaceous
vegetation types and on wetlands within each type,for consis-
tency with Section 3.2(a).An additional concern is the nu-
tritional quality and quantity of plant regrowth relative to
wi ldli fe.
Response
The di scussi on of successi onal patterns has been
expanded to i hcl ude herbaceous vegetati on types and
wetlands.Nutritional quality of successional stages
following project di sturbance,rehabi litati on,or
intentional browse enhancement measures is addressed in
Sections 4.3 and 4.4.Changes i nand loss of moose
browse vegetation'receives particular emphasis in these
sections,and is the subject of an intensive simulation
modeli ng program now in progress.In addi ti on,browse
baseline inventories initiated and funded by the Alaska
Power Authority wi 11 be documented in a report avai lable
in May 1983.A detai led browse nutri ti onal study is
under consideration for the spring and summer of 1983.
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W-3-123 -Effects of Erosi on and Deposi ti on:Paragraph 2:See pre-
ceedi ng comment and that under Section 3.2 regardi ng need to
map and quantify the aerial extent of permafrost.
Response
Areal extent and 10cati ons of permafrost are descri bed
in Exhi bit E,Chapter 6,Secti ons 2.5.5 (Watana)and
2.6.5 (Devi 1 Canyon).
W-3-124 -Effects of Altered Downstream Flows:Overall,thi s di s-
cuss;on ; s too general.Consi derat;on of dai 1y flow fluctua-
tions in response to peak power needs is neglected.
Several other potenti a1 projects impacts are left unclear;
especially those related to wetlands and floodplains.For
example,please provide the extent of floodplain areas,(1)
now subject to annual,5 year,10 year,etc.flooding,and (2)
which will become exempt from flooding.Given the succession-
ali nformati on depi cted in Fi gure W3 and revi sed veget ati on
maps,it should be possi b1e to quanti fy expected changes in
vegetation,over time,for a variety of flow regimes.Such
i nformati on is necessary to fully determi ne project impacts to
wildlife and make mitigation recommendations.If existing
hydrologic or vegetation information is considered insuffi-
cient for developing such models,additional studies should be
i ni ti ated.
Response
The di scussi on has be€n revi sed to provi de a more
detailed assessment (Section 3.3.l(b)(iii).Your
requests wi 11 be consi dered duri ng formul ati on of
detai led study plans for Fi scal Year 1984.
W-3-125 .Watana to Devi 1 Canyon:A more detai led treatment of the
potent;al for·r;me ice or i cefog formati on is needed here.
For example,ice bui 1dup on vegetation has been found to keep
the soil surface open in forests.l0 Sapling tree stands
heavi ly damaged by ice produced more-Drush whereas ice damage
in mi xed-oak tree stands resulted in loss of understory sap-
1i ngs and low tree branches with herbaceous plant growth en-
hanced in summer.ll Such changes in understory or reducti on
in wi nter browse avai 1abi lity coul d be parti cul ar1y criti cal
to wi ldlife subject to extensive adjacent habitat losses.The
types of vegetation which may form,over the project life,on
IInewly-exposed areas with adequate soi 15"should be descri bed
relative to adverse or potenti a1 benefits for various wi 1d1ife
speci es.
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Response
Section 3.3.1(b)(iv)has been revised to provide a more
detailed {jiscussion of potential ice fog and rime ice
formation,wHh possible effects on vegetation.The
p'rovi ded references have been revi ewed and incorporated •
The relative values of plant successional stages to
wildlife are discussed in Sections 4.3 and 4.4
W-3-126 .Dev;1 Canyon to Talkeetn.a.;Paragraph 3:Thi s quanti fi ed
descr;pti on of expected ve~etat;on type changes is the type of
detai led impact analysis necessary for other project areas
(e.g.preceeding section on Watana to Devi 1 tanyon and follow-
ing section on Talkeetna to Yentna River).Once the revised
vegetation mapping and analysis is completed,this type of
analysi s should be the basi s for ex ami ni ng the positi ve and/or
negative impact to wi ldlife of these vegetation changes,over
the life of the project.
Respo;nse
Section 3.3.l(iii){b)has been revised to provide more
det ai led i nformati on for the Wat ana-to':'Devi 1 Canyon and
Ta lkeetna-to-Yenta Ri ver reaches.Your recommendati on
concerning use of revised vegetation mapping coupled
with hydrologic analysis wll be considered during
formulation of detailed study plans for Fiscal Year
1984.
W-3-127 Paragraph 4:The statement that,'IIPost-project ice formati on
;n this reach will be similar to present conditions,1I appears
to confH ct wi th previ ous deseri ptons whereby ice formati on
will not occur until approximately river mile 130,slightly
more than half way to Devi 1 Canyon from Talkeetna (Secti on
2.3(a)(iii),PageE-3-90).In order to understand how area
vegetation may be less-influenced under post-project breakup,
it would be useful to expl ai n present impacts of breakup on
the vegetation.Please address the change from a bank-full
flood interval of 1 to 2 years for this section of the river.
Quantification is needed of the area over which vegetation
could be established with this schedule for less frequent dis-
t urbances .
Response
Section 3.3.1(b)(iii)now states that lithe ice front at
the end of wi nter is expected to occur between Portage
Creek (RM 149)and Curry (RM 120.5).11 A discussion of
breakup impacts on vegetation under pre-project condi-
tions has been incorporated as a basis for comparison
wi th potenti al effects on regul ated flows.The effect s
of less frequent flood events on floodplain vegetative
recession and succession are also discussed.The re-
vi sed analysi s emphasi zes that vegetati on removal wi 11
depend primari lyon ice scouring at freezeup and break-
up.The area of floodplain scoured wi 11 be dependent on
winter flow releases,as determined'by power demand.
Modeli ng of scour effects on vegetati on could be done
for a series of hypothetical flow releases,and wi 11 be
considered during formulation of detailed study plans
for Fi scal Year 1984.
W-3-128 .Talkeetna to Yentna River:Paragraph 2:Again,the vegeta-
ted areas and types which could become established on the ac-
tive gravel floodplain under (less frequent bank-full floods
should be described.
Response
As stated in Section 3.3.l(b)(iii),lilt is impossible to
predi ct wi th certai nty the vegetati on changes that wi 11
occur post-project in thi s reach.The bankfull flood
wi 11 have a post-project recurrence interval of once
every 5 to 10 years,as opposed to the present 2-year
interval (R&M 1982).In areas where such floods control
the vegetation,early-successional stands may develop
for about 5 to 10 years before being removed by the next
bankfull flood.In some of these stands,however,si It
depositi on of vegetati on growth may be rapi d enough to
stabi li ze the area agai nst subsequent floods.Increased
wi nter flows wi th subsequent increases in ice stagi ng
may cause other areas to undergo regul ar ice scouri ng
duri ng freezeup.The amount of area supporti ng mature
stands of vegetation will be directly influenced by
floods and the flow releases from Watana each winter.1I
W-3-129 Paragraph 4:We question the suggested vegetation changes be-
tween Talkeetna and the Yenta Ri ver.Vegetation allowed to
establish over a longer period of time (e.g.5 to 10 rather
than 1 to 2 years)would seem less likely to be disturbed when
the bank-full flood does occur.Gi ven the annual flow vari a-
tions over this stretch of the river,it would seem possible
and necessary to predict areas of vegetation change for maxi-
mum and minimum flow scenarios.
Response
Please see the previous two responses ..
W-3-130 -Climatic Changes and Effects on Vegetation:As for other
ongoing studies,a schedule is needed for incorporating phen-
ology study results into project plans.
Response
This schedule has been provided in Section 3.4.3.
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W-3-131 Paragraph 3:We recommend calculating the potential vegetated
area and types therein within the referenced 2.5 km area
downwind of the reservoi r within which ai r tempertaures may be
affected.Resultant impacts on t imi ng of vegetati on green-up
or leaf-drop could be important for area wildlife.
Response
The requested information has been provided in Section
3.3.1(b)(i v).
W-3-132 Paragraph 4:A more extensive treatment of fog bank develop-
ment should be included here~please refer to our comments un-
der Section 3.3(a)(ii)-Effects of Altered Downstream Flows
•Watana to Devil Canyon.Al so see comment above reca1cul a-
ting the areas within 3 km offshore which may be affected by
ice development.
Response
A more detailed discussion
development has been provided.
recalculations.
concerning fog bank
Comment noted concerning
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W-3-133 -Effects of Increased Human Use:We have repeatedly cited
the important opportunity for minimizing project impacts on
fish and wildl ife by carefully siting and regulating access
(see FWS letter to Eric Yould~APAt of 17 August 1982).The
potentials for off-road vehicle (ORV)use and accidental fires
with project access described here confirm that such use may
need to be effectively controlled as fish and wildlife mitiga-
tion.Please refer to comments under Section 3.4(c)(ii)re
our recommendations to eliminate the Denali Highway access
route and to restrict worker and public use of project access
routes.
We are concerned about inconsistencies with the first sentence
heretregarding greater access opportunities~and with points
made in the Wildlife Section.That section appropriately con-
tains repeated descriptions of (1)the significant negative
impacts from increased use and access;and (2)the need to
carefully control project area use and access (e.g.Sections
4.4(a)[nt [ii]t [ivJt and [r]and 4.4(c)[in).Please clar-
ify.
Response
Po li cy matters concerni ng access are di scussed in the
response to general comments raised in the USFWS cover
letters of 14 January 1983.
The first sentence is true as stated.The section goes
on to discuss consequent impacts.The mitigation plan
states how those impacts wi 11 be allevi ated,and resi-
dual impacts which will remain despite mitigation.No
i nconsi stenci es in thi s approach have been i denti fi ed.
W-3-134 .Off-Road Vehicles:Paragraph 3:In view of previous incom-
plete coverage of wetlands (see our comments under Section
3.2(a)(vi),we question the definition behind use of the term
wetlands here.This discussion illustrates the need for the
improved wet 1ands map whi ch i s to be deve loped.
Response
Use of the term wet 1ands is quite vali din thi s context.
The di scussi on addresses potenti al effects of off-road
vehi cles on wet lands ina general sense,and has no
beari ng on preci sely defined vegetati on or soi 1 types,
or mapping of any kind.
W-3-135 (b)Devi 1 Canyon Development
(i)Construction:Other than quantifying direct vegetation
losses from reservoir inundation,the section fai ls to provide
any indication of the relative magnitude of other potential
losses or alterati ons in vegetati on.
Response
Additional quantification for camp and village,borrow
sites,access routes,rai 1 termi nal,and transmi ssi on
corridors to be developed in conjunction with the Devi 1
Canyon faci li ty is provi ded in Tables E.3.80,82, 84,
and 85.
W-3-136 -Vegetation Removal:Please refer to our concerns under Sec-
tion 3.3 re lack of consultation in siting camp,village,and
borrow areas.
Response
These concerns are di scussed in the responses to general
comments rai sed in the USFWS cover letter of January 14,
1983.
W-3-137 -Vegetation Loss by Erosi on:Agai n,a map of permafrost
areas would be useful.Given the likely ineffectiveness of
replacing topsoil and recontouring (Section 3.3(b)(i).In-
direct Consequences of Vegetation Removal ),we suggest that
clearing may be a significant source of erosion.
~Response
We concur that clearing may produce erosion which may in
turn result in further vegetation loss in adjacent
uncl eared areas.Thi s statement has been added to the
text.
W-3-138 -Effects of Altered Drainage:We recommend that this section
include the area of lakes,ponds,and other wetlands which may
be affected by proposed borrow areas.
Response
These areas are quantified in Tables E.3.82 and E.3.84.
W-3-139 (ii)Filling and Operation:Paragraph 3:The potential for
movement of the large landslide at river mile 175,causing up-
stream flooding and loss of mid-and late-successional vegeta-
tion in valuable riparian areas,should be described in more
detail.For example,the potential size of the area to be im-
pacted should be described.
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Response
The potential extent of the area which might be affected
by river blockage due to landsli~e would depend on
season,river stage and flow,and the volume,height,
and duration of blockage material persisting in the
active channel.It would be foolhardy to attempt a
quantitative prediction based on such unpredictable
variables.
W-3-140 -Veetation Succession Following Clearing:Please refer to
our previous comments,Section 3.3 a i1 •
Response
Please refer to the corresponding responses.
W-3-141 -Downstream Effects:The unknown consequences of frost
buildup on vegetation adjacent to the reservoir represent a
significant potential change in vegetation and thus impact to
wildlife (see our comments under Section 3.3(a)(ii)).These
consequences shoul d be the subject of conti nui ng studi es and
quant ifi cat ion.
Response
This recommendation will be considered during formula-
tion of detailed study plans for Fiscal Year 1984,and
will also be incorporated into post-construction envi-
ronmental monitoring.
W-3-142 (c)Access
(i)Constructi on:Paragraph 1:Pl ease refer to our comment
under Section 3.2 regarding omission of base line data on pro-
posed access corri dors.Because of thi s omi ss i on,the exact
areas which would be cleared within the 34 meter (m)x 67 km
access corridor described here are unclear.Please explain
why this description appears to conflict with earlier descrip-
tions of road width and length (Section 2.3(c)(i)).Incon-
sistent use of both metric and English units within the same
report adds further confusion.
Response
Areas of each vegetation type to be cleared within the
specific access road routing presented for this license
application are shown in Table E.3.85 for the Denali
Hi ghway-to-Watana and Watana-to-Dev il Canyon roads and
Dev il Canyon-to-Go 1d Creek ra i1 road.Proposed c1ea ri I1g
widths have altered as design has progressed.Correct
widths are 37 m (120 ft)for access roads and 15 m (50
ft)for the rai1 road.In the revised botanical
resources and wildlife sections,metric units are pre-
sented with equivalent English units to aid coordination
with other sections,chapters,and exhibits.
W-3-143 1:Our comments under Section:-l-i::-TL-...-T-!~"";;;"";'''';''';;';'';'';''''-'''''-:-=~..:..-.;;;J~'''''';:;'
Response
Please refer to corresponding responses.
W-3-144 Paragraph 2:The potential for ice buildup on the railroad
tracks and resultant impacts on vegetation should be examined.
Response
This potential was examined,but the results were too
negligible to mention.
W-3-145 (d)Transmission Corridors
P)Construction:Paragraph 1:Please clarify the differ-
ences among hectares to be impacted by the transmission corri-
dors as cited here and in Tables W24,W25,and W26.Moreover,
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....
referenced Table W29,has nothing to do with transmission cor-
ridors.
Response
The i nconsi stenci es and error have been corrected;see
Tables E3.80 and 86.
W-3-146 Paragraph 2:Wetlands,as used here,should be defined.Pre-
calculation of affected vegetation types will need to be un-
dertaken after the ongoing vegetation remapping.Notation
s hou 1d be made that,(l)1ow-l yi ng vegetat i on types wi 11 re-
main largely undisturbed,and (2)beneficial impacts of in-
creased browse production will be realized,only if access and
ORV use along transmi ssion corridors are effecti vely con-
trolled.Quantification of potential increases in browse
should be possible on the basis of succession models and con-
tinuing classification studies.Such quantification is needed
to compare overall losses and thus mitigation requirements for
the project.
Response
The undefined useage of wetlands has been deleted,and
quant ifi cat i on of vegetati on types to be a ffected by
transmission corridors is provided in Tables E.3.80 and
86.The requested notations are appreciated and have
been incorporated into the revised discussions of trans-
mission corridor construction and operation.The recom-
mendation concerning quantification of potential browse
increase will be considered during ongoing mitigation
planning and development of detailed study plans for
Fiscal Year 1984 •
W-3-147 (ii)Operation:Our comments above under Section 3.3(d)(i)
apply.
Response
Please refer to corresponding responses.
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W-3-148 (e)Impact Summary:An explanation is needed for the process
or criteria for determining impact "priorities of importance.1I
Response
The requested explanation has been incorporated into an
expanded introductory statement to Section 3.3.6,which
explains the criteria and process of impact prioritiza-
tion and relates them to the Susitna Hydroelectric Proj-
ect Mitigation Policy.
W-3-149 (i)through (v):This qual itative summary describes several
data gaps which we believe should be answered,e.g.the vege-
tated area whi ch may be lost with 1and sl umpage from perma-
frost,changes in downstream floodplain vegetation,etc.
Overall,we are concerned with lack of attention of cumulative
impacts,an inattention made more acute by nonquantification
of most impacts.The numerous uminimal U and uminor"impacts
for each project feature may cumulatively represent signifi-
cant alterations or loss of vegetation.From the standpoint
of fish and wildlife habitats,project-related activities
throughout this primarily undisturbed area represent the first
intrusions similar to those which have led to significant and
losses of fish and wildlife throughout the conterminous United
States.A serious omission in this section is consideration
of impacts to wetlands and floodplains.
Response
The impact summary has been quanti fi ed and expanded to
include topics previously lacking,e.g.,effects or the
downstream floodplain,discussions of thermal erosion,
and alterations to sheet flow and drainage patterns by
linear structures.We strongly concur with the need to
emphasize cumulative impacts and have incorporated this
concern into the revised mitigation plan,Section 3.4.
W-3-150 vi Prioritization of 1m act Issues:We concur with the eval-
uation of acreage osses for a vegetation type relative to the
proportion of that type in the region.Since vegetation is a
key component of wildlife habitats,the basis for evaluating
whether community changes are ugood"or ubad ll should follow in
the Wildlife Section of this chapter.However as discussed
there,an integrated evaluation of all species is lacking.
There is little basis for making decisions on prioritizing
species concerns or resultant tradeoffs in project impacts or
mitigation alternatives.Our previous comments on each impact
issue identified here apply.Additionally,we have a few spe-
cific comments.
Response
We agree that the basis for evaluating changes in sparse
vegetation should be relative values to wildlife,and
that prioritization of species for mitigation must have
a rational and defensible basis.These issues are dis-
cussed in the revised Sections 4.3 and 4.4
W-3-151 -Direct Losses of Vegetation
Access Roads:While the actual area covered may be small rel-
ative to other project impacts,access routes indirectly im-
pact a much larger area because of their linear nature.
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!
W-3-l52 •Transmission Corridors:We would like to be assured that
the reference to a limedian strip for transport of personnel
and materials",is consistent with the environmental guide-
1 ines for transmission corridors (Appendix AE -Transmission
Corridors,iteml)with which we concur.As with access
roads,above,transmission corridors indirectly impact a very
1arge area.
Response
Transmission corridor design has been revised and no
longer incorporates a longitudinal access strip.Low
shrub vegetation will not be cleared during construction
or maintenance.Access for maintenance of the Watana-
to-Devil Canyon corridor will be from the adjacent
access road.For other transmi ss ion corri dors,access
wi 11 be overland from the nearest road.Nodwell or
Roll i gon-type vehi cl es wi 11 be used for mai ntenance
purposes.
W-3-l53 -Indirect Losses Of Vegetation:The cumulative impact of
project features mentioned previously,is of particular con-
cern here.Many of the identified losses will be in riparian
corridors which are of particular significance to wildlife
species.
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Response
We concur.Many of these impacts wi 11 not be
quantifiable and must therefore be monitored during
construction and operation (Section 3.4.2[b]).
W-3-154 -Alteration of Vegeta'tion Types:We again recommend that
successional type changes over the project life be quantified
in the license application.
Response
These estimates have been provided in discussions of
downstream floodplain impacts and rehabilitation of
di stu rbed areas.
W-3-155 3.4 -Mitigation Plan:We f"ind the proposed plan incomplete
and too general.There are two main problems with this plan.
First,because impacts are incompletely quantified,it is not
possible to determine the value of recommended/accepted miti-
gation measures or the magnitude of unavoidable,adverse im-
pacts which will not be mitigated.Not integrating this plan
with the fish and wildlife mitigation plans is the second main
problem.Thus there is no comprehensive picture of overall
project impacts,priorities for mitigation,potential for
achieving those priorities,or tradeoffs among mitigation op-
tions for various area resources.
W-3-156 An approach similar to that for the Fishery Section mitigation
plan (pages E-3-120 through E-3-144)would be more appropri-
ate.We recommend restating the full range of mitigation al-
ternatives here,prioritized in accord with NEPA guidelines;
avoid,minimize,rectify,reduce or eliminate over time,and
finally,compensate.This approach should be expanded to in-
clude reasons for rejecting high priority mitigation in lieu
of lower priority measures (e.g.proposing regulations on ac-
cess rather than alternate siting or scheduling of access).A
mitigaton plan,incorporating specific,effective measures
which have been selected through this process,should then be
presented.
W-3-157 Many of the identified impacts are not addressed in the miti-
gation plan itself.In those cases,impacts should be clearly
identified as unavoidable,short or long-term,adverse im-
pacts.Moveover,we find the report lacks information specif-
ically required by FERC regulations (F.R.Vol.46,No.219,13
November 1981),Section 4.41(f)(3)(iv),i.e.there are no im-
plementation,construction,or operation schedules for recom-
mended mitigation measures;which measures have actually been
incorporated into project plans is unclear;and neither re-
placement lands nor habitat manipulations have been identified
as to either suitable sizes or locations.
W-3-158 Generalities of the plan are exemplified by references to
using,"depleted or non-operatonal upland borrow pits •••as
overburden storage areas where feasibile"(page E-3-187)"or
reference to "a feasible haul distance,"(page E-3-187).
Response
The revised mitigation plan (Section 3.4)is responsive
to all of the above comments and recommendations.
Specifically,the following major changes have been
made:
1.Greater emphasis is placed on the complementary re-
lationship between the mitigation plans for botani-
cal resources,fisheries,and wildlife,both in an
introductory statement (Section 3.4.1)and through-
out the text.
2.In Section 3.4.2,the full range of mitigation op-
tions is explained for each of the impact issues
discussed in Section 3.3.Where a particular option
has not been followed,the reasons are stated.
3.In accordance with 18 CFR Part 4,Subpart E (Federal
Register,Vol.46,No.219,13 November 1981),
mitigative measures recommended through agency con-
sultation are described and documented in Section
3.4.2.
porated
vided.
adopted
Where such recommendations have been incor-
in the mitigation plan,explanation is pro-
Cases where alternative measures have been
are also explained.
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4.In further compl i ance with the regul ati ons cited
above,Section 3.4.2 provides estimates of the costs
of construction,operation,and maintenance of pro-
posed miti gati ve measures where such measures are
not included as project capital costs.Project cap-
ital costs are described in Exhibit D.
5.Every effort is made to provide defensible quantifi-
cation,where available,of the extent to which
mitigation will be achieved by area and over time
for each impact issue.In accordance with the regu-
lations cited above,implementation,construction,
and operation schedules for mitigative measures are
stated by month or year,commensurate with the level
of detail provided by the overall project schedule
presented in Exhibit C.
6.Only measures actually incorporated into project
features or into mitigation planning currently in
progess are described.Further recommendations for
mitigation measures not actually incorporated are
not discussed,except where provided through agency
consultation;see (3)above.
7.In accordance with the regulations cited above,the
following mitigative design modifications are illus-
trated in Figures E.3.79-82:
a)Changes in the general routing of access roads;
b)Localized access route adjustments to avoid
site-specific biological features;
c)Alterations in construction procedures for the
Denali Highway-to-Watana access road section;
and
d)Cl eari ng and mai ntenance features for transmi s-
sion corridors.
8.A consolidated,itemized mitigation summary (Section
3.4.3)is presented in well-organized format after
the option analysis has been completed.This plan
provides a summary of mitigative measures,schedule,
and costs relating to each impact issue and,where
justified,provides estimates of residual impacts.
9.A synopsis of agency consultation and mitigation re-
commendations is provided in Section 3.4.4,with re-
ferences to the text where these recommendations are
discussed.
The option analysis (Section 3.4.2)clearly states miti-
gative features which have been incorporated into engi-
neering design and construction planning;reasons for
i ncorporat i ng or not i ncorporat i ng agency recommenda-
tions pertinent to botanical resources are also stated.
These topics are further summarized in Sections 3.4.3
and 3.4.4,respectively.Siting of construction camps
and villages is discusssed in Section 3.4.2.Policies
and enforcement measures of the Al aska Power Authority
regarding off-road or all-terrain vehicle use will be
consistent with concurrent management policies of land-
owners or resource agencies with jurisdiction over lands
surrounding the project.
W-3-159 (a)Watana Development
(i)Construction:Paragraph 1:Mitigative features which have
been incorporated into engineering design and construction
planning should be clearly stated.Reasons for rejecting our
recommendations have never been formally provided (e.g.access
pond siting).Location of the construction camp and village
on shrublands (per Table W27)rather than forestlands may not
minimize impacts,depending on the wildlife species of con-
cern,erosion potentials,proximity to construction and access
facilities,etc.Again,since we were not consulted in siting
of those facilities and have not seen Exhibit A,we cannot
fully understand the situation.A mechanism for enforcing the
referenced prohibition of off-road or all-terrain vehicle use
should be included (see FERC regulations,Section
4.41(f)(3)[iv])in F.R.Vol.46,No.219,13 November 1981.
Response
Engineering design and construction planning mitigative
measures are described in Chapter 3,Section 3.4 and 4.4
and in Chapter 10.Reasons for access road location are
discussed in Chapter 10,which has been expanded.
Reasons for location of construction camps and villages
are discussed in the response to your comment in Chapter
10.A mechanism for enforcing prohibition of ATV use is
described in Section 4.4 •
.W-3-160 Paragraph 3:We suggest that facil ity siting to avoid wet-
lands be rereviewed in consultation with the FWS and CE and
proposed revisions to the wetland maps.As with similar
points about "minimizing"or "reducing",there is no quantifi-
cation,particularly relative to the amount of wetlands,or
other impacts in other report sections,which will be impacted
and which can be avoided.
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Your recommendation will be considered during early
stages of the detailed facility siting and design pro-
gram.Quantification of impacts to wetlands and vegeta-
tion community types is provided in the impact discus-
siGn (Section 3.3).
W-3-161 Paragraph 5:We concur that spoils should be placed in the
inundation area as long as such placement will not create a
sedimentation problem •
Response
Spoil disposal sites within the impoundment areas will
be located to avoid or mi nimi ze entrai nment of fines
during inundation.In the Watana impoundment area,
spoil will be deposited on relatively flat sites at
higher elevations within the impoundment area.These
sites wi 11 not be inundated unti 1 after the di verson
tunnel has been blocked.Exact locations of spoil dis-
posal areas will be determined during detailed engineer-
ing design and mining plan developments •
At the Devil Canyon facility,spoil wi 11 be deposited at
borrow site G,which ranges from about 280 m (925 ft)to
about 356 m (1175 ft)in elevation.Spoil deposited on
this first-level terrace site will not be entrained dur-
ing river diversion.
W-3-162 Paragraph 6:We recommend expl ai ni ng whether proj ect engi-
neers have confi rmed that fl oodpl ai ns or fi rst-l evel terrace
locations will not be needed for borrow for ancillary project
facilities.
Response
Project engineers stated on 14 February 1983 that active
floodplain and first-level areas downstream from the
Watana damsite will in fact be used to obtain borrow for
the construction of ancillary facilities.No active
floodplain borrow sites are planned for the Devil Canyon
development,but borrow area G,a fi rst-l evel terrace
1ocat lon,wi 11 be used.
W-3-163 Paragraph 7:We reconunend that simllar detailed information
be provided throughout the report.
Respons.e
Recommendation noted.
W-3-164 (ii)Filling:Please refer to our General COfflllents,Botanical
Resources,regarding identifying feasible habitat enhancement
measures or replacement lands.The contention that moose
wi nter browse u may be compensated II is useless,given that (1)
there is no guarantee in thi s pl an that enhancement or 1and
acquisition will ever occur;and (2)quantification for how
much/where/what type of 1and must be enhanced or acqui red is
lacking.Moveover,tradeoffs regarding compensation for moose
to the negl ect or adverse impact of other species have not
been settled or even discussed.
Response
Habitat enhancement measures and acquisition of replace-
ment lands for compensatio~of adverse impacts to wild-
life are discussed in Sections 3.4 and 4.4.Quantifica-
tion has been provided on a preliminary basis but will
depend on the refinement of ongoing habitat-based simu-
lation modeling as well as the results of monitoring
during construction and operation.
W-3-165 Paragraph 3:Because of internal inconsistencies,the overall
effect of siltation is unclear.
Response
The revised Exhibit E,Chapter 2 (water resources)dis-
cusses siltation effects in greater detail.
W-3-166 Paragraph 5:Whether rectification will be one percent or 99
percent is unclear.
Response
The point of this comment is not understood and appears
to be out of context.
W-3-167 Paragraph 7:We concur with revegetati on pl ans to emphasi ze
fertilization and minimize seeding where erosion will not be a
problem.
Response
Noted.This approach is maintained in the revised re-
port.
W-3-168 Paragraph 8:We strongly support plans to rehabilitate all
sites by the first growing season after they are no longer
needed.Assurances should be provided that sufficient quanti-
ties of seeds would be stockpiled and regrowth potentials of
available native strains will be tested prior to project aban-
donment of disturbed sites.Choice of pl ants for site reha-
bilitation should be in consultation with Federal and State
natural resource agencies.
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Response
These assurances have been provided in the revised
draft.
W-3-169 (iii)Operation:Paragraph 1:We concur with the proposed
monitoring of downstream vegetation changes but note that mon-
itoring in itself is not mitigation.Periodic controlled
flooding to maintain primary and secondary successional stages
must be coordinated with the Fishery Section and Wildlife Sec-
tion mitigation plans.
Response
As explained in Section 3.3.1(b)(iii),flow releases co-
ordi nated with freezeup and breakup wi 11 be the deter-
mining factors in'maintaining early plant successional
stages downstream.Flow rel eases requi red for fi shery
impact mit i gati on wi 11 not necessari ly correspond with
these times (Section 2.4).Considerable attention will
be given to the magnitude and timing of mitigative flow
releases during detailed operations planning.
W-3-170 Paragraph 2:We have assumed that nonessential portions of
the di sturbed areas wi 11 be promptly rehabil itated.Pl ease
specify.
Response
Quantification of areas to be rehabil itated after dis-
mantling of the construction camp and temporary portions
of the village is provided in the revised report.
i,pllll
W-3-171 (b)Devil Canyon Development
i Construction:Paragra h 1:Our comments relative to the
Watana development Section 3.4(a)[ii])mitigation apply here
also.An additional mitigation need is monitoring and en-
forcement relative to ORV and unauthorized access uses.Spoil
disposal described here was not discussed or previously
covered in the impacts Section 3.3(b)(i).
Response
The appropriate revisions have been made.
W-3-172 under Watana
Response
Please refer to the corresponding responses.
W-3-173 (c)Access
(i)Construction:Paragraph 1:Please clarify why avoidance
of closed forests was termed as a mitigative measure in siting
of the Denali Highway to Watana access road.Section 4.4(b),
paragraph 2 supports this siting regarding minimization of
project impacts to pine marten.If this is the reason,that
reference should be made here and further information is
necessary on other spec i es adversely affected by ,thi s sit i ng
and adverse/beneficial impacts of alternative sftings which
were e 1imi nated.Wetlands will need verifyi ng per our pre-
vious comments (Section 3.4(a)[i]).At least one line of this
paragraph was omitted.
Response
Avoidance of closed forest by access routing is cited as
a mitigative measure because of avoidance of impacts to
pine marten and bird species which utilize this vegeta-
tion type.Appropriate references have been incor-
porated.It is recognized,however,that closed forest
may not be more valuable than shrubland or tundra where
other species are concerned,and the tradeoffs are dis-
cussed in the wildlife mitigation plan (Section 4.4).
cussed in the wildlife mitigation plan (Section 4.4).
As a botanical resource in itself,closed forest is not
necessarily more or less valuable than any other vegeta-
tion type,but less total clearing of vegetative biomass
is achieved by avoiding closed forest,as noted in the
revised text (Section 3.4.2[a]).
W-3-174 Paragraph 3:We refer you to our previ ous comments on wet-
lands,Sections 3.2(a)(vi)and 3.4(a)(i).
Response
Please refer to the corresponding responses.
W-3-175 Paragraph 4:Information is too general.We concur with the
intent but do not have necessary specifics as to the extent of
mitigation which will be achieved.
Response
Considerably more detail is provided in the revised
text,including the introduction of side-borrow tech-
niques as a means to reduce gravel extraction require-
ments to an absolute minimum.An illustration of side-
borrow procedures has been incorporated (Figure E.3.83).
W-3-176 ~ii)Operation:The referenced management provisions should
e described here including busing of workers and restrictions
on non-project-related uses.
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Response
Management options for mitigating access-related impacts
during project operation are under review by the Alaska
Power Authority and will depend largely on inter-agency
agreements whi ch have not yet been reached.Busi ng of
workers during operation is not planned.Any restric-
t ions on non-project-re1 ated use of access roads by the
public will be consistent with management policies of
landowners and resource agenci~s with jurisdiction over
1ands surroundi ng the project.
W-3-177 Paragraph 2:The extent of mitigation which can be achieved
for many project impacts wi 11 depend upon the management op-
tions under review by the APA.In the APA Mitigation Pol icy
document and under NEPA guidelines,avoidance is to be the
first priority in implementing mitigation.Therefore,we re-
fer you to our previous correspondence on this issue (letter
to Eric You1d from FWS,17 August 1982)as part of our pre-
license consultation.In brief,the necessary avoidance
should include elimination of the Denali Highway to Watana ac-
cess road and prohi biti ng use of other project access routes
for non-project-re 1ated access.Instead,construct i on access
should be by rail from Gold Creek,along the south side of the
Susitna River to Devil Canyon,and access on the north between
the two dams.Non-project-re1ated use of these access routes
should be prohibited during project construction.A thorough
analysis should be provided here of public access from the
standpoint of adverse impacts to fish and wildlife and their
habitats in comparison to any positive impacts for recrea-
tional and subsistence fish and wildlife uses.
Response
The Alaska Power Authority Mitigation Policy and NEPA
guidelines do not indicate that avoidance of a project
feature for purposes of mitigating impacts to biological
resources must take pri ority over all other project-
related considerations.Recommended mitigation measures
and facil ities included in the cited correspondence are
discussed in the revised option analysis,(Section
3.4.2).Where a recommendation has been rejected,the
reasons are provided and the selected alternative mea-
sure or facility is then explained.Any analysis of im-
pacts to fish,wildlife,and their habitats in compari-
son to enhancement of recreational and subsi stence op-
portunities afforded by increased access wt11 indicate
that impacts to fish and wildlife wi 11i ncrease as
re,creationa1 and subsistence activities increase.In
reality,adverse impacts to fish and wildlife resulting
from increased non-project-re1ated human activity must
depend on .management decisions implemented ,cooperatively
by the boards,agencies,and landowners with jurisdic-
tion over the affected lands and resources.Management
options available to state,federal,and private enti-
ties are reviewed in Section 3.4.2 of the revised docu-
ment.Access-related management policies of the Alaska
Power Authority will be consistent with the policies of
boards,agencies and landowners with jurisdiction over
the affected lands.
W-3-178 We note some confl i ct between the statement that the APA is
reviewing a variety of access management options with the sug-
gestion that the project access route from the Denali Highway
Illay be eligible as a National Scenic Highway.That designa-
tion would stimulate public access to the increased detriment
of fish and wildlife,effectively foreclosing some mitigative
management options.
Response
The point of the referenced statement,as clearly
stated,is that National Scenic Highway designation
II wou ld entail restrictions on off-road vehicle use and
other potentially disturbing activities initiated from
the access road.1I
W-3-179 Paragraph 3:Please refer to our more extensive comments on
the Recreation Plan regarding consistency with fish and wild-
1 ife protection priorities.We strongly concur with the pro-
posal to monitor fish,wildlife,and vegetation,impact but
again note the report1s deficiency in not describing how and
by whom monitoring will be completed (see our General Com-
ments,Fi shery Section).Moreover,the process for mod ify i ng
project operations or the Recreation Pl an to better effect
mitigation is not described.
Response
We have revi ewed the referenced comments,but suggest
that protection of fish and wildlife is not the only ob-
jective of FERC requirements for a recreation plan.
Commitments for monitoring fish,wildl ife,and vegeta-
tion are discussed in in the corresponding mitigation
plans (Sections 2.4,3.4,and 4.4,respectively).At-
tention is given to the process by which the Alaska
Power Authority wi 11 modi fy project operat ions and re-
creational planning to achieve mitigation objectives
with respect to biological resources.
W-3-180 (d)Transmission
(i)Construction:Pl ease cl arify what criteri a were used for
siting of transmission corridors.Assurance is required that
project plans include construction by helicopter or winter ac-
cess.
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Response
The primary consideration in siting the Watana-to-Gold
Creek transmission corridor was to provide as nearly as
possible a common corridor with the access road,so that
an alternative de facto access route would not be
created along thetransmission corridor.Criteria for
the evaluation and selection of all transmission corri-
dor alternatives is provided in Chapter 10.Construc-
tion will therefore emphasize access from the adjoining
road.Construction by helicopter is no longer planned.
Winter access for construction will be considered during
detailed construction planning.
W-3-181 Paragraph 2:Again,refer to our previous comments on wet-
lands.We recommend minimum 150 m buffers between swan nests
and any portions of the transmission corridor.
Response
This recommendation will be considered during detailed
alignment determination.
W-3-182 (ii)Operation:We concur with this plan but are concerned
that it may not be implemented.We hope to avoid a repeat of
the Intertie situation where on-ground access was later guar-
anteed to the operating utilities contrary to residents'and
agencies'recommendations.That guarantee already contradicts
this plan,given the dependence and interrelationship of the
Susitna project with the Interti~.
Response
Access for maintenance of transmission corridors will be
ground-based and may occur at any time of the year at-
tention is required.In the corridor between Watana and
Devil Canyon,the adjacent access road will allow direct
overl and entry of mai ntenance equi pment across a di s-
tance rangi ng from about 0.1 to 1.2 km (up to 0.75
mile).Where nearby road support is not available,
equipment will be transported from the point of entry
along the corridors themselves.Equipment will be
mounted on flat-tread or balloon-tire vehicles to mini-
mize soil or ground-cover disturbance.As explained in
the revised text,the area directly beneath the lines
and to about 1.5 m (5 ft)on each side will be cleared
to about 0.75 m (24 inches)above ground level.Trees
and tall shrubs will be removed only where they present
an obstruction or hazard to lines or towers.
W-3-183 Since habitat manipulations,including fire,crushing,etc.
(Section 4.4(a)[i]and [iv])are being suggested as a prime
mitigation measure for wildlife,we recommend that potential
effects of those activities on vegetation types within differ-
ent project areas be discussed here.The potential value for
mitigation of various habitat manipulations should be ex-
plained similar to the discussion on fire,Section 3.2{a){ii).
Response
A discussion of the effects of controlled burning,
clearing,and crushing on various vegetation types has
been incorporated in Section 3.4.2.
W-3-I84 Two additional items which should be covered in this mitiga-
tion plan are the monitoring and surveillance plans referred
to earl ier and an erosion control pl an specific to project
features and schedules.
Response
Monitori ng as an impact-reduct i on measure is di scussed
in Section 3.4.2.An erosion control plan specific to
project features,soil and terrain types,and construc-
t ion schedul ing wi 11 be prepared during detail ed engi-
neering design.
W-3-I85 Specific comments on tables and figures relative to the Botan-
ical Resources Section follow:
Response
Comment noted.
W-3-I86 Table W3:Please change in accord with our recommendations
under Section 3.I{c),to "Candidate endangered and threatened
plant species",etc.
Response
The requ~sted change has been made.
W-3-I87 Tables W5 tnrough WI9:We suggest including a footnote or ap-
pendi x briefly descri bi n9 how these data were coll ected with
some explanation of whether sampling intensity was commensur-
ate with the availability of the vegetation type within the
project area and potential for that type to be impacted by the
project.
Response
Sampling methods are described in a new addition to the
botanical resources baseline dscription (Section
3.3.2{a)),and sampling locations are shown in new Fig-
ures E.3.34,E.3.79,and E.3.80.Sampling intensity was
greatest in areas of high impact potential.
W-3-188 Tables W21 through W23:The number of sites sampled in each
type should be included.As in our comments on the text,in-
formation should be provided on how these categories compare
with the vegetation categories sampled within the upper
Susitna basin.
Response
The requested information is provided in Section
3.3.2(a)and Table E.3.50.
W-3-189 Tables W24 through W26:Please clarify whether the 400 to 500
foot right-of-way or 110 foot cleared centerline area was used
in these calculations.Per our previous comment on the trans-
mission corridor,a similar table for the Intertie portion of
the transmisson corridor should be included.We also suggest
a summary tabl e showi ng the vegetation impacts from all seg-
ments of the transmission corridor.
Response
Actual right-of-way widths likely to be affected by con-
struction were used in the referenced calculations,as
follows:
2 towers wide =91 m (300 ft)
(Watana to Devil Canyon,Anchorage to Fairbanks)
4 towers wide =155 m (510 ft)
(Devil Canyon to Gold Creek)
Areas or vegetation types within the Willow-to-Healy in-
tertie corridor are provided in Table E.3.79,based on a
uniform right-of-way width of 91 m (300 ft).
W-3-190 Please refer to our comments in the text on need for an addi-
tiona 1 t~b 1e s howi ng vegetat i on types to be impacted by all
access corridors,preliminarily identified borrow areas (e.g.
borrow area G is not included in Table W28)and spoil areas.
Where questions remain on the size of borrow/spoil areas to be
used or the necessity of all potentially identified areas,
notation should be made of potential maximum and minimum sizes
and any ordering regarding use of these areas.
Response
Additional Tables E.3.80,82,83,84, 85,and 86 show
areas of vegetation types to be affected by all prlject
facilities quantifiable by area and location at this
time.
W-3-191 Figure WI:Granted,it is difficult to reproduce such a map
at this scale.However,we recommend it larger reproduction be
included in the final application.That map should include an
overlay showing reservoir inundation areas,access roads,
transmission corridors,and other project features.A corres-
ponding map of downstream vegetation and overlay of transmis-
sion corridors is also needed.
Response
Figure E.3.40 is reproduced in large format as a poc-
keted enclosure in the revised Exhibit E.This figure
shows vegetat i on types of the Wa tana and Gold Creek
watersheds (formerly Upper Susitna Basin)at a scale of
1:250,000 (McKendrick et ale 1982).
W3-192 Figure W3:Once the remapped vegetation classification is
completed,it should be correlated to this table to quantify
potent ia1 vegetation changes and types over the 1ife of the
project.
Response
We concur and foresee use of the remapped vegetation
types as allowing not only refinements of impact quanti-
fication,but also more precise input to design engi-
neers during detailed siting studies.
W-3-193 Figure W4:As above,this figure should be a basis for anal-
yzing downstream successional trends given the projected
longer times between floods.Maintenance of habitat manipula-
tions should be specified on the basis of this figure and
mitigation objectives.
Response
This recommendation has been noted.
-
CHAPTER 3 -SECTION 4 -WILDLIFE
W-3-194 4.1 Introduction:We recommend expanding this section to at
least acknowledge the ecological values of all wildlife spe-
cies,as well as to more clearly outline objectives of the re-
port and resultant mitigation plan.We again point out the
need for an overall discussion of fish,wildlife,and botani-
cal resources,overall mitigation plans,and tradeoffs in
benefits to some resources at the expense of others.
Response
This section has been expanded to explain the treatment
of various species of wildlife.
W-3-195 (c)Species Contributing to Recreation,Subsistence and Com-
merce:Not only birds,but all wildlife species in the proj-
ect area contribute to non-consumptive forms of recreation.
Incidental viewing ofw"ildlife in conjunction with other ac-
tivities is an unquantifiable but well documented value.For
example,the importance of downstream fish and wildlife habi-
tats to fish,wildlife,and the significant numbers of people
using them has been recognized by the State and agreed to by
the Matanuska-Susitna Borough Assembly.Fish and wildlife
have been designated a primary use on every State land manage-
ment unit on the east side of the Susinta River from Cook In-
let to just below its confluence with the Kashwitna River.
These management units and state guidel ines for protecting
fish and wildlife are described in the recent State report,
Land Use Plan for Public Lands in the Willow Sub-basin,Octo-
ber 1981,by the Alaska Department of Natural Resources,
(ADNR),Ma tan us ka-Su si tn a Bo roug h,and ADF&G.
Response
Incidental viewing in conjunction with other activities
is an unquantifiable value which "increased access will
facilitate.This impact is therefore treated superfici-
ally throug hout.Current use of upstream areas is ex-
tremely low.Downstream from Talkeetna,where access is
less prohibitive,a larger number of users may currently
view wildlife incidentally.However,the project is not
anticipated to negatively impact "incidental viewing in
this area.
W-3-196a A discussion as to why the evaluation species were selected
and prioritized as described here is as applicable to terres-
trial wildlife species as it is to fish (Section2.1[d]).We
suggest referencing that discussion here.Such infonnation is
particul arly important with regard to mitigation pl ans for one
species which confiict with another species.
Response
See paragraph 1 and 2 of Section 4.1,and Sections 4.1.2
and 4.1.3.With regard to confl icts in mitigation
pl an s,see Secti on 4.1,parag raph 2.
W-3-196b We also suggest noting values of key bird species,i.e.bald
and golden eagles have received national protection (Bald
Eagle Protection Act,16 U.S.C.668-668c);trumpeter swans are
highly valued because of their former endangered status;and
other mig ratory birds are protected under internati onal
treaties and the Migratory Bird Conservation Act (16 U.S.C.
701-718h)•
Response
This section has been expanded,and specifically men-
tions the value of eagles and trumpeter swans.Most
bird species in North America are protected under inter-
national treaties and the Migratory Bird Conservation
Act.However,we do not feel that this protection just-
ifies the prioritization of these bird species over
other species not similarly protected.Also,please
note that trunpeter swans have never been endangered in
Al aska.
W-3-197 Please note,all references to tables in the wildlife section
of the text are to table numbers one greater than the actual
table.We have referred to tables as they are actually
n lJllbered.
Response
This has been corrected.
W-3-198 4.2 Baseline Descri tion
a B1g Game
1 oose:
-Distribution:Please document how moose are Il one of the
most economically important wildlife species in the region;1l
also see our comments on Chapter 5,Section 3.7(b).
Response
See Section 4.2.1(a)(i)paragraph 1 Ilbecause of their
regional contribution to subsistence ••••11 See Chapter
5.
W-3-199 •Special Use Areas:In view of your
winter range is a key area for moose
•Seasonal Movements:Paragraph
•Mortality Factions:Paragraph 5;
repeated citations that
(e•g.Sec t ion 4.2(a)(i )
6;Section 4.2(a)(i)
and Section 4.3(a)(i)
•Winter Use,we suggest including a section here on the use
and availability of winter range in both severe and mild
winters,as well as the data gaps and plans to overcome them
relative to this study.Maps showing use areas described here
relative to project features would clarify this section.
Response
See Section 4.3.1{a)(i)paragraphs 4-7.See Section
4.3.1(a)(iii)for treatment of data gaps.
W-3-200 Calving Areas:Paragraphs 3 and 4:Numbers of male and fe-
male moose radio-collared in each of the downstream study
areas should be described here.
Response
Male moose do not calve.Sample sizes are given in Sec-
tion 4.2.1{a)(i)under -Seasonal Movements,paragraph
8 and -Special Use Areas,paragraph 3.
W-3-201 •River Crossings:To better understand how not only the
reservoirs,but ancillary project features such as the Devil
Canyon camp and village,may also influence moose crossings of
the Susitna River,crossings both immediately up and down-
stream of the impoundment areas should also be described (also
see our comments under Section 4.3{b)(i)-Interference with
Movements).
Response
No interference with moose cross i ngs upst ream from the
Watana reservoir will occur since no facilities or other
project-i nduced obstacl es will be located there.Si nce
the Devil Canyon reservoir will extend upstream to the
Watana damsite,your statement pertains only to the area
immediately downstream from the Devil Canyon damsite.
The Susitna River adjacent to the Devil Canyon damsite
is bordered by steep canyon wall s whi ch physically pre-
vent moose crossings.No moose crossings have been
documented in thi s area;thi s has been noted in the
river crossing discussion.
W-3-202 -Habitat Use:The main problem with this and the following
section on populations is that there has,apparently,been no
integration of moose and vegetation data.
W-3-203
method for evaluating the relative importance of vegeta-
tion types in the Susitna Basin and el sewhere in Al aska
is being developed.This method is described in Section
4.3.1 (a)(i i i)•
•Cover Reruirements:Paragraph 7:Please describe the scope
and schedu e for the necessary studies of habitat use,or ref-
erence the discussion under Section 4.3(a)(i)-Quantifica-
tion of Project Effects.Correlating aerial observations to
the remapped vegetation types should provide additional infor-
mation on habitat use.Elevation,slope,or other habitat
parameters may also need to be incorporated in this analysis.
Response
Section 4.3.2(a)(iii)outlines the approach for evalua-
ting the rel ative importance of vegetation types in the
Susitna Basin.
W-3-204 Habitat Use in the Upper Susitna Basin:Paragraph 3:Further
information is needed on the understories associated with
these habitat types.Please indicate when such information
will become avail abl e.
Response
See Tables E.3.89, E.3.90,and E.3.91.Mapping of vege-
tation,including understory classifications in open and
woodland forest stands,will be conducted in 1983.
W-3-205 Habitat Use in the Lower Susitna Basin:Paragraph 2:For
consistency,the nLl11ber of female moose radio-col fared north
of Talkeetna should be provided,also see our comments under
this section,Calving Areas.The discussion is confusing due
to frequent combining of quantitive data with qual itative
statements such as IImost female use ll
,lI a t most relocation
sitesll
,etc.Where it is available,we recommend supplying
quantitative information,with qualifying discussions on
1 imited sampl e si zes,periods of observations,etc.
Response
see Section 4.2.1(a)(ii)paragraphs 1l-13~See also
discussion in paragraph 3 of the introduction.
W-3-206 •Food Habits:Paragraph 2:Again,please describe the scope
and schedule of ongoing analyses and how that information will
be integrated into mitigation pl anning in a timely manner.
Reference to your Section 4.3(a)(i)-Quantification of
Project Effects will provide some of this lnformation.
Response
The food habits discussion has been expanded to include
data coll ected in 1982.The scope and schedul e of addi-
tional food habits work is found in Section 4.3.1(a)
(iii).
W-3-207 Paragraphs 4 and 5:We suggest examining how browse avail-
abil ity and vegetation types util i zed by moose correl ate with
moose rel ocati ons in reference to the remapped v egetati on
types.
Response
Thi s analysi s woul d be inappropri ate because of sampl ing
biases during moose captures and tel ocati ons,and be-
cause of the probl ems described in Section 4.2.1(a)
(ii),paragraphs 6 and 7.The approach outlined in Sec-
tion 4.3.1(a)(iii)will provide more meaningful re-
sults.
.....
W-3-208 •Home Ranges
The Upper Susitna Basin:The rational should be given for
sel ecting an 8 km wide analysi s zone adjacent to the impound-
ment.
Res.ponse
This distance was arbitrarily selected by the Principal
Investigator of the moose stud ies based on moose home
range data.
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W-3-209 Lower Susana Basin:Paragraph 2:Pl ease desc ribe or refer-
ence the scope and schedule for continuing studies.We recom-
mend giving some consideration to the relative habitat values
of all river study areas.
Response
The resul ts of radio-tracking studies and bi-weekly
winter river surveys conducted in 1982 will be available
in June 1983.Study pl ans for additional field studies
beyond that date are still being formulated.
Studies conducted since 1980 have included the entire
Susitna River from its source in the Alaska Range to its
mouth at Cook Inl et.Because of the 1 arge si ze of thi s
study area,more i nten siv e work has been conducted at
representative sites along the river floodplain.
W-3-210 -Population Characteristics
•Historical Population Trends:Paragraph 1:An overlay of
project features on ~the map of count areas (Figure W6)is
needed.
Response
A map showing project features is included in the impact
section.For purposes of clarity and consistency,proj-
ect features are not included on figures in the baseline
sections •
W-3-211 Paragraph 2:Substantiating population and productivity data
in Tabl es W32 throug h W34 shoul d be referenced here.
Response
These tables have been referenced in Section 4.2.1(a)
(iii)paragraph 1.
W-3-212 •Population Estimates -Upper Susitna Basin:Please describe
what types of habitat correlatlons can be made from remapped
vegetation types and other habitat parameters for low,high,
and moderate moose density areas.
Response
Stratification of census areas is a statistical method
of reducing sample variance by subdividing the census
area into subareas with rel atively homogeneous moose
densities.Densities within strata are rel ative val ues
within a particular census area only.Stratification is
based on a subjective evaluatiorl""'Of"moose densities de-
rived from whatever clues to density are available,in-
cluding prior knowledge of the area,observations of
moose or moose sign during strati fication fl ights,and
habitat characteristics.However,habitat characteris-
tics alone may not give accurate stratification data,
parti c ul arl y when den sitie s are non-un Horm.Therefo re,
strata designations of high,medium and low density may
be unrelated to vegetation types and certainly should
not be used for correlation or extrapolation to assess
habitat use patterns.
W-3-213 •Population Estimates -Lower Susitna Basin:Paragraph 2:
Please describe differences between habitats up and downstream
of Montana Creek.
Response
See Section 4.2.1(a),paragraph 1.
W-3-214 •Mortality Factors:paragraph 1:We recommend describing
how range qual ity has been decreasing.
Response
See discussion in paragraph 1:"decreasing range qual-
ity •••thought to be less important ••••11 However,
range quality may be decreasing because fire suppression
reduces the frequency of creation of early sucessional
habitat.Nonetheless,moose are likely to be below
carrying capacity even considering any reduction in
range qual ity,for reasons discussed in the above refer-
enced and foll owing parag raphs.
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-
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W-3-215 Paragraphs 2 through 4:Please describe the comparability of
brown bear populations and habitat types between the Nelchina
and Susitna River basins.
Response
The referenced calf mortality studies were conducted in
the Nelchina and middle Susitna River Basins.This has
been clarified in the discussion.Predation patterns
and bear movement data collected during the studies in
1977-1979 were similar to those found recently in the
Watana watershed.The two study areas overlap each
other considerably and therefore the habitat types and
brown bear populations are similar.
W-3-216 We recommend expanding the discussion to include hunting as a
morta 1 i ty factor.Both recreat i ona 1 and subs i stence hunt i ng
can affect population size and structure.Hunting figures
prominently in later impact discussions.Historical hunting
effort and success data relative to changing management regu-
1 ations should be described,and coordinated with Chapter 5.
Pl ease also refer to our comments under Chapter 5,Section
3.7(b).
Response
This is discussed in Chapter 3,Section 5.
W-3-217 (ii)Caribou
-Distribution and Movements Patterns:Paragraph 6:Please
describe below how many animals were radio-collared and the
numbers of radio locations made for each one.
Response
See Section 4.2.1(6)paragraph 3.Number of radio-
locations for each individual are available in ADF&G
1982c,appendix 1.
W-3-218 Figures W9 and WID of caribou radio locations should include
the locations of project features.
Response
Project features are not shown on figures in the base-
l ine section for clarity and consistency.See Figure
E.3.37 for major features.
W-3-219 -Habitat Use:Please clarify whether aerial observations or
an overlay of radio locations on existing vegetation type maps
were used to determine caribou use of different vegetation
types.A correlation should be provided for the proportion of
the basin which is in each type relative to the type (Table
W36).Pl ease di scuss whether vegetati on remappi ng .efforts
will affect the interpretation of caribou data.
Response
See Section 4.2.1(c)(iii)paragraph 1.Basin vegetation
coverage is presented in Table E.3.51.Habitats used by
caribou are widespread and a very small proportion of
total range will be lost to the Susitna project (see
Section 4.3.2(c)).Habitat loss is not considered a
significant impact and greater emphasis is placed on
more important a spects of ca ri bou ecology.No add i -
tional interpretation of caribou vegetation relation-
ships is planned.
W-3-220 -Population Characteristics:Paragraph 1:This section
should reflect present and future management plans and be con-
sistent with Chapter 5,Section 3.7(b)(ii).
Response
See Section 4.2.1(c)(iv)paragraph 1.Future changes in
management plan's will refl ect the abil ity of the re-
source to sustain harvest and the demand for harvest op-
portunities,and will be determined by the Alaska Board
of Game.This is beyond the control of the Alaska Power
Authority to predict or control.
W-3-221 Paragraph 10:Changes in the number of permits from 1972 to
1982 shoul d be descri bed and percents of the herd harvested,
by year,included in Table W38.
Response
Permit controlled hunts were begun in 1977.Number of
permits issued since that date are given in Section 4.5.
Data on harvests from 1972 to 1981 appear in Tabl e
E.3.104 and total herd size estimated in years for which
an estimate was made appear in Table E.3.103.The per-
cent of the herd harvested each year has been added to
Table E.3.104.
W-3-222 Paragraph 11:Please tabulate data on wolf population,wolf
predation,and caribou numbers from 1957 to 1981.
Response
A summary of this relationship is provided in Figure
E.3.96.More information on wolf populations appears in
Section 4.2.1(g).
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W-3-223 (iii)Oall Sheep
-Oi stri buti on:Paragraph 2:We recommend i ncl udi ng maps
which more speci fi cally del tneate seasonal sheep use of the
Susitna basin relative to project features.
Response
Maps showing project features are not included in the
baseline sections for reasons of clarity and consis-
tency.The information given in the text is considered
adequate •
W-3-224 Paragraph 5:We recommend further justification be provided
to support the conclusion that impacts from the impoundments
will be minor.Clarificati on of where the sheep winter and
of sheep movements between seasonal ranges should be provided.
Response
Sheep studies in the Susitna Basin have been conducted
for over 15 years.There is no evidence that sheep
cross the Susitna River,and the populations found north
and south of the river are considered distinct.Con-
sidering the topography of the project area,and infor-
mation on sheep movements obtained in the Susitna Basin
and elsewhere,it 'is extremely unlikely that the im-
poundments will interfere with normal sheep movements.
The exception to this is in the vicinity of the Jay
Creek mineral lick,as discussed in the text.
W-3-225 Paragraph 6:Reference shoul d be provided for the judgment
that the sheep population has remained stable or slightly in-
creased.
"...
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....
W-3-226
Response
Thi s statement was made by AOF&G i nvesti gators and has
been referenced in the application.
Paragraph 8:Please provide a map of the Jay Creek mineral
lick,and probable travel corridors to the area,relative to
the Watana impoundment.We recommend prOViding historical
harvest data and explaining how project surveys relate to area
populations •
Response
Intensive ground observations at the Jay Creek lick will
be made in April-June 1983.The results will be pro-
vided when they become available.Historical harvest
data have been discussed in Section 5.The relationship
between project surveys and area populations is 'de-
scribed in Section 4.2.1(c)paragraph 1,and in Section
4.2.1(c)(i).
W-3-227 (iv)Brown Bears
-Distribution:We recommend providing data on the numbers of
bears radio-collared and radio locations made,as well as maps
of those radio locations relative to project use.
Response
These data have been Added to Se ct ion 4.2.1 (d)(i)•The
analyses of home range overlap included in the text were
felt to be more informative than a map of radio loca-
tions,and no map has been included.
W-3-228 -Habitat Use:Paragraph 2:Please describe whether aerial
observations or vegetation type maps were used to determine
vegetation types relative to brown bear radio locations.An
explanation should also be provided of how more detailed vege-
tation data and the vegetation remapping efforts will be inte-
grated with the analysis of brown bear habitat use.
Response
Vegetation types were recorded during relocation
flights;this has been clarified in the text.The util-
ity of additional vegetation mapping and ground sampling
to brown bear research is bei ng di scusse d,but there
are currently no pl ans to expand on the habitat use
analyses already provided.
W-3-229 •Home Range:Paragraph 1:Pl ease correct the referenced
Table W42 which lists data from project studies in the
Susitna,not the Nelchina basin.
Response
The referenced data were collected in both the Nelchina
and Middle Susitna basins.This has been clarified in
the table.
W-3-230 Paragraph 2:An explanation should be provided as to why 1.6
km and 8 km were chosen as the breakdown for study zones
around the impoundments.
Response
These di stances were arbitrarily sel ected by the Pri n-
cipal Investigator for bear studies for purposes of a
quantitative analysis.
W-3-231 Paragraph 4:Please describe data on bear radio locations
relative to access roads,transmission corridors and ancillary
project features.
-
Response
The potential impacts of these facilities are discussed
in Sections 4.3.3 and 4.3.4.See also the brown bear
summary section in 4.3.5.
W-3-232 (v)Black Bears
-Distribution:We recommend including maps of bear radio lo-
cations relative to project features.
Response
The analysis of home range overlap with project features
as included is more informative than a map of radio lo-
cations,and no map has been included.
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W-3-233
W-3-234
-Habitat Use:Please describe how further vegetation studies
and remapping will be integrated with the analysis of black
bear habitat use.
Response
See response to this statement under brown bear,above.
Food Habits:The scope,schedule,and integration of ongo-
ing predation studies relative to further project planning
should be addressed here •
Response
Study plans for fiscal year 1984 are being developed in
conjuncti on with invest i gators and agency representa-
tives.These studies have not yet been finalized.
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W-3-235 (viii)Belukha Whales:Please note that several of the refer-
ences cited here do not appear in the bibliography.
Response
The bibliography has been completely revised and edited.
W-3-236 -Distribution and Habitat Use:Paragraph 5:We suggest
integrating data on chinook salmon from the fisheries studies
in order to obtain some estimate of the importance of that
fishery and of project impacts to the fishery on be1ukha
whales.Please also describe what data wi11 be gather ed on
smelt for better evaluating project impacts on belukhas.
Response
As discussed in Section 4.3.1,belukha whales will not
be measurably affected by anticipated reductions in sal-
mon populations during the period when whales concen-
trate at the river's mouth.Smelt studies conducted in
1982 found that the upstream 1imit of the elll achon
spawning migration is near RM 48.0,and that the habitat
requi rements necessary for eul achon spawni ng were quite
broad.Eulachon were seldom found in areas of low
water velocity or backwater or eddy habitat zones.
Additional eulachon and salmon spawning data will be
available in June 1983.
W-3-237 (b)Furbearers
(i)Beavers:We recommend including a map of the study area
which details specific study sections,available density data,
and representative main channel,side channel,slough,and
clearwater areas.The discussion should be expanded to cover
the extent to which suitable beaver habitats are fully util-
ized or explanations where they are not.
Response
The study area is described in sufficient detail in the
text,Section 4.2.2(a)(i)paragraphs 2-3.Maps with the
landmarks mentioned appear in Figure E.3.101.Available
density data appear in Tables E.3.118 and E.3.119.Bea-
ver habitat studies are continuing;additional data will
be provided in June 1983.
W-3-238 Paragraph 4:We recommend investigating the extent to which
bank lodges are used by beaver and to which the activity
levels reported in Table W53 may be underestimated.An on-
ground survey when beavers come out of thei r dens to forage
just before spring break-up could verify such use.
Response
Fall surveys of caches are a more effective means for
providing data on beavers which use bank dens.This was
attempted in 1982,but summer fl oodi ng had destroyed
many food caches.Study plans for additional investiga-
tions are being formulated.
W-3-239 Para~raph 8:Further quanti fi cat ion shoul d be provi ded on
trapplng effort and success,see our comments under Chapter 5,
Section 3.7(c).
Response
Records of effort and success are not available.
....
r
W-3-240 (in Muskrat:Paragraph 2:Please clarify whether the 106
1akes surveyed contitute all the lakes between the Oshetna
River to Gold Creek impact area.Please relate this discus-
sion to the number of muskrats potentially inhabiting this
area.
Response
The text has been changed to indicate all lakes within
4.8 km of the river.It is impossible to relate number
of pushups to number of muskrats and we suggest that the
number of 1akes with resi dent muskrat is the best pos-
sible index of muskrat density.
W-3-241 Paragraph 3:Please provide an indication of downstream musk-
rat populations and habitat quality.
Response
The text has been altered to indicate availability and
characteri st i cs of muskrat habitat.Muskrat si gn,as
....reported in the text,is the only available index to
population size.
W-3-242 Paragraph 4:Please quantify present and historical trapping
effort/success.
Response
Such data are not available.
W-3-243 (v)Marten
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-
-Population Characteristics:Paragraph 2:No data is pro-
vided to substantiate that pine marten are the "economically
most important furbearer,1I or to relate densities to popula-
tions and habitat quality.Please also refer to our comments
under Chapter 5,Section 3.7(c).
Response
Gipson et a1.(1982)indicate that pine marten are eco-
nomi cally the most important furbearer in the impound-
ment zones.Few other furbearers are regu1 ar1y sought
in the area.An index to habitat preferences and den-
sity in various vegetation types is provided by snow
track data which appear in Tables E.3.121 and E.3.122.
W-3-244 (vi)Red Foxes
-Habitat Use
•Denning Habitats:Please provide information on the density
of fox dens relative to habitat quality,and to other Alaskan
and/or North American fox populations.
Response
It is unlikely that all fox dens ,in the study area were
located (see Section 4.2.2(f)(i}paragraph 3 and Gipson
et ale 1982).This is true in most red fox study areas.
A comparison of densities woul d be misleading .at best.
Fox popul ati ons are generally not 1imited by den site
availability and den site location has little direct
relation to habitat quality per see Appropriate denning
habitat as characterized in the text is widespread in
the study area.Den sites are relatively small and can
be found in micro-habitats of many vegetation and
terrai n types.
W-3-245 Paragraph 5:Some explanation should be provided for the dis-
parity of more fox tracks on the south side of the river but
more dens on the north side •
Response
The text has incorporated more information on this dis-
crepancy.See Section 4.2.2(f}(i}paragraph 2.
W-3-246 -Food Habits:Paragraph 3:The postulated 1 ink between fox
and hare popul ati ons may be overstated.Apparently hare num-
bers have never been high or an important food source for fox
in this area (Furbearer Study Coordinator Phil Gipson,per-
sonal communication;also see Section 4.2(b)(vii):Paragraph
3 and Section 4.3(a}(xiii}:Paragraph 5}.
Response
Gipson et al (1982)state,"Several investigators have
found that snowshoe hares are a very important component
in the diets of red foxes.Snowshoe hares are presently
scarce in the Susitna study area and therefore relative-
ly unimportant in the diets of foxes."We postulate the
presence of hares in the basin would increase the avail-
able prey base and obviate the necessity of foraging for
ptarmigan at higher elevations in winter.Very little
historical information is presented by either Gipson et
ale (1982)or Kessel et ale (1982a)on snowshoe hares.
However,both sources indicate a probable chronic scar-
city of hares in the basin which we reference in the
paragraph in question and in Section 4.2.2(g)and ~.2.4.
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W-3-247 -Population Characteristics:Please refer to our previous
comments under Dennlng Habltats rel ative to habitat qual ity
(Section 4.2(b){vi)-Habitat Use).Again,trapper effort and
success shoul d be documented,al so see our comments on Chapter
5,Section 3.7(c).
Response
ftl1 objective measure of hab itat quality fo r red foxes
does not exist.The concept of habitat in itself is
problematic.Habitat is the place where a particular
organism is found.Characteristics of an area which
determine whether or not it's habitat include a multi-
tude of considerations,particularly for a complex and
highly mobile species,and particularly for higher order
carnivores and opportunistic species.The utility of
defining and evaluating an area as habitat of high or
low quality irrespective of its use is questionable,
although it may be of great theoretical interest.
Indeed,it is dangerous for a manager or consultant to
pretend to be capable of precisely estimating the abil-
ity of an area to support populations of all species
based on a few simpl e measures of vegetation character-
istics used as indicators of supposedly high,medium or
low qual ity habitat.For red foxes in particul ar,prey
avail abil ity varies week to week,season to season and
year to year as small mammal popul ations ri se and fall,
and migratory bird populations arrive,nest and leave.
Red foxes are residents of a very wide range of habitats
in North America and Eurasia and their ecology varies
dramatically from site to site.While we can say that
fox den sity is rel ated to hab itat qual ity (by defin i-
tion)we cannot objectively identify good qual ity habi-
tat and accurately predict fox density.
No data are avail ab 1e on trapper effort and success.
Fur records for GMU 13 do not accuratel y refl ect the
actual location of take.However,harvest data have
been added to Section 4.2.2(f)(ii).
W-3-248 (vii)Lynx through (x)Least Weasel:We understand that none
of these species were chosen as high priority for eval uating
proj ect impacts.However,we recommend prov id ing some quanti-
fication for the descriptions of IIfairly numerous ll but not
IIlimited,1I IIlocall y abundant,"and "sparse,1I in addition to
trapper effort/harvest;al so see our comments on Chapter 5,
Section 3.7(c).
Response
My attempt at quantification beyond track counts given
in Table E.3.121 for marten,fox,short-tailed weasel,
mink and otter,and those given in the text for lynx and
least weasel would be sheer conjecture.The qualitative
terms used above are sel f-expl anatory and no further
information should be read into them.
W-3-249 (c)Birds:Paragraph 2:Please note that waterfowl breeding
pair surveys have been conducted by FWS in the lower Susitna
River basin for over 20 years.12 The FWS has al so con-
ducted statewide surveys for trt.rnpeter swans in 1968,1975,
and 1980.13
Response
Pl ease note that trunpeter swan surveys were in the far
eastern edge of the basin and did not cover the project
area.They therefore provide no appl icable data.
Breeding pair surveys are restricted to three transects
in the extreme lower floodplain.No impacts to water
birds are anticipated in the regions covered by those
surveys.
W-3-250 Paragraph 3:We recommend further information be provided on
how relative abundances of bird species were determined.
Please clarify the difference between 60 percent of the area
being in shrublands,as cited here,with the just over 40 per-
cent in shrublands,as cited in Table W4.At the August 1982
AEA Workshop on the project,much discussion centered on pro-
blems with correlating the bird habitat classification scheme
used by Kessel et ale for project bird studies with the
Dyrness and Viereck Alaskan vegetation classification system
used for project baseline vegetation maps.We recommend des-
cribing those problems here and how they will or will not be
overcome by ongoing vegetation remapping.Throughout the bird
sections of the draft appl ication,we are concerned that
sources(s)for referenced data,or data manipulations,may not
be fully documented.Thus,we recommend describing where and
how data from more than one source has been manipulated for
this report.In particular,the tables and figures should be
more completely referenced,including explanatory footnotes.
Response
The text has been revised.
W-3-251 (i)Raptors and Raven:Paragraph 1:We are concerned that
1980 and 1982 raptor surveys were not conducted at the optimum
time:i.e.summer foliage would make it difficult to ini-
tially locate nests (we note that 50 percent more nests were
found in 1981 than in 1980);according to Table W60,nesting
raptors will have fledged their young by 30 September making
it difficult to determine nest activity in October.Please
indicate the experience of observer(s)conduct"ing the raptor
surveys and methods used,(e.g.whether surveys were by he 1 i-
copter or fixed-wing aircraft).We al so recommend that maps
of actual nest locations be included.We note that goshawk
nests are often difficult to find by air and thus question
whether the number of nests cited here is a thorough assess-
ment.Pl ease cl arify in the text whether all raptor nests ac-
tive in 1980 were al so active in 1981.
-
-
Response
No raptor surveys as such were conducted in 1982,with
the exception of a bald eagle survey of the lower
Susitna River floodplain,and reference to an October
survey as such has been deleted.This error arose
because a short hel icopter fl ight was made on
October 16,1982,in a prel iminary attempt to recheck
elevations of some nesting locations using the aircraft
al timeter (di screpanc ies were found between orig inal
survey maps and data presented in Kessel et al.1982a).
Because precise elevations of nests and cliff-tops rela-
tive to max imum impoundment fi 11 1evel s are in teg ral to
a sound mitigation plan,a survey to obtain this infor-
mation is planned for May-June 1983 using an American
Paulin precision Micro-Surveying Altimeter (or equiva-
1ent)•
Regarding timing of 1980 and 1981 surveys and personnel
and survey methods,survey methods for raptors are des-
cribed in Section 4.2.3.The 1980 survey by hel icoptor
was conducted by University of Al aska Museum personnel
(especially B.Cooper)with the inv ited assi stance of
Alan M.Springer (see Kessel et ale 1982a,p.8).Mr.
Springer is a biologist with approximately 12 years ex-
perience with raptors in Alaska including extensive
aerial surveys for cl iff-nesting species on the Seward
Peninsula in the early 1970s and 1980,and boat-based
surveys for peregrine falcons on the Porcupine,Yukon,
Colv ille and Tanana Rivers,Al aska since 1976.He has
al so conducted work on bat fal cons and peregrines in
South America.Mr.Springer was invited to participate
in the 1980 surv ey to beg in in st rue ti ng B.Co 0 pe r,Un i-
versity of Alaska Museum,in appropriate techniques,
because of his famil iarity with a wide range,and his
experience in looking for and identi fying raptors and
raptor nests from the air.
The 1981 survey by hel icopter was conducted by Univer-
sity of Alaska Museum personnel (especially B.Cooper)
with the invited assistance of D.G.Roseneau (see Kessel
et ale 1982a,p.8),a biologist with approximately 20
years experience wi th raptors in Al aska.Mr.Roseneau
devised and tested aerial survey techniques for cliff/
nesting gyrfalcons,golden eagles and rough-legged hawks
in northwestern Al aska in the 1ate 1960s whil e working
for the Alaska Department of Fish and Game.This tech-
nique subsequently came into regul ar use to cover 1arge
areas of habitat in Alaska,and has since been used by
several other raptor biologists (including T.Cade of
Cornell and C.M.White of Brigham Young),personnel of
the ADF&G,and personnel of other agenc i es (inc 1 ud ing
BLM).Mr.Roseneau,who also has considerable experi-
ence with Al askan peregrines and peregrine habitat,has
surveyed much of northern,northwestern and interior
Al aska for pereg rines and other raptors,and was inv ited
to participate in the 1981 survey to provide B.Cooper,
University of Alaska Museum,additional instruction in
the use of aerial techniques,to assi st in checking some
areas farther from the impoundment zones and to provide
additional advice on where peregrines might attempt to
nest.
Regarding assessment of goshawks,surveys in 1980 and
1981 were not designed to specifical ry incl ude goshawks
or other tree,ground or cavity nesting species (with
the exception of tree-nesting bald eagles)because nests
of many of these species are indeed very difficul t or
impossible to locate from the air,and because many of
these species occur throughout their breeding range in
very low densities (relative to other groups of birds,
incl uding passerines,waterfowl and shorebirds).Sur-
veys for many of the tree,ground and cavity-nesting
species require ground-based plot censuses (e.g.Kessel
et al.1982a)or other appropriate ground-based sampl ing
techniques in various habitat types.However,it should
be pointed out that in northern regions of Alaska beyond
the coastal zone dominated by such coniferous species as
sitka spruce,western hemlock and cedar,goshawks are
one exception to the general case.An experienced
aerial observer who is also familiar with this species·
nesting requirements and habits has little difficulty
locating a relatively large number of nesting terri-
tori es prior to 1eaf-out in the spring or after 1eaf--
drop in the fall (at 1east to the extent that a reason-
able assessment of general numbers present and relative
importance of sel ected areas can be made)(e.g.see
Roseneau and Bente 1981;see also />'cGowan,J.D.1975.
Distribution,Densiti and Productivity of Goshawks in
Interior Alaska.Fe.Aid in wildl.Restoration.Final
rep.W-1 7-3,W-1 7-4,W-1 7-5 an d W-1 7-6•Jo b No.10.6R •
3lp.).That point aside,and of more irnportance in the
specific case of the Susitna River drainage,it was
readily apparent after two years of survey that 1 ittl e
goshawk nesting habitat occurred in the middle and upper
basin (D.G.Roseneau and A.M.Springer pers.obs.).
Goshawks,north of the coni ferous-cov ered coastal areas
of Alaska (e.g.Prince William Sound,portions of the
Kenai Peninsula),predominantly prefer to build nests in
large,mature paper birch trees in stands of paper birch
or in stands of mature white spruce-paper birch wherever
it occurs (and especially on hillsides).Some nests are
also built in medium to large aspen trees,and very
occasionally in medium to large poplar trees.Use of
trees other than birch appears to depend in part on the
region (regul ar use of aspen occurs in one section of
the middl e Tanana Vall ey where very few birch occur),
......
and in part on the popul ation 1 evel of goshawks (gos-
hawks fluctuate markedly in nunber and productivity in
response to snowshoe hare cycles).In interior Al aska
most of the nestings that have occurred in aspen and
poplar have occurred during the height of a population
cycle (with the exception of a few areas where birch do
not occur~as mentioned above).In any event~reason-
able goshawk nesting habitat becomes very limited
upstream from Dev il Canyon in the Susitna vall eYe For
this reason~the few nests that have been found probably
are reasonably representative of the area in spite of no
formal surveys for them.The vast majority of suitable
goshawk nesting habitat is found below Devil Canyon
along the widening valley slopes.
We feel that including maps of raptor locations in what
wi 11 become a public doc ument serves 1 ittl e posi tiv e
purpose.Maps of the scal e which would be appropriate
to thi s document woul d not be accurate enoug h to base
engineering and other design changes on~or to help
determine accurate buffer zones to protect nesting loca-
tions from disturbance.Detail ed maps of the nesting
locations exist and are being provided to the Alaska
Power Authority for incorporation into engineering
design.Copies of these maps can al so be provided to
agencies for in-house use.
W-3-252 Paragraph 3:Please expand the discussion to more completely
describe the habitat suitabil ity of the project area for
golden eagles~given their apparent high density.
Response
The text has been revised.
W-3-253 Paragraph 4:Refer to our comment under Secti on 4.2(c)(i):
Paragraph 1 ~above,regarding the 1 ate timing of 1980 and
1981 surveys for nesting bald eagles.Please provide a
description of the survey methods used.
Response
See Section 4.2.3.Timing of surveys for tree-nest ing
location of bald eagles is much less critical than for
spec ies such as goshawks.Pre-l eafout surveys offer
some advantages in that some nests can be detected at
greater distances~and some nests that are not occupied
(i.e.inactive in the survey year)are easier to detect.
Some of these 1 atter nests can go undetected after 1 eaf-
out if the stand of trees is not carefully scrutinized.
On the other hand~in much of central Al aska (and the
upper and middle Susitna River basins are no exception)
many bald eagle pairs nest in white spruce trees;
pre-l eaf out surveys often provi de 1ittl e advantage in
detecting these nesting locations.In general,the
majority of bald eagle nests are conspicuous throughout
much of the year (even during the winter months)and
remain conspicuous even when foliage is present,because
the nest structure is large and exposed (i.e.conforma-
tion of the tree tops is an important feature of nesting
trees,and openness of the canopy is a requi rement of
the eagles,so that they may easily enter or depart from
the nest).Furthermore,the 1981 survey of the middle
basin occurred at a time (May 16-17)prior to advanced
leaf-out of poplar trees and visibility into and through
tree canopies was good (as planned on the basis of the
preliminary 1980 survey).
W-3-254 Paragraph 5:We recommend that discussion be provided rela-
t i ve to habi tat values re how Sus itna habi tats compa re with
those along the Tanana River where slightly lower nesting
densities are reported.
Response
The text has been revised.
W-3-255 Paragraph 7:Due to the status of the arctic peregrine falcon
(Falco peregrinus tundrius)as an endangered species under the
Endangered Species Act of 1973,as amended (16 U.S.C.1531-
1543,as amended),we are particul arly concerned with the
adequacy of surveys for them,e.g.peregrines would have
a 1 ready 1eft the area by October when the 1982 survey was
done.Thus,we agai n recommend descri bi ng how the surveys
were conducted annually,in early July,throughout proj ect
studies and construction,or until there is sufficient evi-
dence that peregrine falcons do not inhabit the project area.
Sufficient evidence would be no sightings over several years
of hel i copter surveys,by a reputabl e observer duri ng the
proper time of year.Observers should be individuals who have
worked with peregrine falcons.FWS review of specific times
and survey techniques would be appropriate.
Response
Surveys for cliff-nesting raptors,including the pere-
grine falcon,were not conducted in 1982 (see above).
Furthermore,the II...status of the arctic peregrine
falcon (Falco peregrinus tundrius)as an endangered
species •••11 has little bearing in regard to the proposed
Susitna Hydroel ectric Project.The reference to f..•..p..
tundrius in this question is of concern,because the
USFWS is the lead federal agency with responsibility for
endangered species.f ...P..tundrius,given the name
larctic peregrine falcon l by the USFWS,was described by
C.M.White in 1968 (see Auk 85:17191)(this race is
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still not formally recognized by the American Ornitho10-
gists's Union).In Alaska,birds generally considered
to be the tundrius type breed north of the Brooks Range
and southwestward into parts of northwestern Alaska (see
USFWS Arctic Peregrine Falcon Recovery Plan).Pere-
grines breeding in the taiga zone of Alaska,including
those that might occasionally occur in the region of the
Susitna River,are I ..E..anatum,a second North American
race considered to be endangered (the third North
Ameri can subspec i es,F..E.peal ei,is.a coastal race
t hat has never been -1 i sted as endangered)•'£.•.E..
tundrius would only occur as an occasional migrant in
the project area.It is recommended that agency ques-
tions regarding peregrines first be routed through the
USFWS Endangered Species Coordinator,Anchorage.
Methods of survey are descri bed in Secti on 4.2.3 (see
also Kessel et a1.1982a).In 1981 special ground and
aerial searches were made for peregrines at the few
locations identified by D.G.Roseneau that appeared to
offer some degree of potential for nesting peregrines
(see Kessel et a1.1982a,pp14 and 15).Attention was
also given to two general locations where White (1974)
observed si ng1 e,non-broodi ng peregrines.In 1980 the
time of survey (July 6)corresponded to the early nest-
ling stage of peregrines when active sites become easier
to fi nd from the ai r.In 1981,the aeri a1 survey was
conducted on May 16-17,a time corresponding to the
genera 1 egg 1 ayi ng/ear1y i ncubati on peri ods when pere-
grines are more secretive,but also when some pairs are
present that may fail reproductively and thus often not
be present later in the summer.All potentia1-
appearing habitat was rechecked from the ground in June
1981,after pairs would have laid eggs (see Kessel et
a 1.1982a,p.15).
It should also be noted that it is clear that the
Susitna River drainage does not provide habitat typical
of or comparable to any of the important areas of pere-
grine nesting habitat in the taiga zone of Alaska (i.e.
the upper Porcupine,upper Yukon-Charley,middle Yukon,
lower Yukon,Tanana and Kuskokwim river drainages).
Furthermore,it is the opinion of several biologists
with considerable experi ence with northern peregri nes
and peregrine nesting habitat that the Susitna River
drainage provides only marginal potential peregrine
nesting habitat (see also Kessel et a1.1982a,p64).
Key elements of the existing habitat,in addition to the
combi ned surveys conducted in 1980 (aeri a1)and 1981
(aerial and ground),provide reasonable evidence that
peregri nes do not presently inhabit the project area,
and that biologically significant numbers of them are
unlikely to in the future with or without project
development.
Su rveys to monitor for the cont i nued absence or future
occasional presence of breeding peregrines can easily be
combined with planned efforts to monitor the success of
a mitigation program for other cliff-nesting raptors.
Such a program will be conducted by a raptor biologist
whose experience will encompass Alaskan peregrines.It
can be assured that all such efforts will occur at
appropriate times of the year(s).
W-3-256 We recommend the discussion be expanded to describe the area's
importance in raptor migrations as well as for breeding.
Response
A comment on raptor migrations has been included (see
Section 4.2.3(a).
W-3-257 (i i)Waterfowl and Other Large Waterbi rds:Pl ease provi de
some quantification for terms used here,e.g."l arge "concen-
trations of waterfowl (paragraph 1);"little used"(paragraph
4),etc.
Response
See Kessel et al.(1982a,1982b).
W-3-258 Paragraph 3:We recommend you incorporate additi onal trum-
peter swan data which is available from the FWS.Please refer
to footnotes 12 and 13.
Response
If si gnifi cant additional trumpeter swan data exi sted,
these data woul d be incorporated.However,such data
either do not exist or are unavailable.King and Conant
(1981)summarize information through 1980,and provide
the most up-to-date,complete published information
available.It was cited by Kessel et a1.(l982a).In
1981 and 1982,BLM conducted partial,informal surveys
(only one 1:63,360 quad was surveyed in the Gulkana
Basin region in 1981,and only two 1:63,360 quads were
surveyed in 1982--both quads surveyed in 1982 were far
to the east near the Ri chardson Highway).These data
were subsequently provided to J.Ki ng by BLM,and are
mentioned in King and Conant (1982).Since only rela-
tively small areas of the Gulkana Basin were surveyed in
1981 and 1982 and since most of the survey effort was
expended well east of the project area,it would be
i napppopri ate to draw compari sons or concl us ions from
them.Furthermore,the computerized compilation of this
1 imited data set will not be avail abl e until at 1east
January 26,1983 (G.Konkel pers.comm.to M.K.
Raynolds,January 20,1983).
I'"""
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W-3-259 Paragraph 4:We agree with the conclusion,however,we sug-
gest that data from FWS annual surveys be included to quantify
this statement (e.g.see footnotes 12 and 13,as well as
Conant and King 1981 and King and Conant 1980 as referenced in
this section).
Response
The text has been altered.
W-3-260 -Mi ration:We recommend referencing the
specific study ies from which conclusions in the CE reference
are taken.Please note that trumpeter swans are moving
through the area in increasing numbers.
Response
Although numbers of swans have increased,the 1eve 1 of
increase does not appear to justify changing the con-
clusion that "•••does not appear to be a major migration
route for waterbirds".
W-3-261 Paragraph 3:Pl ease expl a in the di screpancy between the
statement here that the "upper Susitna Basin was less impor-
tant to migratory waterfowl in spring than fall,"with data in
Table W62 which shows spring waterfowl densities over twice
that of fall densities.
Response
Table W62 (now Tables E.3.130,E.3.131,and E.3.132)was
corrected.
W-3-262 Relative Importance of Water Bodies:Paragraph 1:Given the
previously descr-ibed problems with the wetlands classification
used for the project,and remappi ng efforts currently under-
way,please define "wetlands"as used here.
Response
The term wetlands as used in Exhibit E is defined in
Section 3.2.3 as "lands where saturation with water is
the dominant factor determining the nature of soil
development and the types of plant and animal communi-
ties living in the soil and on its surface.These areas
are characterized by soil or substrate that is at least
peri odi cally saturated with or covered by water
(Cowardin et ale 1979)."
W-3-263 We suggest clarifying whether the reference is to 22.5 adult
waterfowl/km 2 and 22.5 adult gulls/km 2 or to 22.5 adult
waterfowl and gulls)/km 2•
Response
The text has been altered to clarify this.
W-3-264 We question the validity of only comparing productivity of
these wetlands to the most productive wetlands in Alaska.
Upper Susitna area waterfowl productivity may bp.m~re typical
of Alaska wetlands in general and represent average popula-
t ions and producti vity (FWS Mari ne Bi rd Management Proj ect
Leader John Trapp,personal communication).
Response
It is agreed that "middle Susitna area waterfowl produc-
tivity may be more typical of Alaska wetlands in general
and represent average populations and productivityll.
Comparing the productivity of such less productive wet-
lands with wetlands that typically support high produc-
tivity provides contrast,scale and perspective.It is
agreed that no areas of high productivity will be lost
as a result of the Susitna Hydroelectric Project,and
that impacts to waterfowl populations will be consider-
ably less (i.e.'average'at the worst)than if richer
wetlands were involved.
W-3-265 Paragraph 3:Please clarify how IIImportance Values ll were
calculated;also refer to our comments under Figures W19 and
W20 and Table W63.We suggest describing any consumptive use
of waterfowl within the project area.
Response
The text has been revised to clarify how IIImportance
Values ll were calculated (see Section 4.2.3[bJ[iiiJ).
W-3-266 (iii)Other Birds
Grouse and Ptarmigan:We recommend mentioning any consumptive
use of these species within the project area.
Response
Such statements are contained in Section 4.4.
W-3-267 Woodpeckers and Passerines:We recommend providing some
discussion of the importance of the area to migration,as well
as,breeding activities of these birds.
Response
This recommendation has been noted.
W-3-268 U er Basin Bird Communities:Please refer to our
un er Sectlon .2 c re t e need to identify here how
1982 data were combined ,given that Kessel et ale
only includes data from 1981.
comments
1981 and
(1982)
Response
The 1981 and 1982 data are provided separately in
TablesE.3.136 and E.3.137.
W-3-269 Last Paragraph:Please describe how these habitat types do or
do not correlate to vegetation types as now being remapped.
W-3-270
Response
There is no di rect correspondence between the habitat
types of Kessel et ale (1982a)and any other publish,ed
vegetati on cl ass ifi cati on system.Mappi ng now in the
preparatory stage will identify vegetation known to be
important as moose browse and vegetation characteristic
of wetlands,using the system of Viereck,Dyrness and
Batten (1982)to Level IV and,for wetlands,the system
of Coward;n et al.·(1979)as adopted by the U.S.Fish
and Wildlife Service (l980).Approximate vegeatation
type equi val ents to Kessell s Avi an Habitat Types are
presented in Table E.3.139.
(d)Non-game (small)Mammals:We appreciate the thorough
description 'of the ecological role of small mammals in project
area ecosystems.
Response
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Thank you.
W-3-271 (ii)Habitat Use:We suggest updating the discussion to
correlate with ongoing vegetation and wetlands mapping
efforts.
Response
The thrust of the remapping effort will be to provide
more accurate maps of vegetative cover using the same
cl assificat i on scheme.Therefore,no updating of the
discussion on habitat use is necessary.
W-3-272 1m acts
Watana Develo ment
Moose:Paragra h 1:Criteria for concluding that moose
is one of the Ilmost important ll species should be provided
here.
Response
This statement is supported by hunter effort and harvest
data presented in Chapter 5.The importance of moose as
a prey resource for bears and wolves is discussed in
detail throughout the application.
W-3-273 Paragraph 2:We suggest that the proposed eva 1 uat i on of
carrying capacity incorporate consideration of habitat values
over the life of the project.Please provide the referenced
figure.Considering the severity of project impacts by
spatial areas to be affected and numbers as in Ballard et ale
1982 (page 106)would improve the discussion.
Response
The simulation modeling approach being developed is
particularly suited to assessing habitat changes through
time.Potential changes will be incorporated through
this approach to the extent that they can be predicted.
The deleted figure number has been added.The model ing
approach is based on different spatial areas extending
to and occasionally beyond the watershed boundaries.
The movements of moose between these areas wi 11 be
included in the analyses.
W-3-274 We are further concerned with the inadequacy of the impacts
definitions in not accounting for impacts to special con-
centration areas (e.g.breeding),in key seasons of use (e.g.
calving),and under infrequent but critical conditions (e.g.
severe winters),and the overall interspersion and availabil-
ity of such important habitat features.
Response
The text incorporates references to speci al use areas
and periods of greater sensitivity to disturbance.The
carrying capacity model will provide an understanding of
the effects of winters of any snow depth,which in the
a bsence of census data ina deep snow wi nter is pre-
sently difficult to accurately assess.Habitat use and
characteristics such as interspersion of forage and
cover vegetation are discussed.
W-3-275 Paragraph 3:Lack of quantifi cat i on prevents analysi s of
whether an impact is half,twice,three times,etc.as severe
as one of lower priority.We again recommend integrating the
analysis with that in Chapter 5 re also providing and discuss-
ing data on hunting pressure and success here (see our com-
ments under Section 4.2(a)(i)•Mortality Factors}.Please
note provision of access is a major indirect impact;addi-
tional developments or settlement stimulated by this access
would be a secondary impact.
Response
Quantification has been included wherever a defensible
statement is possible.There are many situations where
no data from past experiences are available,and one
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person's guess is as good as another's.Some insight
into potential effects of increased mortality or other
changes resulting from the project will be gained
through the use of habitat and population modeling.
This approach is described in Section 4.3.2(a)(iii).
The statement regarding access has been corrected.
W-3-276 ParagraphS:We find the discussion entirely too general and
inconclusive:(l)there is no indication of the relative
difference between "some "moose whi ch wi 11 di sperse,adapt,
die,etc;(2)both overall cumulative impacts and secondary
impacts from moose dispersing to adjacent areas are ignored;
(3)impacts on habitat values from increased use are not
considered;and (4)no explanation is given for how and when
ongoing studies will "re fine this assessment.1I
Response
The inability to adequately quantify these impacts
reflects the need for the approach being developed.The
approach and its implementation is described in Section
4.3.1(a)(iii).
W-3-277 Constructi on:We are concerned that we have been gi ven no
opportunity to comment on siting and scheduling for camps,
townsites J etc.The location and use of these ancillary
project features will influence the magnitude of resultant
impacts.Alternative spoils sites have not been proposed,yet
they should be part of the discussion.
Response
This procedural matter has been addressed in the Alaska
Power Authority's response to the general statements
included in the cover letter.
W-3-278 •Habitat Loss:Paragraph 1:We recollUTIend i ncl udi ng a more
thorough,quantitative discussion of habitat loss in the text.
The necessary integration of vegetation and wildlife studies
should include a discussion of (remapped)vegetation losses
relative to their value as moose habitat Le.winter range,
calving and breeding area,etc.We also see no quantification
of these losses over the life of the project,i.e.the area of
each type which will be lost forever,vs the area which will
be lost for some length of time duringconstruction,vs the
areas in different successional stages throughout recTama-
t'ij'(!>n •
Response
While accurate estimates of the area of various well-
defi ned vegetation types lost can be made,the only
objective quantification of lhabitat 'loss possible is
through measurement of forage availability in these
habitats at various seasons and snow depths.Vegetation
types are eas ily defi ned.Habitat is quite another
thing.Any estimate of the value of a particular vege-
tation type as calving,breeding or winter habitat must
be qualitative.Accurate estimates of areas lost to
various project features appear in Tables E.3.82,
E.3.83,E.3.84,E.3.85,and E.3.86.A schedule of anti-
cipated impacts appears in Table E.3.144.Plant succes-
sion will begin within a several year period for nearly
all of the Watana impacts,and simil arly for the Devil
Canyon impacts (Table E.3.144),approximately 10 years
later.
The approach outlined
address these concerns.
moose carrying capacity
into the application.
in Section 4.3.1(a)(ii)will
Preliminary calculations of
changes have been incorporated
W-3-279 Paragraph 2:The paragraph is somewhat "inconsistent with the
Fishery Section.Given the mitigation proposed in that
section of clearing areas just before flooding,successional
growth development appears negligible (Section 2.4 (a)(x)-
Clearing the Impoundment Area).
Response
Impoundment clearing is scheduled just prior to flood-
ing.Much of the low-growing vegetation will remain
after clearing,and some species grow rapidly enough in
one or two seasons to provide forage for a large number
of moose.The cleared impoundment area will be utilized
by moose for feeding,but we agree that the eventual
loss of this habitat makes the availability of this new
growth of little consequence.
W-3-280 Paragraph 3:Ongoing studies should be fully described.
Pl ease descri be when the habitat use ana lyses wi 11 be
reeva 1uated on the bas is of remapped vegetation and forage
quality studies.
Response
The ongoing studies are a continuation of studies fully
described in the application.The schedule for habitat
analyses is given in Section 4.3.1(a)(iii).
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W-3-281 Winter Use:Paragraph 2:Please clarify the first sentence
and i nconsi stenci es between that sentence and.the previous
paragraph.
Response
These two paragraphs have been corrected.
W-3-282 Paragraph 3:It would be helpful to also express the number
of moose in the impoundment area as a density and compare that
density to areas outside both the impoundment and project
area.
Response
The impoundment area and areas outside of it consist of
several density strata,and therefore no single density
figure was given.Since densities in a particular area
are greatly influenced by season and'snow depth,it
would be inappropriate to compare the density of moose
within the impoundment area as determined in March 1982
with other areas surveyed under different conditions.
W-3-283 Paragraph 4:We recommend that ongoing studies provide data
for quantifying the relative values (quantity and quality)of
winter range within and outside the impoundment area.Such
information is necessary for determining mitigation require-
ments.
Response
The data being collected,and the planned approach for
incorporating these data,will allow these comparisons.
W-3-284 Spri ng Use:Paragraph 2:Quant ifi cat ion is needed for the
habitat areas described here.
Response
Plant phenology stud i es re 1ated to spri ng use of the
impoundments by moose will continue in spring 1983 and
provide results by December 1983.A map of moose
calving locations has been added to the application.
W-3-285 Paragraph 3:We recommend tying this discussion to project
impacts on brown bear which could compound the predation
problem.
Response
This has been treated in Section 4.3.1(d](i).
W-3-286 Sununer and Fall Use:Paragraph 2:We are assuming that a
heading for "-Disturbance"was omitted just before this
parag raphe
Response
The heading and first paragraph of the Di sturbance
Section,which were omitted from the draft appl ication,
have been added to the appl ication.
W-3-287 Paragraph 4:Since the magnitude of project impacts would
appear to significantly vary,depending on whether hunting and
harassment of moose are effectively prohibited,we suggest
providing "best"and "worse"case scenarios.Those scenarios
shoul d be used to quanti fy potenti al losses of habitat for
comparing impacts and determining mitigation needs.
Response
These possibil ities can be best addressed through the
planned modeling approach.
W-3-288 Paragraph 5:Pl ease refer to our prev ious comments under
Section 4.3(a)(i)Moose and 4.3(a)(i)Construction
.Habitat Loss re the generality of this discussion.
Response
Please refer to our response under Section 4.3(a)(i).
W-3-289 .Mortality:
4.3(c)(i).
Pl ease refer to our comments under section
Response
Please refer to our responses to your previous comments.
W-3-290 .Alteration of Habitat:We suggest this discussion be dropped
as inappropriate and unfounded.If this discussion only
covers the construction phase of the development,then we
would assume there would be no chance for successional growth.
Moreover,the suggestion that moose could ut"il ize these dis-
turbed areas during construction confl icts with the previous
discussions on how disturbance and increased susceptability to
predators would cause moose to avoid major activity centers
and large cleared areas.We also find the suggestion that
borrow pits may·prov ide forage inconsi stent with the Fi shery
Section which proposes to make fish ponds out of the pits
(Section 2.4 (3)(e):Paragra h 2,Construction Mitigation).
Please refer to our previous canments under Section 4.3 a i)
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-Construction,.Habitat Loss re the unlikelihood for forage
development withi n the impoundment area.Moreover,under
•Permanent Loss of Habitat,page E-3-287,moose use of the
impoundment area prior to filling is discounted.The need to
resolve conflicts between sections of the draft application is
amply illustrated by the latter two points above.As we have
recommended elsewhere,some mechanism should be instituted for
resolving these types of conflicts and analyzing the tradeoffs
of mitigating for one species to the detriment of another.
Response
This discussion was el iminated from the appl ication •
Several of the points made in the draft are now covered
in other sections of the application.The inconsisten-
cies between sections as pointed out have been elimi-
nated.
W-3-291 -Filling and Operation
Permanent Loss of Habitat:Paragra h 1:As we commented
under Section 4.3 a i -Construction,we are concerned with
the lack of quantification.Of all possible impacts,loss of
habitat can be most easily quantified.The analysis should
include the area of each (remapped)vegetation type which will
be inundated each year.
Response
Quantification has been provided where possible.Where
data are unavailable,an approach for making reasonable
predictions about future situations has been outlined.
Si,mce the impoundment area will be.cleared prior to
fill i ng,the area of each vegetat i on type inundated each
year seems irrelevant.
W-3-292 Paragraph 2:We again refer you to our comments under Section
4.3(a)(i)Construction re necessary quantification,study
description,and incorporation of study findings into the
quantification of losses required under FERC regulations
(Section 4.41(f)(3)(ii)in F.R.Vol.46,No.219,13 'November
1981).
Response
See response above.
W-3-293 .Alteration of Habitat
u~per Susitna Basi n:We concur with the.poihts<rai sed here.
P ease refer to our comments under BOtanital:Res'ources re the
impacts of ice fog and rime ice formati on,as.to welT as need
for quantification.The discussion should also consider the
effective loss of an even larger area than described here due
to dust from project activities which would further retard
sno\ltffielt (see Section 3.3(a)(i~-Vegetat:;on Damage by Wind
and Dust ).
Response
Dust from project activities could have the opposite
effect on snowmelt if only a thin layer were deposited.
In addition,the ground during the snow-covered period
would often be frozen or damp,thus reducing dust prob-
lems.It is therefore impossible to give an accurate
prediction of the effects of this impact on vegetation
or wildl ife.
W-3-294 Lower Susitna Basin:Paragraph 2:Given a mid-successional
stage of approximately 25 years (see Figure W4)and project
life of 50 years plus planning and development,we question
the conclusion that vegetation favored by moose will still be
available at the end of the license period.Please refer to
our comments under Section 3.3(a)(i)-Effects of Altered
Downstream Flows re quantifying these and other impacts
described in the remainder of this section as well as discuss-
ing the potential for further alteration of habitat because of
ice fog and rime ice formation.
Response
These sections have been completely rewritten.
W-3-295 .Blockage of Movements:Given the potential for moose to
avoid clear cut areas (see discussion under Section 4.3(a)(i)
-Construction .Interference with Seasonal Movements,page
E-3-286),we suggest mapping the effective area which could be
el iminated from use.Some discussion should be provided on
the likelihood of moose crossing the flowing narrow river as
compared to the wide impoundment,plus drawdown zone;maximum
and minimum widths of the impoundment should be provided.
Also refer to our comments under Section 4.3(a)(i),River
Crossings.Information presented here wi 11 be important to
1 ater considerations re choosing sites for habitat enhance-
ments which may be undertaken as part of mitigation.
Response
The discussions in the application related to these
concerns are considered adequate.
W-3-296 Paragraph 5:Again,please detail ongoing studies.
Response
The ongoing studies are a continuation of the studies
thoroughly described in the application.
W-3-297 .Disturbance:Once more,we note the need to (1)consistently
assess the potential for increased access and hunting;and (2)
integrate consideration of this issue throughout the report.
We again suggest listing and analyzing the impacts from
alternative access and use options.
Response
The potential effects of increased access and hunting is
described in Section 4.3.3(a).The enti re appl ication
has been revised to make sections more consistent.
Al ternate access options are discussed in Chapter 10,
and in Section 4.4.1.
W-3-298 .Mortal ity:See comments under .Oi sturbance,the prev ious
discussion for Section 4.3(a)(i)-Construction,and Section
4.2(a)(i).Mortality Factors.Please define when postulated
increases in hunting will occur relative to project develop-
ment.
Response
The access roads and airports will be closed to the pub-
1 ic during construction,and as outl ined in the Mitiga-
tion Plan,project personnel will not be able to use
these project facilities for hunting or trapping.
Increased hunting as a result of the project probably
began in the late 1940s when the area was first investi-
gated for its hydroelectric potential.Regulation of
hunting is controll ed by the Al aska Board of Game,and
the Al aska Power Authori ty has no j ur i sd ic ti on over
future changes in fish and game management pol icies.
W-3-299 -Quantification of Project Effects:We appreciate this dis-
cussion of ongoing studies but note that references to this
section should be made through out the report.Once more,we
recommend incl uding a schedul e and describing how the studies
will be incorporated into the 1 icenseapplication,project
design,and mitigation planning.Please note,references ·in
this section are not included in the bibl iography.
Response
This section has been expanded.The 1 ist of references
has been rev i sed.
W-3-300 -Watana:Summary of Impacts:The sllnmary is a 'useful,qua 1-
itative description of project impacts,yet provides no quan-
tification for minimal,moderate,or severe impacts.The
definitions given under Section 4.3 (a)(i)Moose:Paragraph
2,should be restated if they are to apply here.To better
evaluate the "ifs"common to the discussion,we again suggest
analyzing an array of impact scenarios.Attention should al so
be given to the cumulative impacts of habitat loss,altera-
tion,disturbances,etc.We disagree with the conclusion that
"because hunting mortality can be easily regulated,this will
not necessarily be a major impact-"Because of the pol itics
involved and independence from project development of hunting
regulations,there is no guarantee that regulations consistent
with project mitigation goals will be implemented.Moreover,
increasing hunter demands for a diminished resource will
further affect harvests and hunter satisfaction.
Response
A summary of project impacts on each species or group of
species has been incorporated into the application.
Your other comments regarding quantification have been
addressed above.The A1 aska Power Authority has no
authority for fish and game management.
W-3-301 (ii)Caribou
-Constructi on:Paragraph 2:We recommend provi di ng fi gures
on the proportion of the herd which could be affected by
borrow areas A,0,and F.Although these areas will be only
temporarily used within the 50 year project life,that tempo-
rary use involves several years.
Response
Please reread Section 4.2.1(b)to gain an understanding
of factors limiting caribou population.Given the size
and location of these borrow sites,the requested data
a re unnecessary.
W-3-302 Filling and Operation:Paragraph 3:Consideration should
be given to the future management options which will be fore-
closed with project development.That is,now that the herd
has recovered from previ ous1y low numbers,the ADF&G coul d
change thei r management goal s,even before project construc-
tion begins.We recommend considering loss of this management
option in mitigation planning.
Response
The appl ication has been rewritten to consider future
management possibilities.
W-3-303 Paragraph 7:We recommend a1 so considering the compounding
effect of predation on caribou which become injured in cross-
i ng the reservoi r or whi ch alter thei r movements due to the
pres€nce of the reservoir.Predation was earlier cited as
responsible for up to 30 percent of annual adult mortality
(Section 4.2[a][ii]).
Response
This section has been modified to further consider this
hypothetical impact.
W-3-304 (i i i)Da 11 Sheep:
sentence.
Paragraph 2:Pl easecl arify the last
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Response
This introductory sentence is explained in later para-
graphs.
W-3-305 Paragraph 4:Please provide information on when and how
seasonal Dall sheep ranges will be defined and used to
influence siting and scheduljhg of possible borrow site C.
Response
Borrow site C wi 11 not be used for con st ruct ion mate-
ri al s and therefore has been e1imi nated from the Da 11
sheep discussion.
W-3-306 Paragraph 5:Please document other cases where remote mineral
1 ieks have been altered to remain available to wildl ife;we
are concerned with the unproven effectiveness of enlarging the
area if partial loss of the Jay Creek.mineral lick.affects
sheep.Thus there is a need to demonstrate the techniques to
ensure that sheep woul d use the mineral source if one were
provided.
Response
There are no comparable examples where additional
mineral soil has been exposed.
W-3-307 -Fill i ng and Operation:The potential for di sturbance from
increased recreational or hunting use in the area should also
be covered here.
Response
This has been included in the discussion.
W-3-308 (iv)Brown Bear
-Construction:Paragraph 5:Please describe the scope and
schedule of ongoing studies and plans for integrating those
results into project designs and mitigation planning.
Response
The ongoing studies are a continuation of the studies
thoroughly described in this appl ication.Studies will
be continued in spring 1983 and will provide results by
December 1983.Section 4.4 describes mitigation proce-
dures for avoidance of bear-human conflict.
W-3-309 Paragraph 6:We are concerned that the discussion downplays
the importance of project impacts from both disturbance and
loss of additional food sources.Original project studies 14/
and other reports 15/emphasize that disturbance from project
features and associated human activities will cause bears to
avoid those areas.
Response
This section has been largely rewritten to more accu-
rately reflect a similar concern for these problems.
W-3-310 Paragraphs 7 through 9:Two other impacts to vegetative food
sources should be discussed here.Green-up of critical spring
food plants may be del ayed because construction-caused dust
may retard snowmelt on vegetation;at the same time,herba-
ceous growth in summer may be increased (see the Botanical
Resources Section and our comments,Section 3.3(a)(i)
Vegetat i on Damage by Wi nd and Dust and -Effects of Altered
Downstream Flows.
Response
Constructi on-caused dust is more 1i ke ly to speed snow-
melt.No accurate predictions of these effects on
wildlife is possible,although in this case both might
be considered beneficial.
W-3-311 Paragraph 12:We question the statement that,IINo measurable
changes in the number of moose or other important prey species
are expected.II Previous lack of quantification and the
ongoing nature of salmon,moose,and caribou studies make it
difficult to fully assess project impacts to brown bear.
However,preliminary indications that up to 2,400 moose will
be affected by the project in the upper Susitna basin alone
(Section 4.3(a)(i):Paragraph 4,page E-3-280),and other
report findings that IImoose populations will probably be
reduced ll
,(Section 4.3(a)(vi):Paragraph 5,page E-3 -312)
suggest that there will be both losses and distributional
shifts in brown bear prey,with resultant impacts to brown
bear.Brown bear concentrations on already fully utilized
adjacent ranges may result in intraspecific conflicts and
further decreases in brown bear populations (Spencer and
Hensel 1980,footnote 15).
Response
The text ha~been clarified relative to the fact that
the above quotation appl ies to the construction phase
only,when impacts on moose will be mainly distribu-
tional.We concur on the difficulty of assessing
impacts.The section has been largely rewritten to
clarify these concerns.Please refer to the text
(Section 4.2.1[a])re:the accuracy of the figure
(2,400 moose)affected.
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W-3-312 - 0 eration:Para ra h 1:Our comments under -Construction
apply here too Section 4.3{a)(i).Please discuss potential
impacts to bears resulting from impacts to the salmon resource
in greater detail.
Response
The importance of spawni ng salmon cannot currently be
assessed.Although the occurrence of this resource in
the areas downstream from Devil Canyon increases the
sustainable population,the exact extent of this effect
cannot be predicted.Bear studies in spring 1983 will
include research along the salmon sloughs.
W-3-313 Paragraph 2:A1 so refer to our comments under Secti on
4.3(c)(i)re the need to define access.
Response
Di scussi on of access impacts has been transferred to
Section 4.3.3 and is defined there.
W-3-314 Para ra h 5:P1 ease see our comments two paragraphs above
Section 4.3 (a){iv)-Operation)on the need to better eva1u~
ate the importance of salmon to area bears.Overall,we note
the need to quantify impacts and discuss the cumulative
effects of project impacts on brown bea rs.
Response
Continuing studies will provide additional information
on the importance of salmon,but may fail to resolve
this complex issue quantitatively.Where data are
available and a defensible prediction of impacts is
possible we have provided an analysis.The magnitude of
cumulative unquantified impacts is difficult to predict.
We have,however,predicted a decrease in carrying capa-
city and increases in mortality.
W-3-315 (v)Black bears
-Construction:Paragra h 1:As in our comments under brown
bears,above Section 4.3 a)(iv)),we suggest that greater
attention be given to impacts of reduced prey,compounded here
by the significant loss of black bear habitat with the Watana
development •
Response
This section has been revised.
W-3-316 -Fi 11 i ng and Operati on:Paragraph 1:P1 ease refer to our
comments under Section 4.3(a)(iv)-Construction re project
impacts to vegetat ion.Si nce black bears wi 11 be subj ect to
much greater impacts than brown bears t the cumulative impacts
of each additional project-caused stress could be severe.
Response
Cons i derat i on of these impacts has been added to the
text.
W-3-317 Paragraph 2:We question the ability of habitats to the east
and west of the impoundment area to support bears now inhabit-
i ng the impoundment areas.If those areas are already fully
stocked with black bears t resultant intra-specific strife and
stress would ultimately lead to lower population.
Response
The sentence was misleading and has been altered.We
did not intend to suggest that bears inhabiting the
impoundment area would be able to invade adjacent habi-
tats without consequence to resident bears.
W-3-318 Para ra h 3:We again refer you to our comments under brown
bear Section 4.3(a)(iv)).Please describe ongoing studies
and their integration with project design and mitigation.
Response
Ongoing studies are a continuation of those described
here.Additional results of 1982 field work will be
available in June 1983.
W-3-319 Please refer to our comments under
populations to increase in the project
Response
Our statement that wolves habituate readily to man-made
disturbance stands.Experience with construction of the
Trans-Alaska Oil Pipel ine has amply demonstrated that
wolves habituate readily to human presence in the
absence of hunting and harassment.Coyotes are excluded
from areas inhabited by wolves and are unlikely to
invade if wolf populations remain healthy and produc-
tive.Coyote populations will replace wolves if wolves
are el imi nated through attempted predator-control
practices or uncontrolled harvest t both of which are
independently managed by the ADF&G.
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W-3-320 Last paragra¥h:Given the increased access expected with
project deve opment,an increased wolf harvest appears likely.
We recommend that a quantification of project impacts shoul d
consider the effects of an increased harvest on wolf
population levels.The cumulative impacts of (1)wolves
concentrated in a smaller area due to disturbance,(2)effects
on territoriality and stress,(3)relative values of impacted
as compared to remaining habitats,and (4)reduction in prey,
should also be considered here.
Response
Impacts due to increased access are considered in
Secti on 4.3.3.Cumulative impacts are treated in the
impacts summary.However,the discussion indicates that
disturbance is unlikely to cause changes in distribution
and that current wolf population levels are unlikely to
be affected by a reduction in prey.Also current high
harvest levels are likely to have an overriding effect
on territoriality in this far from natural environment
(for wol ves).The val ue of affected habitats to the
Watana pack which utilizes them is thoroughly
discussed.
-W-3-321 (ix)Beaver:.We question the certainty of the statements
here,given the undecided nature of the project water manage-
ment regime.If reservoir releases are regulated to stabilize
downstream flows,downstream beaver habitats may be enhanced.
However,the extent to which that enhancement will offset
beaver losses in the upper Susitna River basin is not pro-
vided.Such data is necessary to evaluate the relative trade-
off in alternative flow regimes (i.e.,for beaver,fish,
moose,etc.)and thus the overall magnitude of project
impacts.
Response
No losses in the impoundment areas are expected.At
1east 40 beaver are expected to be lost due to access
(Section 4.3.3(h)).See mitigation section for informa-
tion on habitat enhancement for beaver in downstream
sections.Reservoir releases will stabilize downstream
flows.Any stabilization ofdownstream flows will
enhance use of river habitats by beaver and muskrat.
W-3-322 -Construction:We recommend that the location of beaver
colonies be considered,in conjunction with other wildlife
values,in siting borrow area access roads.
Response
This has been done.As discussed in the Mitigation
P1 an,the areas of Deadman Creek inhabited by beaver
are no longer to be used for borrow materials,and the
borrow sites for the Watana dam support no beaver.One
or two beaver colonies may be destroyed by the Devil
Canyon facilities,but this loss will be more than
compensated for as a result of regulated flows.
W-3-323 -Filling and Operation:Paragraph 1:Please quantify IIfew
beavers ii currently supported by the impoundment area.
Response
The text has been altered.
W-3-324 Paragraph 4:Refer to our comments under Section 4.3(a)(ix),
above;we recommend using hydrologic data in conjunction with
the revised vegetation maps and vegetation succession dynamics
to quantify the areas which may be affected under different
flow regimes.We fi nd some i nconsi stency between the state-
ment here that,IIBeaver habitat south of Talkeetna may also be
enhanced as a result of the increased occurrence of favored
food plants (page E-3-316),II and the statement in Section
4.3(a)(i)that,"few changes are expected in channel morphol-
ogy,frequency of flooding,or vegetational succession ll (page
E-3-289,paragraph 1).
Response
Section has been largely rewritten.Available hydro-
logic data will be used to determine the most likely
locations for enhancement in downstream sections.
W-3-325 Paragraph 5:During the August 1982 AEA Workshop on the
Susitna project,access was considered as much of a limiting
factor to trappi ng pressure as was pelt pri ceo Thi s secti on
justifies our mitigation recommendati ons under Section 4.4(b)
for alternate access routing,restrictions on use of access
routes,and prohibition of trapping by construction workers.
Response
Ease of acc~ss is limiting at low pelt price levels.
Access is not a factor when pelt values are high
(P.Gipson 1982 pers.comm.).Restrictions to access
and regulating harvest are even more important when pelt
values are high.
.....
W-3-326 (xl Muskrat:Paragraph 1:We find no section correlating to
the referenced Section 3.3(a)(ix).Please define II minor ll
impacts.
Response
Increased val ue of beaver habitat downstream is refer-
enced throughout the above-mentioned section.The
extent of impacts are further defi ned in paragraphs
following this introduction.
W-3-327 Paragraph 2:Please refer to our previous comments on quanti-
fyi ng improvements in downstream habitats under Section
4.3(ix).Accordingly,we question the contention that,
IIImproved downstream habitat will probably compensate for this
loss.II
Response
See our response to your above-referenced comments.
Sentence has been changed to read "•••will compensate.1I
W-3-328 Paragraph 4:Agai n,refer to our comments under Secti on
4.3(ix),re mitigation of trapping impacts.
Response
Regulation of trapping after construction is the respon-
si bi 1 ity of the Al aska Board of Game.Ouri ng construc-
tion,the mitigation plan notes that trapping and hunt-
ing by project personnel in the project area will be
prohibited.
W-3-329 (xi)Mink and Otter
-Upstream Effects:We recommend defi ni ng II mo derately abun-
dant"and "substantial impacts ll
•Other than lacking quantifi-
cation,the discussion thoroughly describes potential project
impacts to mink and otter.Please clarify the reference to
J"""1165111 11 in Paragraph 3.
I
r
Response
Reference to the baseline description has been added for
access to available data on abundance.Available
information related to assessing the impacts to mink and
otter are discussed in subsequent paragraphs.The
reference to 65m was a typographi cal error and shoul d
read:1165 mi.II
W-3-330 -Downstream Effects:We suggest the discussion be expanded
to better explain the relative magnitude of project impacts to
mink and otter.Since there was no previous quantification of
those populations,we find it difficult to evaluate the
significance of these impacts.
Response
Available information allows no expansion of this
discussion.
W-3-331 (xii)Red Fox and Coyote:Where human activities have devel-
oped ina previ ous1y undi sturbed area,coyotes have become
abundant whi 1e fox numbers have decreased (Furbearer Study
Coordinator Phil Gipson,personal communication).For
example,in the Cantwell to Healy corridor there has been a
marked increase in coyotes with increasing numbers of people
and area developments.Researchers bel ieve there has been a
corresponding decrease in both fox and wolf numbers,although
both those speci es pass through the area from undi sturbed
habitats in the adjacent Denali National Park.
Per our comments on other furbearers,quantification of rela-
tive area populations,habitat quality,and trapper demand and
harvest is necessary to fully evaluate project impacts.
Response
See our response to the comment on section 4.3.1(f).
Coyotes are likely to increase significantly only where
wolves are e1iminpted.No data are available indicating
a decrease in fox numbers in the Cantwell to Healy
corridor.See also Section 4.3.a(1).Where numbers are
available quantification is provided.Harvest data are
discussed in Section 4.2.2(f).No data are available on
t rapper demand.
W-3-332 ~Xiii)Other Furbearers:Again,quantification is needed re
ase1ine populations,habitat quality,and use,in order to
fully evaluate project impacts.
Response
Quantification has been provided where possible.When
data are unavailable,the most reasonable predictions of
impacts are provided.
W-3-333 Paragraph 3:Note should be made of the previous years·trap-
ping activity which may be responsible for low trapping
success of pine marten near Watana Creek (Furbearer Study
Coordinator Phil Gipson,personal communication ).
-.
W-3-334
Response
This has been noted.It is also possible and we
consider more l"ikely that seasonal differences in
trapability are responsible for low trap response in
July.
Paragraph 4:We suggest considering additional parameters for
evaluating pine marten habitat quality (e.g.the availability
of berries is important as late summer/fall food)in conjunc-
tion with remapped vegetation types to reevaluate impact
estimates.
r-,
-
Response
Direct estimates of density are likely to provide more
accurate and timely information on numbers to be
affected than indirect and subjective measures of habi-
tat quality.
W-3-335 Paragraph 6:We question the extent to which snowshoe hare
habitat may be improved by revegetation of disturbed areas,
given the much larger amount of habitat which will be
destroyed by the project and historically low hare populations
in the basin.
Response
Current and historically low population levels reflect
the lack of early successional habitat available.
Di sturbance of soi land vegetation by the proj ect and
mitigation plans for moose wiTl increase availability of
early successional habitat in the middle and lower
basin.Burning,in particular,will improve habitat for
snowshoe hare.
W-3-336 Paragraph 8:No correlation is made between II mo derate li levels
of disturbance from logging and different levels of disturb-
ance from the project re the applicability of these references
to project impacts.
Response
Disturbance associated with logging is likely to be
similar (in adjacent habitats)to borrow extraction or
construction site activities and is therefore referenced
as an equivalent impact.
W-3-337 (xiv)Raptors and Raven
,-
'~
-Habitat Loss:Paragra Pl ease refer to our
Disturbance,below
Response
Protection afforded bald eagles and their nests under
the Bald Eagle Protection was clearly recognized (see.
Section 4.3.1(n),IIDi sturbance ll
).
W-3-338 Paragraph 4:In order to understand the rel ative magnitude of
project impacts,we recommend discussing the estimated loss of
golden eagles in terms of project area populations and habitat
values.
Response
Discussion has been added to the text.
W-3-339 Paragraph 5:P1 ease clarify the statement that potenti al
down stream nesting hab itats may become more important as
upstream habitats are lost with project deve10pllent.Whether
downstream habitats are fully utilized,their value compared
to upper basin habitats,and potential disturbances from other
project activities should be described.
Response
Proj ect-re1 ated disturbances are not expected to occur
in the potential downstream bald eagle habitats that are
referred to (i.e.especially Portage Creek,Stephan Lake
and Prairie Creek).These areas may become more impor-
tant to bald eagles because they are the closest locales
to the project area that contain habitat similar to that
typically used by bal d eag1 es.These potential habitat.
....,
areas do not appear to be currently used by bald eagles
with the exception that one ba1 d eag1 e nest was found
near Stephan Lake.Among the three areas,two basi c
nesting habitat types are found--ba1sam poplar stands
(especially Portage Creek)and occasional small stands
of 1arger spruce.The val ue of these areas and the few
locales of habitat that will be lost as a result of the
project are judged approximately equiva1 ent.Portage
Creek is of particular interest since bald eagles do not
appear to be usi ng it at present.One reason for that
may be that the medium and occasional larger poplars
appear to lack larger branches of appropriate form,and
canopies tend to be relatively closed.This area may
become considerably more suited to eagles if some
appropriate habitat enhancement measures are taken.
W-3-340 Paragraph 9:Please clarify whether downstream raven habitats
could absorb use by ravens displaced from upstream habitats.
I"""Response
The text has been revised and clarification provided.
W-3-341 Paragraph 10:The b10wdown of trees near cleared areas
represents an additional source of habitat loss (e.g.see
Section 3.3(a)(i)...Vegetation Damage by Wind and Dust).
-
,....
-I
f"""
I
Response
Potential b10wdown of trees is recognized as an addi-
tional potential source of perching habitat loss,if the
trees that are blown down are of appropriate sizes and
conformat ions to provi de perches.If one recogni zes
that the majority of clearing of larger trees will occur
in the impoundment zones over a relatively short time,
and that the area will then be inundated,also in a'
relatively short period of time,it seems reasonable to
conclude that any potential losses as a result of b10w-
down will be negligible.Furthermore,because most
raptor species readily perch on transmission towers and
pol es,such losses wi 11 probably be compensated for,
providing precautions are taken to reduce coll isions
with lines and guy wires,and prevent electrocution.
W-3-342 Ba 1d Eag1 es:Paragra ph 3:We recommend descri bi ng the over...
all impacts of the project on salmon and other fish which
serve as bald eagle food.Such consideration should include
potential impacts to smelt runs near the mouth of the Susitna
Ri ver.Any impacts to these resources coul d affect eag1 es
now depending on them as food.
Response
Text has been revised.However because bald eagles also
eat a variety of birds and some mammals,and because
they are 1 imited by avail abil ity of nesting sites as
well as food (see additional comments about 1 imiting
factors for raptors below),we doubt that impacts to
fish,especially considering planned mitigative measures
for them,will be of special consequence to the bald
eagle population.Smelt may provide sorTie food to bald
eagles near the mouth of the river since they occur
mainly below the Yentna River (see Section 2),but it is
doubtful that they are an important food source for many
of the nesting pairs in the total population.Further-
more,no major adverse impacts to smelt are anticipated
(see Section 2).
W-3-343 Paragraph 4:We question the significance of any compensation
for lost eagle feeding habitat through attraction of waterfowl
to the impoundment.Pl ease quantify the potenti al for such
compen sati on and/or prov ide an expl anati on of why waterfowl
may be attracted to the reservoir without a concomitant
increase in their food sources (al so see our comment under
Section 4.3(a)(xv)Waterbirds,below).
Response
The text has been revised to reflect some attraction of
waterfowl which may occur in spring solely because of
open water,regardless of the presence or absence of
food that would support them for longer periods of time.
Furthermore,please note various comments on food as a
1 imiting factors to raptors,and the probabil ity that
loss of feeding habitat will be of much less signifi-
cance than loss of nesting sites in the middle basin.
W-3-344 -Disturbance:Paragraph 1:We appreciate the description of
protection afforded eagles under the Bald Eagle Protection Act
(16 U.S.C.668-668 c).However we are concerned that the
intent of thi s act rel ative to project design has not been
adequately acknowledged or incorporated,as explained below.
Paragraph 6:Under a recent amendment to the Bald Eagle Act,
the Secretary of the Interior may permit the taking of golden
eagle nests which interfere with resource develoJlTlent or
recovery operations (16 U.S.C.668a).Regulations for imple-
menting this amendment should be available within the next
coupl e of months.
Paragraph 7:The Bald Eagle Protection Act does not authorize
the taking of bald eagle nests which interfere with resource
development or recovery operations.The Act does provide for
the taking of nests for scientific and certain specific exhi-
bition purposes when compatible with the preservation of this
species.Service eagle permit regulations,50 C.F.R.22.21,
implement this section of the Act.secretarial approval is
not required for the taking of bald eagle nests in Alaska
provided no eagles are killed and the nest is not exported
from the Un ited States.Authority to take such nests has been
delegated to the FWS Regional Director.We suggest that the
applicant promptly consult with the FWS to reach a mutually
satisfactory solution to this potential conflict.
Response
The intent of the Bald Eagle Protection Act (including
golden eagles)was acknowledged--it was stated in the
text that the act prevents taki ng birds,parts thereof,
eggs or nests (take includes molesting or disturbing)
without a permit.Because the act does not authori ze
the taking of bald eagle nests which interfere with
resource develolJTlent or recovery operations,consul ta-
tions to reach a mutually satisfactory solution or
compromi se was understood as necessary if the proj ect
were to be built.Such consultation has been initiated
in a 1etter of February 1,1983,from the Al aska Power
Authority,to the Al aska USFWS Reg ional Di rector.
Revisions have been made in the text to clarify this.
Furthermore,the mitigati on pl an for both bal d eagl es
and golden eagles was developed in the spirit of satis-
fying the meaning of the act.The mitigation plan will
be implemented in a manner that should satisfy taking of
bald eagle nests as part of a scientific study to learn
about the effectiveness of several possible mitigation
methods that will be useful as eval uative and mitigative
tool s shoul d simil ar con fl icts ari se between thi s
species and other future develorxnental or industrial
proj ects.
The mitigation plan for golden eagles was devised in the
same spi rit and wi 11 be impl emented in the same manner.
Since a recent amendment to the Bald Eagle Protection
Act allows taking of golden eagle nests which interfere
with resource development or recovery operations,this
issue will undergo review (once regulations are avail-
able)to determine implications to the project and pro-
posed mitigation measures.Mutually satisfactory inter-
pretations and means of complying with these new regul a-
tions will be arrived at in consultation with the
USFWS.
W-3-345 (xv)Waterbirds
-Habitat Alteration:Paragraph 2:Please substantiate that
IIfish populations will probably remain sufficient ll to support
birds such as mergansers.According to Meeting Summary notes
from the December 2,1982,Susitna MYdro Exhibit E Workshop on
Water Use and Quality and Fishery Resources,most of the gray-
ling population (estimated to be at least 10,000 in Section
2.3(a)(kk)-Watana Reservoir Inundation will be lost and any
production of lake trout is expected to be limited.
Response
The test has been revised.
W-3-346 Paragraph 3:We suggest quant ifyi ng the number of 1akes,
miles of streams,and acres of wetlands (per revised wetlands
typing)which may be affected by project borrow areas,spoils
sites,etc.,as well as those which will be completely lost.
We recommend including those habitat types in Table W78a.
This information will allow better quantification of project
impacts.
Response
Your suggestion and recommenation have been noted.Also
see Tables E.3.81 to E.3.86.
W-3-347 Paragraph 4:Please substanti ate further the val ue of the
reservoir as habitat for migrating birds.Since existing
resident fish populations are expected to be severely impacted
by reservoir development and no biologically productive near-
shore zone will be developed,we question that there would be
food necessary to support bi rds attracted to the reservoi r.
Moreover,winter open water areas could attract waterbirds to
their detriment,particularly since food supplies are already
1 imited.Swans attracted to open water at Red Rocks Lake
National Wild]ife Refuge in Montana must now be fed during
wi nter;simi 1ar probl ems have occurred in other areas of the
conterminus United States (FWS Migratory Bird Management
Project Leader Rod King,personal communication).
Response
The text has been revised.
W-3-348 -Disturbance:Paragraph 2:We suggest that greater emphasis
be placed on the potential for the project to disturb trum-
peter swans.Recent increases and overstocking of swans in
the Gulkana Basin may result in more swans moving into the
upper Susitna Basin (FWS Migratory Bird Management Leader Rod
King,personal communication).Yet those habitats will become
-
.-
I
-
less suitable with the human activities and disturbances
caused by the project.As areas in the Cook Inlet Basin and
Kenai Peni nsul a have been affected by human use and develop-
ment,swan use of those areas has shifted to areas 1argely
inaccessible to people.16
Response
This suggestion has been noted.
W-3-349 (xvi)Other Birds
-Construction
•Habitat Loss:We appreci ate the thorough,quantitati ve
discussion included here •
•Habitat Alteration:We suggest that species and their rela-
t i ve abundance be correlated to the postul ated negative and
positive effects of habitat alteration.This would provide
some i nd i cat i on of net proj ect impacts.Loss to the Watana
impoundment of existing natural edge,e.g.rivers,ridgetops,
etc.,wi 11 undoubtedly be far greater than the increases in
edge suggested here.
Response
This suggestion is being considered.However,revised
wetland mapping is not yet available.
W-3-350 -Operation:We question whether any feeding habitat for
spring migrant shorebirds will be created in the drawdown
zone.The reservoi r drawdown zone wi 11 remai n an un vegetated
mudflat.If current low bird populations indicate lack of
high quality habitat,it seems doubtful that food organisms
would suddenly proliferate with reservoir development.
Response
r
W-3-351
Agreed.Creation of feeding habitat for spring migrant
shorebirds is doubtful.The text has been revised,and
the comment acknowledged.
(xvii)Non-game (small)Mammals:For small mammal species
which inhabit identifiable vegetation types,we suggest
desc ri bi ng whether the percent of the habi tat to be lost is
proporti onately greater or 1ess than the occurrence of the
type within the entire basin.
Response
This will be done once accurate areas for the various
vegetation types are available.
W-3-352 (b)Devil Canyon Development
(i)Moose:Converting the number of moose in the Devil
Canyon impoundment to a density figure and then comparing that
to a similar figure for the Watana impoundment would allow a
better quant itat i ve compari son of impacts.We are concerned
with the judgmental nature of the discussion in stating that
impacts "are of less concern"and suggest that,"will be of
small er magnitude"mi ght improve the statement (pge E-3-338).
The smaller area of the Devil Canyon as compared to Watana
area should also be mentioned,although we do note that moose
density here is about half that of the Watana area.An evalu-
ation of relative habitat values of the adjacent areas which
will bel ess directly impacted,and any lands proposed for
acquisition or enhancement,is necessary for a complete impact
and mitigation analysis.
Response
We consi der density estimates 1ess useful than actual
numbers in this case (the reader can easily compute
density from information provided).Wording has been
changed to reflect our concern as suggested.The model-
ing approach being developed will provide a means of
assessing values of forage habitats.See Section 4.4
for mitigation discussion.
W-3-353 -Construction:Again,spoils disposal is an additional
impact which should be described.
Response
The exact location and area of spoil disposal sites has
not yet been determined.However,the total volume of
spoil wi 11 be much small er than the vol ume removed from
borrow sites and will be disposed of somewhere within
the impoundment.Habitat loss from spoil disposal will
be inconsequential.
W-3-354 •Habitat Loss:Our comments under this heading (Section
4.3(a)(i)),for the Watana development also apply here.
Response
See our response to your previous comments.
W-3-355 •Interference with Movements:The discussion should consider
whether a 1.6 km crossing would also be a barrier to moose in
that area or moose diverted from upstream crossings because of
the Watana impoundment.Quantification should also be pro-
vided of the additional distances which might have to be
traveled and consideration given to additional energy expendi-
tures relative to forage quality should moose alter their
movement patterns.Al so refer to our comments under thi s
heading,Section 4.3(a)(i),for the Watana development.
-
-
W-3-356
Response
This discussion states that the 1.6 km cleared area may
present a visual barrier to crossing.Quantification is
not possible.Currently available information cannot
provi de estimates of energy expenditures re1 at i ve to
forage quality.The proposed modeling effort will pro-
vide data by which such estimates can be made.
•Disturbance:Please refer to our comments under this
heading,Secti'on 4.3(a)(i),for the Watana development.
Response
Please refer to our response to your comments.
-
W-3-357 -Mortality:As above,our previ ous comments under Secti on
4.2(a)(i)Morality Fa.;.tors;4.3(a)(i)Filling and
Operation,•Disturbance;and 4.3(c)(i)-Mortality apply.
Response
Pl ease refer to previ ous responses to your prev i ous
comments.
W-3-358 -Filling and ,Operation
• A1terati on of Habitat:P1 ease refer to our comments under
this heading,Section 4.3(a)(i),for the Watana development.
We are concerned that increased water temperature could result
in a larger area being affected by ice fog and rime ice forma-
tion,also see our comments under Section 3.3(a)(i).We again
recommend quantifying several impact scenarios re successful
vegetation changes from any of the impacts discussed here.
Response
No data are available to determine actual areas which
may be affected by icing of vegetation.Local variation
in air temperature,wind speed and direction will all
affect the distribution of icing.Refer to Section
4.3.2(a)(ii)Paragraphs 4 and 5.
W-3-359 •Interference with Movements:By reduci ng browse avail abil-
ity due to rime ice formation,the presence of ice fog could
be a compounding impact to moose.
Response
Rime,ice
There is
potential
inc1 uded.
formation can occur independently of ice fog.
no quantitative support for either of these
impacts,but they have nevertheless been
W-3-360 Moose movements may already be inhibited because of greater
visual exposure to predators in the vicinity of the reservoir.
We refer you to our comments under the Watana devel o~ent
(Section 4.3(a)(i)-Filling and Operation;•Blockage of
Movements)•
Response
See our earlier response to your comment.
W-3-361 •Disturbance:Again,our comments for Watana (Section
4.3{a)(i))apply •
•Mortality:Please refer to our previous comments on hunting
(Section 4.2(a)(i)•Mortality Factors,and Disturbance and
Mortality discussions under Section 4.3(a)(i)).
Response
See our responses to previous comments.
W-3-362 •Dev i 1 Canyon:Sunmary of Impacts:As we commented on the
Watana impacts summary,quantification and better definition
of impacts is needed here.We are al so concerned about
inattention to cumulative impacts.While habitat alterations,
disturbance,or blockage of movements may each be a "minimal"
impact,together they may be sufficient to severely stress
moose or reduce moose use of the project and adjacent areas.
Response
Thi s discussion has been el iminated.See impacts
summary for discussion of cumulative impacts (Section
4.3.5).
W-3-363 ~ii)Caribou:Definitions for the qualitative terms used
ere should be provided (e.g."little use").
Response
No quantification is possible.
rel ative to infrequently used
cannot be predicted.
Movements of caribou
areas of t hei r rang e
W-3-364 Brown Bears:Lack of quantification here,as in Section
4.3 a iv precludes evaluating even relative impacts for
each major project feature.
Response
Where data are available,quantification is provided
(see ADF&G 1982e).Evaluation of project impacts based
on available information are provided.
I~
-
W-3-365 (v)Black Bears:As in Section 4.3(b)(iv)above,lack of
quantification prevents a thorough analysis.Consideration
shoul d be given to the cumul at i ve effects of di sturbances,
loss of habitat,decrease in habitat value,and increased
mortal ity from human/bear confl icts from the Devi 1 Canyon
development in conjunction with the Watana development.
Response
Where data are avaflable,quantification is provided.
See impact summary,Section 4.3.5 for discussion of
cumulative impacts.
W-3-366 under Secti on
and cumu 1at i ve
-
-
-
Response
Please refer to our analysis of disturbance effects here
in and Section 4.3.1 (f).Cumulative impacts are treated
in Section 4.3.5.
W-3-367 (ix)Beaver: Refer to our comments under Section 4.3(a)(ix)
re the need to quantify the amount and qual ity of downstream
habitat improvements which could offset upstream habitat
losses and the dependence of any habitat improvement on the
operating flow regime.We suggest describing impacts under a
variety of potential flow regimes.
Response
Refer to our responses to previ ous comments.See also
Section 4.4 for mitigation plans to en han ace downstream
beaver habitat.Modeling of hydrology,floodplain
vegetation,and beaver is being conducted to evaluate
beaver responses to different flow releases.
W-3-368 (x)Muskrat:Please refer to our previous comments under
Sections 4.2(b)(ii)and 4.3(a)(ix)-Filling and Operation re
quantifying and controlling potential increases in trapping.
Response
Trapping will be prohibited from project facilities and
equipment by project personnel during the construction
phase.During operation,trapping will be the jurisdic-
tion of the ADF&G and beyond the control of the Alaska
Power Authority.
W-3-369 (xi)Mink and Otter:Again,we recommend providing some
quantification,definition,or relative correlation among
species and project areas for the qualitative impact descrip-
tions.
Response
Quantification is not possible on the basis of currently
available data.Discussion is considered a clear and
accurate portrayal of anticipated project impacts.
W-3-370 (vii)Coyote and Red Fox:We would expect an increase in
coyotes per our previous comments (Section 4.3(a)(xii)).
Response
See previous responses and revised text.
W-3-371 Furbearers:
here too.
Our comments under
Response
See previous responses.
W-3-372 (xiv)Raptors and Ravens
-Construction and Filling
•Habitat Loss:Paragr.aph 1:Refer to our comments under
Section 4.3(a)(xiv)-Disturbance.
Paragraph 2:Shoul d any eagl e bui 1d a nest,between now and
filling of Devil Canyon Reservoir which would subsequently be
lost in construction and/or filling of Devil Canyon,please
refer to our comments under Section 4.3(a)(xiv)
Disturbance.
Response
Acknowledged.
W-3-373 Paragraph 3:
sentence.
Please clarify what is meant by the first
Response
Typographical error corrected:uknow u should have read
"known".
W-3-374 Paragraph 4:Pl ease refer to our comments under Secti on
4.2(c){i)re the difficulties in locating goshawk nests.
Response
Please refer to our comments regarding surveys for gos-
hawks and habitat available to goshawks (above).
-
....
W-3-375 Paragraph 5:Please clarify the discussion and consider
whether the cliffs and trees which may increase in nesting
importance are as suitable as existing nest habitats.
Response
Text revised.In general,cliffs and trees referred to
are suitable because ravens have much lower nesting
requi rement II s tandards II than do raptors.Furthermore,
some of these cliffs may have been used in the past by
ravens since they often bu il d new nests each year,and
many such nests in certain nesting situations last only
a short time (i.e.one breeding season),and leave
little evidence of their having been present.
W-3-376 Disturbance:Para ra h 1:Again,please refer to our
comments under Sectlon 4.3 a (xiv)-disturbance.
~.Response
Acknowledged.
W-3-377 Paragraph 2:See our comments under Section 4.3(b)(xiv)this
section,Habitat Loss:Paragraph 2,above.
Response
Acknowledged.
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.F'
I
W-3-378 Waterbirds:Please refer to our comments under Section
xv as to the questionable value of the.reservoir area,
i.e.generally birds will not appear in the area any earlier;
birds which remain in the area longer may have problems find-
i ng food when encounteri ng frozen waterbodi es once they do
1eave;no data has been provi ded re any supp 1ementa 1 food
value in the reservoir area.
Response
Noted.The text has been clarified.
W.,.3-379 (xvi)Other Si rds:Paragraph 2:Please clarify the last
sentence.
Response
Clarified.
W-3-380 Paragraph 3:Please quantify the extent to which open water
in the reservoi r will compensate for loss of di pper breeding
habitat and descri be what feedi ng habitat woul d be avail ab 1e
in the reservoir •
Response
Text has been revised.
W-3-381
under
Please refer to our
,,.,--..,
Response
Please refer to our response to these comments.
W-3-381 (c)Access
(i)Moose:The qualitative,general discussion precludes any
definitive analysis of potential impacts.We suggest quanti-
fying current and potential hunter demand and harvests,area
moose populations and habitat quality for access route areas.
Varying degrees of winter severity and the length of each
access link should then be considered in conjunction with the
information described above and data on vehicle/moose colli-
sions in other areas of the state to assess the potential for
railroad or automobile collisions with moose.
Response
Where data are available in source documents,numbers
have been provided.The outlined modeling approach will
allow a more accurate assessment of the impact of direct
habitat loss,various levels of mortality from both
hunting and vehicle collisions,and various degrees of
winter severity.
W-3-383 Si nce access is a key feature to any mit i gat ion pl an for the
project,we agai n recommend eval uati ng the range of impacts
which would result from a variety of access/use options and
coordinating this with the Socioeconomics and Recreation
Chapters.Pl ease refer to our 17 August 1982 1etter to Eric
Yould re access alternatives;our comments there remain
applicable.
Response
We have referred to the 1etter and note the concerns
expressed therein.
W-3-384 Please correct internal inconsistencies in this paragraph:
loss and alteration of habitat,disturbance,and mortality are
certain,not "possible,"impacts as verified in subsequent
portions of this section (page £-3-350).Maps of proposed
access routes should also be included.
Response
Sentence has been altered.Routes appear in Figures
E.3.37,E.3.42 to 47,and E.3.79 to 82.
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W-3-385 -Mortality:Paragraph 2:Before di scussi ng impacts from
access,please specify any pUblic access and hunter take
restrictions assumed to be in effect for planning,construc-
tion,and operation phases of the project.Impacts will vary
from severe with no restrictions to minimal with strong
restrictions on access.In this respect,we find Chapter 3
confusing.The potential impacts from public access and hunt-
ing along project access routes are discussed here and then
the suggestion is made that these impacts will be minimized by
prohibiting worker access and.hunting,yet the chapter never
consistently describes what restrictions actually will apply.
Project.impacts,such as habitat degradation and population
disturbance associated with increased access,could be further
minimized by controlling public access (through restrictions
on DRVs,seasons or times of day of use,etc.)
Response
The impact .section is based on the assumption that
access roads wi 11 have unrestri cted access for project
personnel during the construction period but that publi~
access will be prohibited.After construction,the
roads will be open to the public,the impact discussions
further assume that workers wi 11 be allowed the same
hunting,trapping and rights as other Alaskans,and
that regulations currently in effect will continue.The
mitigation plan includes restrictions on worker recrea-
tional activities as a means of avoiding or minimizing
certain impacts.
W-3-386 Please substantiate the conclusion here that "carefully
managed hunting may effectively mitigate for some indirect
project effects •II The impact of dimi ni shed hunter opportuni-
ties is not fully described·here or in Chapter 5 (see our
comments there,Section 3.7(b)(ii)-Impacts on the Hunter).
Response
Section has been revised to clarify the utility of
.reduc i ng surpl us popul ati ons created by a sudden reduc-
tion in carrying capacity.See also Section 4.4.
Socioeconomic impacts are treated further in Chapter 5.
W-3-387 Paragraph 4:Pl e.ase define use of the terms IIsmallll and
"negligfble."During severe winters,moose may seek cleared
roadways as t.ravel corridors and be subject to collisions.
Si nce the Dena 1i Hi ghway is not kept open duri ng the wi nter,
it is not possible to fully compare the collisions on that
road with the potential for collisions on project access
roads.However,we suggest that a better understanding of the
subject could be gained with information as described under
Section 4.3(c)(i),abov.e.We also note that if workers are
allowed to commute to the project site or have free access in
and out of the project area,the volumes of road traffic would
be that in significantly higher.The analysis should be coor-
dinated with that in Chapter 5.Consideration should be given
to the times of year for recorded collisions and utilized in
scheduling access if patterns exist in that information.
Response
Section has
volume data
E.3.167).
considerably
analysis.
been rewritten with reference to traffic
provided by Frank Orth,Assoc.(Table
Traffic vol ume estimates provided are
higher than those used for the original
W-3-388 Paragraph 5:Please describe current railroad use as compared
with the projected additional eight round train trips each
week.We believe that project railroad use may be a signifi-
cant impact to wildlife in view of present winter use of four
round trips each week.
Response
We concur that impacts may be substantial.
railroad traffic information has been added.
Current
W-3-389 The length of additional track,as well as existing track,
should also be given for comparison with the mortality figures
given here.Information on moose densities and habitat values
in the area of the new as compared to existing railroad would
also be helpful in quantifying potential impacts,as described
above.We are concerned that in severe winters the loss of
wi nter range may be compounded by the potenti a1 for numerous
vehicle/moose collisions.
Response
The distribution of railroad kills,as described in the
text,is concentrated in low elevation areas during
severe winters.Therefore,some caution should be
exercised in comparing kills per length of track.The
proposed modeling effort will allow flexibility in
comparing various habitat values along the new and
existing corridors.The loss of winter range will be a
severe impact in the Watana reservoir area and will
a ffect a sepa rate popul at i on of moose,for the most
part,than the rai 1 access to the Devi 1 Canyon
facil ity.
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W-3-390 •Loss of Habitat:We concur with the analysis but suggest
some quantification be made of areas and vegetation types
which coul d become unuseabl e in a worst case scenario where
di sturbance causes moose to av oid using the road corridor
area.
Response
No data are av ai 1 ab 1e on the distance from t he road
disturbed moose may maintain.My attempt at such an
estimate would be conjectural and misleading.In
real ity,indiv idua1 responses wi 11 vary.Ps ind icated
in the text,little winter range or other special use
areas occur in the access corridor (see also Table
Eo 3.84).
W-3-391 •Interference with Seasonal Movements:With respect to the
seasonal migrations described here,please refer to our com-
ments under Section 4.3(c)(i)-Mortality,re the compounded
potential for even greater numbers of vehic1 e/moose coll i-
si on s.
Response
The text indicates the increased likelihood of mortality
due to coll isions in recognized movement corridors.
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W-3-392 (ii)Caribou:para~raPh 1:We reiterate our recommendation to
el iminate the Dena i Highway to Watana access route Cal so see
section 3.4(c)(il))which,as documented here,is "1 ike1y to
have a substantial effect on caribou movements.1I
Response
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Your recommendatj on wa s con sidered in access route
selection.see Chapter 10•
W-3-393 Paragraph 6:Please provide substantiating data for the judg-
ment that although cows calving in the area may avoid the
road,there will not be an effect on herd productivity.We
recommend quantifying the portion of the herd util izing this
a,rea.
R.esponse
No effect on herdproductiv ity has been found during
long-term,intensive studies of the Central Arctic Herd,
as discussed.This includes productivity data for a
calving concentration area in the Kuparuk oilfield which
is surrounded by intensive development.A1thoughca1v-
ing areas are traditional,exact locations of calv ing
vary from year to year in an unpredictab1 e fashion.No
defensib1 e quanti fication of the portion of the herd
affected in any particular year is possible.
W-3-394 Paragraph 7:Please provide further information on times of
day or seasonal variations expected for truck traffic.An
additional concern in considering the potential severity of
access-related impacts is the question of worker access.If
project workers are all housed onsite,the intensity of road
use will still be greater than described here;workers travel-
ing to and from the site at the beginning and end of their
times off represent a substantial road,or even airstrip use.
Moreover,if workers are allowed to individually commute,or
even if busses are used on a dai ly or weekly bas is,road use
will be even more significant.
Response
Available projected traffic figures appear in Table
E.3.167.No other traffic data are available.
W-3-395 Paragraph 9:Our previous comments on herd management apply
(Section 4.2[a][ii]).We recommend quantifying impacts des-
cribed throughout this section.
Response
This section has been altered accordingly.Quantifica-
tion is provided where data are available.
W-3-396 111 Da 11 The issue of di sturbance from
alr access project should be covered here;as described
in Section 4.3(a)(iii).Please provide information on the
expected intensity of aircraft use for the period of construc-
tion.
Response
A reference to that discussion has been added here.
W-3-397 Paragraph 2:Consideration should be given to increased rec-
reation and other activities which may compound habitat loss
impacts near the critical Jay Creek mineral lick.Please
restate those impacts as described in Section 4.3(a)(iii).
Response
Reference to 'previous discussion of these impacts has
been added.
W-3-398 (iv)Brown Bears:We concur with the assessment but recommend
that quantification of impacts be provided.
Response
Where numbers are available,quantification is pro-
vided.
W-3-399 (vi)Wolf:
apply.
Our previous comments under Section 4.3(a)(vi)
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Response
Pl ease refer to our responses to your previ ous com-
ments.
W-3-400 (vii)Wolverine:Paragraph 2:Quantification of trapping
effort and potential increases relative to wolverine popula-
tions should be given.Please justify the inference that
emigration frolll other areas w"ill mitigate for loss of wolver-
ine to trappers yet not affect overall populations.
Response
No data are avai 1abl e on trapper effort.Sentence has
been rewritten to prevent similar misinterpretation
regarding emigration.The word lI mitigate U does not
appear in this discussion and our meaning has been mis-
construed.The inference is that no detectable decrease
in harvest is expected because of·the wide-ranging
habits of the speci es and the 1arge area of habitat
surrounding the basin which will provide a source of
dispersing individuals.Likewise,no detectable change
in population levels will occur,though the social
structure and use patterns will undoubtedly be
affected.
W-3-401 (viii)Furbearers:In general,we find the discussion some-
what inconsistent with other sections,with no clear objec-
tives outlined for mitigation (see paragraphs 2,8,and 9 of
this section).Please also refer to our comments on the
socioeconomics (Chapter 5,Section 3.7 (c)(i)-Impacts of
the Project)and our recommendations under the wildlife miti-
gation plan (Section 4.4[b]).We recommend you then ensure
these sections are consistent with each other and with overall
project objectives and mitigation goals.Specific comments
follow:
Response
Please refer to Section 4.4 for mitigation plans.
Socioeconomics are treated in Chapter 5 and Section
4.5.
W-3-402 Paragraph 1:Please provide further data to substantiate the
conclusion that pine marten home ranges may become realigned
along the access road.Although we appreciate the thorough
discussion of potential project impacts,we are concerned that
repeated lack of quantification makes it difficult to assess
the relative importance of such uminor u impacts as compared to
the more severe impacts of direct habitat losses and increased
trapping mortality.
Response
Discussion is considered adequate.Considering small
ranges and use of forest habitats,the 1oca 1 di stri bu-
t i on of i ndi vi dua 1s with home ranges adj acent to the
road is expected to be affected.Quantification is
provided where available.Increase in trapping pressure
is explicitly identified as the single most significant
impact.
W-3-403 Pargraph 5:The well-documented likelihood of beavers using
bridges and cul verts for damsites more probably represents
further neg at i ve impacts to beaver than a source of habitat
improvement.Beaver use of those structures would confl ict
with project access,undoubtedly resulting in road maintenance
to remove beaver dams.If that removal occurs at the wrong
time of year,i.e.,autumn,beaver in the area may be effec-
tively eliminated (Furbearer Study Coordinator Phil Gipson,
personal communication.)
Response
Discussion should be read more thoroughly;it states
that habitat improvement is not anticipated in the prime
beaver habitat along Deadman Creek.No change has been
made in this discussion.
W-3-404 Paragraph 9:We are concerned with the use of the word
Ildesirable."Thus,we suggest modifying the last sentence to
say that to date,trapping pressure on mink and otter has been
low in this part of Alaska (Furbearer Study Coordinator Phil
Gipson,personal communication.)
Response
Gipson et ale (1982)state:"Local trappers seldom take
river otters.The animal s are difficult to trap and
pelt values have usually not been high enough to justify
the effort."Mink are also taken mostly incidentally
and are not specifically sought by trappers.
W-3-405 (ix)Raptors and Ravens
-Denal i Hi ghway to Watana Damsite:Paragraph 1:We recom-
mend describing how this area was surveyed.
Response
See Kessel et ale (1982a).Access routes were surveyed
by he 1 i copter on July 3 and 5,1981.D.G.Roseneau
also surveyed the Denali Highway to Watana Damsite
access road by helicopter on October 16,1982.Although
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the breeding season was long since over and snow covered
the ground,it was cl ear that no cl iff-nesti ng habitat
was present within several miles of the new alignment.
It was also evident that bald eagle nest location BE-6
(previously identified)was the only tree nest near the
alignment •
W-3-406 Paragraph 2:Our comments under Section 4.3(a)(xi v)
-Disturbance would apply should golden.eagles subsequently
nest along the access road.
Response
Agreed--however,no cliff habitat occurs within several
miles of the access road.(Few trees also occur near
it,and furthermore,there are only about 10 instances
of gol den eagl es nesting in trees known from Al aska -
see Roseneau et ale 1982.)
W-3-407 Paragraph 3:Refer to our comments under Section 4.3(a)(xiv)
-Disturbance re the illegality of destroying a bald eagle
nest.
Response
The illegality of destroying bald eagle nests is clearly
understood (see previous comments above.)
W-3-408 -Watana Damsite to Devil Canyon Damsite
•Di sturbance:We agai n refer to you to our comments under
Section 4.3(a)(xiv)-Disturbance •
Response
Comment noted.
W-3-409 -Devil Canyon Damsite to Gold Creek
•Di sturbance:We recommend that the concl usi ons of mi nimal
disturbance here,be consistent with those in Table W76 which
says that lI cons truction and operation activities may result in
considerable disturbances.1I If the nest is active~we will
recommend timing constraints on the construction activities
near it (see Section 4.4 [c][i]).
Response
The inconsistent statement in the text was corrected.
W-3-410 d Transmission Lines:As with the previous Section 4.3,
c Access,the severity of impacts from the tran smi ssi on
lines will depend on restrictions on access (e.g.by siting,
access to the lines,and/or access along the lines)as well as
the methods of construction and maintenance (e.g.hel icopter,
winter,and/or onground).Please clarify what methods and
schedule for construction and maintenance will be utilized and
what restrictions,if any will be placed on access;we find
the Exhibit E inconsistent on these points.The reference
here is to helicopter and winter construction and only selec-
tive clearing of vegetation;in Chapter 5,reference is made
to increased hunter access along the 1 ines which infer greater
clearing and road access (Section 3.7 [c][i]•Impacts of the
Project).Increased sno\OMlobil e and ORV access and their
disturbance along the transmission corridors should also be
addressed here.Our comments under (Section 4.3[c])Access on
the need to quanti fy expected additional harvests al so apply
here.
Response
Transmission line impacts have been largely rewritten.
W-3-411 Pl ease refer to our tran sOli ssi on corri dor c OOIments under
Botanical Resources,Sections 3.3(d)and 3.4(d).We refer you
to our January 5,1982 review letter on the November 9,1981
Transmission Corridor Report.Our comments there remain
appl icabl e.In particul ar,we recommend incorporating into
project plans:(1)on-ground evaluations with representatives
of the FWS,ADF&G,and the Al aska Pl ant Material s Center re-
garding the appropriate management along various lengths of
the transmission 1 ines (e.g.the extent of clearing,mainten-
ance,possible seed ing,etc.shoul d depend on the wi 1dl He
species of concern and vegetation types present;(2)coordi-
nated access to the transmission 1 ines with access to other
project facilities;(3)controls on public access to the
transmission lines during and post-construction to reduce
habitat degradation and population disturbances;and (4)
controls on access along the·length of the lines.We would
appreciate your response where project plans may be in con-
n ict with either these points or the five specific recommend-
ations in our January letter.
Response
Refer to proposed mitigation plans in Section 4.4.Also
note 1etter of January 5,1982,was responded to on
Apr il 1 4,1982 •
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W-3-412 We are concerned with the generality and lack of quantifica-
tion of this section.Using the vegetation remapping,a
successional model should be applied;the selective clearing
and maintenance to be used along the transmission lines should
be factored into that model.Areas within each type to be
impacted and vegetation type changes over the project life can
then be calculated.Maps of the proposed transmission line
corridors should also be provided.
Response
Please refer to Section 3.3,Botanical Resources
impacts.Vegetation remapping is not yet available.
Maps appear in Figures E.3.32,35,and E.3.49 to 52.
W-3-413 (i)Big Game
-Cook Inlet to Willow:Paragraph 1:Again,the degree of
impact will depend on the type of clearing and maintenance and
thus,habitat al terations which result.We have recommended
selective clearing,winter and helicopter construction and
maintenance and controlled access along the line.Maintenance
should involve selective clearing and topping of trees and
tall shrubs to help maointain increased forage production.We
agree that transmission line clearing may increase moose and
black bear carrying capacities if vegetation types which can
be enhanced are present along tile 1i nee Thus,we recommend
quantifying the types present and their value to big game.
Response
Methods have been more thoroughly described here and in
Section 3.3.Types present are described in Table
E.3.77 to E.3.79.
W-3-414 Paragraph 2:Please describe the presence or absence of moose
calving grounds and bear denning sites.The cumulative
impacts of the transmission lines in conjunction with existing
disturbances should be discussed.
Response
Surveys for such features have not been conducted •
W-3;.415 -Healy to Fairbanks:Again,quantification of types to be
impacted and successional changes over the project life should
be provided.
Response
Types affected appear in Table E.3.86.See Botanical
Resources for description of successional types.
W-3-416 -Willow to Healy:Please refer to our January 5,1982 letter
regarding the dependence of the Susitna project on the
Intertie.Thus,we recommend full consideration of impacts
from the Intertie within this analysis.Quantification of
impacts is needed,as above.
Response
The Intert ie is descri bed and evaluated ina separate
report.Additional impacts resulting from the Susitna
Hydroelectric Project are thoroughly described here.
See the Power Authori ty response to the FWS 1etter of
January 5,1982.
W-3-417 -Watana Dam to the Intertie:Please provide a quantification
of impacts,as above.
Response
Where quantification is possible,data have been
provided.
W-3-418 11 Furbearers:Para ra h 3:Pl ease refer to our comments
under Section 4.3 c viii regarding inconsistencies between
Chapters 3 and 5 in presenting impacts.We are also concerned
with inconsistencies between the increased access acknowledged
here and mitigation guidelines to prohibit such access
(Appendix EE,item 1);please clarify.Our previous recom-
mendations to quantify impacts apply here too.
Response
Transmission corridor impacts have been largely rewrit-
ten.Impacts anticipated as a result of use of the
design described here and in Chapter 3 are dealt with in
this section.Section 4.4 treats design changes and
other actions which will mitigate for such impacts.
Quantification has been provided where possible.
W-3-419 (iii)Birds:Paragraph 1:We recommend providing references
for the broad conclusion that species diversity may increase
near the transmission lines.Removal of nest and forage trees
will decrease available habitat for species such as pine gros-
beak and boreal chickadee.
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The text has been altered and references added •
W-3-420 Paragraph 2:We concur.Please also refer to our comments
under Section 4.2(c)(i)regarding continuing peregrine falcon
surveys.
Response
Comment noted.Pl ease refer to our prev ious comments
regarding 1 ikel ihood of peregrines occurring in the area
and surveys for them as part of a mon itoring effort.
W-3-421 paragra~~4:Powerl ines are particul arly deadly to
swans.!f However,mortality from collisions,not elec-
trocution,is the major adverse impact to swans.Locating and
marki ng 1 ines is the key to min imi zing that impact (see our
comments under section 4.4(c).
Response
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W-3-422
W-3-423
We concur -clarification has been provided.
We recommend expanding thi s discussion to describe:(l)the
potential for swan collisions;(2)migrations of swans through
the project area;and (3)swan use of remote 1akes,including
those in the Matanuska-Susitna Valley,for nesting and rear-
ing.Refer al so to our comments on inc reasi ng develorrnents
and disturbances which have caused swans to abandon areas,
Section 4.3(a)(xv)-Disturbance,and our January 5,1982
1etter to Er ic Youl d,as above.
Response
Text has been rev i sed.
(e)Impact Summary
We are concerned wi th the emphasi s of thi s summary on impacts
which can be most easily mitigated.Consideration should al so
be given to documenting unavoidable,adverse impacts,cumula-
tive project impacts,and differences between long-versus
short-term impacts.The uncertainty of predicting project
impacts on the basis of existing information are clearly
apparent here.
Response
The impact summary has been largely rewritten.Emphasis
is concentrated on what are considered to be the most
serious anticipated impacts.Impacts which are consid-
ered unlikely or of small consequence are not treated in
the summary except where they are considered to have a
potentially significant cumul ative impact.
W-3-424 Paragraph 2:We concur that increased human use is positive,
but the habitat alteration and disturbance which may also
result from increased access are often a significant negative
impact to wildlife populations.There is a need to integrate
this discussion with those in Socioeconomic and Recreation
Chapters of the exhibit.
Response
The posit i ve and negative effects of access have been
discussed in the appl ication.The appl ication has been
improved to better document the considerable interaction
between the recreation and wildlife programs.A section
on socioeconomic/wildlife relationships has been added
to Chapter 3.
W-3-425 Paragraph 3:We recommend also considering habitat values and
how they relate to wildlife populations over the life of the
proj ect.
Response
Where habitat val ues can be assessed meani ngfully,they
are indeed considered.The modeling approach for moose
is an example.However,for many species,habitat value
cannot be assessed.
W-3-426 (i)Big Game:Paragraph 1:As above,the increased access
afforded to hunters is more of a concern from the standpoint
of resultant popul ati on di sturbances and habitat alterations,
assuming that harvest is regulated to protect population
levels.
Response
Changes in population numbers of big game species attri-
butable to hunting can be easily documented.In con-
t rast,few cases are avail abl e where di sturbance and
habitat alteration,such as that anticipated for this
project,have measurably affected population size.The
emphasis has therefore been placed on direct hunting
mortality rather than disturbances or habitat changes.
W-3-427 Paragraph 3:We are concerned with the subjectivity of the
fi rst sentence here.Pl ease provide quantitat ive data for
comparison with the previous paragraph to justify the relative
magnitude of project impacts.
Response
Section has been rewritten.
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W-3-428 Mention should also be made that project impacts will be
particulary critical during years of severe winter.During
such years,an additional impact to be considered would be
moose/vehicle collisions.Cumulative impacts are also of
concern with moose.
Response
Section has been rewritten.
W-3-429 Paragraph 4:Inability to predict major impact on caribou,as
cited here,is a serious data gap.We recommend describing
additional information to be gathered to help make such
predictions.Be.st and worst case impact scenarios should be
described to provide at least an indication of how caribou
could suffer from increased disturbance,impacts near calving
areas,Bnd alterations in seasonal movements.
Response
Section has been rewritten.
W-3-430 Paragraph 6:Aga"in,cumulative impacts are a concern in eval-
uating overall project impacts to both brown and black bear.
Response
Section has been rewritten •
W-3-431 Paragraph 7:Di sturbance from increased access and the pre-
sence of human acti vit i es shoul d be the more di rect concern
here (please see our comments under Section 4.3[a][vi]).
Response
Section has been rewritten.
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W-3-432 tin Furbearers:Paragraph 1:We again note the potential
or redfox populations to decrease as coyote populations
increase (pl ease see our comments under Section
4.3[a][xiii]).
Response
See o~r previous responses.
W-3-433 Paragraph 2:We suggest cl arifyi ng these concl usi ons to be
consistent with previous impact descriptions,e.g.Section
4.3(a)(ix),paragraph 1,page E-3-315,says beaver populations
are likely to increase;this paragraph says they II may
i ncrease ll
,downst ream (page E-3-371).We agai n recommend des-
cri bi ng the water management regimes under whi ch furbearer
populations will most likely benefit.Overall,we are con-
cerned with the uncertainties expressed in this discussion and
recommend that additional furbearer work be considered,to
satisfy these uncertainties (e.g.we suggest focusing on
beaver and pine marten per our comments under Section 4.4[bJ).
Since impacts to valuable habitat in the vicinity of Deadman
Creek can be mitigated by alternative road siting,they should
be described here.
Response
Section has been rewritten.
W-3-434 (iii)Birds:We recommend also describing the negative im-
pacts from swan collisions and raptor electrocution with
transmission line development.Similarly,disturbance to
nesting swans and raptors is another negative impact which
should influence mitigation planning.
Response
The text has been a lte red to mention those negat i ve
impacts.Disturbance to birds was preViously mentioned
as a primary effect.Disturbance to nesting swans is
doubtful.All swan nests are well removed from the
immediate project area.Potential disturbance has
influenced mitigation planning (see mitigation section
and impact section).
W-3-435 4.4 Mitigation Plan:As with the mitigation plan for Botan-
ical Resources,we find the mitigation plan for wildlife
incomplete and too general.Our detailed comments on lack of
quantification,lack of integration with other resources
evaluated,and need to consider the full range of mitigation
options possible should be considered here as well (see
Section 3.4).
Because the wi 1dl He anal ys i sis much more qua 1itat i ve than
quantitative,we commonly found the emphasis on minor impacts
rather than on major ones.A similar misemphasis is in the
mitigation plan where attention is often focused on small,
more easily mitigated impacts.Alternatively,severe impacts
are left to undefined and uncertain mitigation measures such
as later habitat enhancement and/or lands acquisition.Please
refer to our earl i er comments on the need to cl ari fy overall
project mitigation o~jectives (Section 4.1).
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Response
We have attempted to clarify and augment mitigation
measures and impact assessment in response to your
comments.However,differences of opinion remain in
some instances.We have presented impacts we consi der
significant and indicated our analysis,based on avail-
able information,of each impact1s gravity.Where data
are available,we have provided elaboration and defense
of our analysis;thus,the emphasis on treatment of some
issues over others.In addition,when impacts are hypo-
thesized to which no defensible probability of occur-
rence can be provided,the mitigation plan suggests
action appropriate to the relative magnitude of the
impact in terms of its effect on population size or
carrying capacity (as determined by supportive data or
scholarly opinion).We have attempted to more carefully
describe measures necessary for choosing areas and tech-
niques for replacement and out-of-kind mitigation.
W-3-436 This section should clearly explain why mitigation measures
al ready recorrvnended by FWS and other resource agencies have
not been adopted.For example,negative impacts to wildlife
from the Denali Highway to Watana development access route are
consi stently documented throughout the report:the road wi 11
result in substantial di sturbances;the Deadman Creek area
paralleling the road is particularly important habitat to
numerous wildlife species (e.g.calving moose,Section
4.2[a][i]-Distribution.S ecial Use Areas:Calving Areas:
Paragraph~;brown ear denni ng,Sectlon 4.3 a i v
-Constructi on:Paragraph 10;cari bou movements,Secti on
4.3[c][ii];wolf denning,Section 4.3[c][vi];valuable beaver
habitat,Section 4.3[c][viii];bald eagle nesting,Section
4.3[c][ix],etc.).Mitigation of these impacts can be effec-
tively accomplished by completely avoiding the impact,that is
alternative siting as recommended in our August 17,1982
1etter to Eri c Voul d and further detail ed in our comments on
the Botanical Resources mitigation plan,Section 3.4(c)(ii).
Response
Refer to responses to general comments rai sed in the
cover 1etter of January 14,1983,and/or treated in
Chapter 10 describing the alternatives for project
features.See Section 4.4.4 -Documentation of Agency
Recommendations.
W-3-437 We also request that you (1)confirm the inclusion of recom-
mended measures in project design,and (2)clarify the extent
of publ ic access and uses in the project areas throughout
planning,construction,and operation of the project.For
example,please specify the extent to which the environmental
guidelines in Appendices EA to EE have and will be guaranteed
in project design and operation.
Response
This document represents a guarantee by the Alaska Power
Authority that actions indicated herein will be incorpo-
rated into project design and operation.Appendices
referred to above were guidelines for design,not design
stipulations and mayor may not be incorporated by the
Alaska Power Authority.
W-3-438 Establ ishment of a monitoring and follow-up program for all
phases of project construction and operation is an essential
feature of the mitigation plan.Key components of this pro-
gram are that it:(1)include appropriate federal,state,and
local agency participation;(2)be fully supported by project
funding;and (3)be utilized to modify,delete,or add to the
mitigation plan in response to both information from ongoing
studies and needs which become apparent as project impacts are
realized.While monitoring by itself is not mitigation,
acti ons taken as a result of that monitori ng can ensure the
effectiveness of the implemented mitigation plan.
Our final general recommendation on the mitigation plan is
that continuing consultation between the license applicant and
resource agencies include initiation of working sessions with
project design engineers to fully incorporate wildlife mitiga-
tion plans.
Response
See Section 4.4.2(a),Continued Monitoring and Study
Needs,and Section 1 for a description of a proposed
structu re for interact ions wi th appropri ate agency and
project personnel to insure a flexible and adaptable
mitigation plan.Also see the Power Authority response
to FWS covering letter of January 14,1983.
W-3-439 (a)Big Game
(i)Moose:Paragraph 3:We concur with the processes now
being used to quantify probable impacts of habitat loss and to
develop selection criteria for replacement lands.Our pre-
vi ously descri bed concerns for the need to evaluate habitat
values are of particular note here;habitat quality must be a
factor in quantifying the areas of specific land parcels which
are to be enhanced or acquired as mitigation.A schedule for
the availability and incorporation of this data into project
plans is al so needed.Some assessment should be made of the
locations and potential sizes of such areas.
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Response
Forage avail abil ity,as measured for the model ing
approach described,is a measure of habitat val ue.For
moose this infonnation is obtainable and represents a
habitat characteristic of primary importance.
W-3-440 Paragraph 5:Further deta il s shoul d be prov ided on the sc he-
dUle,potential size,habitat types,and studies,which would
be involved in the Alphabet Hills burn.Land ownership,vege-
tation types,and other constraints to the potential val ue of
burning or other manipulations to enhance habitat should also
bed e sc rib ed •
Response
Details on the proposed Alphabet Hills burn are provided
in Section 3.4.2.Land ownership constraints and a
description of the potential to increase browse by
burning and other techniques are also described.
W-3-441 Paragraph 6:Please clarify the criteria to be used in re-
pl acement land sel ection.We caution that repl acement 1ands
only contribute to offsetting unavoidable habitat quality
losses elsewhere when:(a)habitat value of the replacement
land would be degraded by some predictable means other than
the project during the life of the project but,through man-
agement for fish and wildlife,that degradation could be
prevented;or (b)replacement lands are currently degraded and
thro~g h management for fi shand wil dl ife,produc tiv ity coul d
be increased over the 1 ife of the project;or (c)through
management of fish and wildlife,the productivity of an exist-
ing natural unit of habitat could be increased by reducing or
el iminating one or more factors 1 imiting its productivity.
Identified replacement lands must be a manageable unit.
Response
See Section 4.4.2(b)-Mitigation Plan 6.
W-3-442 Paragraph 7:To maintain the increased value of managed
habitat,provisions should be included for ongoing management'
of them until such times as the project area is returned to
the pre-project state.
Response
Management obl igations will continue through the 1 icense
period.
W-3-443 Paragraph 8:The maximum design speed of 40 miles per hour
referred to in Appendix EC,item 1,should be assured here as
one means of minimizing the potential for moose/vehicle
collisions.
Response
A variable speed design has been incorporated (not a
maximum 40 mph design).This design will not signifi-
cantly reduce the potential for moose/vehicle colli-
sions.It will,however,reduce loss of sensitive
habitats.
W-3-444 Paragraph 9:We strongly support the proposed Envi ronmental
Bri efi ngs Program and recommend that it be a mandatory
requi rement for all project personnel before they begin work
on the project.
Response
Comment noted.See Mitigation Plan 15.
W-3-445 Paragraph 10:Assistance from APA in regulating access should
also be for the purposes of minimizing habitat degradation and
unnecessary disturbances.
Response
Comment noted.
W-3-446 (ii)Caribou:Provisions to monitor and remove logs and other
debris from the impoundments should be included in the overall
project monitoring program.This will ensure that such debris
does not inhibit caribou movements (see Section 4.3(a)(ii)-
Filling and Operation,paragraph 9).
Response
This has been incorporated as Mitigation Plan 9.
W-3-447 (iii)Dall Sheep:Please descr"ibe how the prohibition of
visits to the Jay Creek mineral lick is to be enforced.We
recommend that the porti on of the reservoi r adjacent to the
1 ick be closed to boat and floatplane use.We suggest that
the effectiveness of any measures to expose new portions of
the mineral lick be demonstrated and then incorporated into
the mitigation plan if effective.
Response
See Mitigation Plans 10 and 13.
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W-3-448 (iv)Brown and Black Bear:Paragraph 2:We strongly concur
with recommendations to promptly incinerate garbage and fence
camps.Experience from other projects (e.g.Terror Lake
hydroelectric project)shows the need to clearly sign and
monitor gate closures to maintain the effectiveness of
fencing.The Environmental Briefings Program referred to
under Section 4.4(a)(i),paragraph 9,is particul arly
applicable here.
Response
Comment noted.This impact is treated in detail in this
document.See Mitigation Plan 15.
W-3-449 Paragraph 3:The habitat values to be gained from mitigation
measures referred to here must be quantified before any miti-
gation for bear impacts can be claimed.
Response
Comment noted.See Mitigation Plan 6 and Section 4.4.3
-Residual Impacts •
W-3-450 (v)Wolf:Please refer to our comments in the previous para-
graph about quantifying recommended mitigation measures •
Response
Comment noted.See Section 4.4.3 -Residual Impacts.
W-3-451 Beaver and pine marten are both ecologically and economically
important;mitigation of some project impacts is possible.We
recommend revising the first sentence to describe what pro-
cesses and/or criteria were used here in deciding to emphasize
beaver and pine marten in mitigation planning.
Response
Mitigation Plan has been rewritten.Prioritization of
beaver and pine marten has been justified in all fur-
bearer sections.
W-3-452 Potential benefits to other species from beaver activities is
the type of minor ~mpact we believe to be overemphasized while
more significant and difficult to mitigate impacts are not
treated as thoroughly.For example,beaver activities may
confl i ct with slough management pl ans for sal man.Moreover,
benefits from beaver activities may ultimately be negated by
increased trapping which will be facilitated by project access
and transmission corridors.The consistent lack of quantifi-
cation in the draft Exhibit E precludes evaluating the sig-
nificance of any such benefits relative to overall project
impacts and recommended mitigation measures.
Response
Comment noted.
W-3-453 Paragraph 2:We recommend discussion be provided on how
proposed mitigative siting of the transmission corridor for
pine marten will conflict with,or benefit,other wildlife
species.
Response
See Impacts Section on Transmission Corridor for other
species.
W-3-454 Paragraph 3:Per our previous comments,we recommend coordi-
nating the discussions of impacts and mitigation measures
between Chapters 3 and 5.We see a need to cl early and con-
sistently state project objectives in both chapters.We
concur that workers and their famil ies be prohibited from
trapping or hunting while working in the project area and
request assurance that such prohibitions will be part of
project pl ans.
Response
See Section 4.4.4 -Documentation of Agency Recommenda-
tions.
W-3-455 Although increased access may be viewed as a net benefit to
trappers,habitat degradation,disturbances to the population,
and confl icts with project management (e.g.removal of beavers
which confl ict with road culverts)woul d resul t in 1ess than
expected benefits to these groups.Thus,we recommend
continued monitoring to assess that potential.We al so then
recommend that a process be developed for implementing further
mitigation (e.g.,recommendations to the Game Board on greater
harvest restrictions,habitat manipulations,alternative flow
regimes,etc.),should these efforts fail or impacts be found
more severe than intially evaluated.
Response
See Section 4.4.2(a)-Cont"inued Monitoring and Study
Needs and section 4.4.4 -Documentation of Agency
Recommendations.Also Mitigation Plan 18.
W-3-456 Paragra8h 4:We request confirmation that project design
plans w,ll not include gravel extraction from Deadman Creek.
Please provide further information on how disturbance of
riparian vegetation will be minimized.
Response
Confirmation provided in Mitigation Plan 17.
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W-3-457 Paragraph 5:Pl ease refer to our comments under Secti ons
4.3(a)(ix)and 4.3(b)(ix)re the need for quantified data to
support the conclusions here.We strongly support the
proposed monitoring and model development programs.These
programs should also be the basis for verifying impact
predictions.Although by itself monitoring does not mitigate
project impacts,it should be the basis for determining
additional mitigation needs.
Response
Comment noted.
W-3-458 Paragraph 6:We concur.To maximize the effectiveness of the
mitigation plan,we recommend continuing studies to fill data
gaps,quantify conclusions given here,and cOll1plete habitat
models for beaver and pine marten..
Response
See Mitigation Plan 18,also Section 4.4.4 -Documenta-
tion of Agency Recommendations and Section 4.4.2(a)-
-Continued Monitoring and Study Needs.
W-3-459 (c)Birds
(i)Raptors and Ravens:Paragraph 1:We recommend expanding
the list of major impacts to include loss of hunting habitat,
a corollary impact to the loss of nesting habitat identified
here.A mitigation need we have repeatedly recommended is
realignment of roads and transmission corridors away from
riparian corridors and other wetlands valuable in migration,
as well as breeding (e.g.letter from FWS to Eric Yould,5
January 1982).
Response
Some realignment of road and transmission corridors has
been made (see Figures E.3.79 to 82)It is agreed that
loss of hunting habitat to raptors is a valid impact
that must be addressed.However,it is not agreed that
loss of hunti ng habitat will be a major impact compar-
able to loss of nesting habitat.It is a misconception
that raptors are primari ly food 1 imited (see Newton
1979).For instance,cliff-nesting habitat consists of
fi xed geol ogi cal features whose di stri buti on and number
are considerably more restricted than "hunting habitat"
for raptors that often range cons i derab 1 e di stances to
hunt in a variety of land form and habitat types.
Furthermore,it shoul d be poi nted out that for many
raptors,"hunting habitat ll and productive areas of prey
habitat,including riparian zones and wetlands,are not
necessarily equivalent.Such habitats are,of course,
important--they tend to produce or concentrate prey
spec i es,but they also provi de escape cover for prey
species.Several large raptors,including gyrfalcons,
peregrine falcons and golden eagles,have difficulties
hunting in these areas.Instead,they tend to hunt over
them for avian prey or in open,coverless terrain
somewhere near them because "hunting habitat"must also
afford prey availability and vulnerability.Peregrine
falcons provide an excellent example in that the three-
dimensi onal "gul f of ai r"over ri vers in front of and
extending either side of their river cliff nesting
locations is primary,important "hunting habitat"(see
Roseneau et ale 1982).Nearby wetlands,forests,and
riparian areas produce and harbor prey,but the prey are
caught as they cross through thi s gul f of ai r.Land
birds are especially vulnerable because they cannot
(some try!)take advantage of the water as escape cover.
Thus,some of the very best peregri ne nest i ng habitat is
found only along major rivers,regardless that similar
cliffs also may be present on narrow side tributaries.
In the case of the Watana impoundment,riparian habitat
(prey product ion)wi 11 be lost,but on the other hand,
the wide,long water body will in turn provide excellent
hunti ng habitat (prey vul nerabi 1 ity)for some raptors
as prey species from other nearby,untouched terrestrial
habitats cross it.In general,most raptors,including
eagles and falcons,are very opportunistic hunters and
are capable of and do take a wide range of prey species
and sizes of prey.This tends to buffer them from some
oft-times marked changes in availabil ity of some prey
species.and it tends to allow them to utilize a wide
variety of habitats (e.g.,golden eagles successfully
inhabit and exploit mountains.forests and sea coasts
from temperate latitudes to arctic latitudes).To quote
from the USHJS Alaska Peregrine Falcoln Recovery Team
Recovery Plan (draft-April 1982)for Alaskan peregrines,
"A significant alteration of large areas of hunting
habitat woul d result ina reduct i on of prey abundance.
Minor habitat alterations by man,such as roads.
probably do not destroy a large enough percentage of the
habitat to be of consequence."And it needs be
remembered that many forms of habitat alterations
produce open areas that in turn enhance prey
vul nerabi 1 ity.
W-3-460 Furthermore.we recommend that the monitoring program include
continuing surveys for peregrine falcons (see Section
4.2(c)(i))as well as other raptors (see Sections 4.3(b)(xiv)
.Habitat Loss).to confirm their absence in construction
activities areas.
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Response
The monitoring progam would automatically include moni-
toring for presence/absence of peregrines.However,we
also wish to refer you to previous comments regarding
the quality of the area as habitat for this species--at
best it is marg ina1 habitat,and it is doubtful t"hat
more than the odd peregrine or t\'Kl wi 11 ever naturally
inhabit it.
W-3-461 We are concerned with the emphasi s on creating artific ia1
nests.That emphasi sis based on the asslll1pti on that nest
sites are the 1 imiting factor to raptor use of the project
area.Thi s has not,to date,been adequately supported by
on-going studies.For example,overall loss of feeding habi-
tat may negate potential benefits from such structures.
Response
We appreciate this concern.However,most raptors in
most regions are in fact rimari1 limited b occurrence
and availability of nesting locations e.g.a cliff or
stand of trees which may contain one or more nest sites
--a pair may have one or more alternate nesting loca-
tions)and nest sites (the actual nests or ledges used
by the pair--a pair may have one or more alternate
nest sites at a given nesting location).To quote from
Newton (1979),who has stlTlmari zed thi s aspect of raptor
biology quite well ("popu1 ation Ecology of Raptors,
Buteo Books,Vermillion,South Dakota,and T.&A.D.
Poyser Ltd.,England):
IIRaptors are among the few groups of birds whose numbers
and nest success are in some regions clearly 1 imited by
the avail abil ity of nesting p1 aces.To pick an obvious
examp1 e,most cl iff-nesters are restricted geograph-
ically to breeding in areas with cliffs.Within such
areas,their breeding density may be 1 imited by the
number of cliffs with suitable ledges,and their breed-
ing success by the accessibil ity of these 1 edges to
predators.Other raptors may be 1 imited in open 1 and-
scapes by a shortage of trees,and even in woodlands,
nest-sites may be fewer than they at first appear.In a
1 arge area of mature forest in Fi n1 and,1 ess than one in
a thousand trees were judged by a biologist to be suit-
able for nests of white-tailed eagles,while in younger
forests,suitable open-crowned trees were even scarcer
or non-existent.More concrete evidence that lack of
good nest sites may often restrict breeding density or
success came from the experiments described in Chapters
3 and 16,in which pair numbers increased or success
improved following the provision of artificial sites."
W-3-462 -Creating Artificial Cliff-Nesting Locations:We concur with
the recommendations to contin ually monitor for nest destruc-
tion and to provide additional mitigation later,if found
necessary.
Response
Commen t noted.
W-3-463 -Creating Artificial Tree-Nesting Locations:Paragrah 1:
Please provide or correct the cooplete reference for creating
successful bald eagle nests;it was apparently omitted from
the bibliography.We question the suitability of presently
unused habitats cited here as potential nest sites.Since
eagles are not using these areas,food or some other habitat
parameter may be limiting.
Response
The reference has been added to the bibliography section
(see Olendorff et al.1980).It must be noted that
there is a distinct difference between providing artifi-
cial,but natural appearing nests (repl icas)in appro-
priate suitable habitat,and providing other devices,
including artificial platforms and nest structures.It
must also be noted that when bald eagle nests have been
rebuilt to replace nests that were lost nearby,these
attempts were successful in virtually every case.Such
attempts have been 1 imited in number primarily as a
result of lack of opportunity,interest,funds or other
circumstances,not because they are unl ikely to work.
The state-of-the-art is such that modifying habitat and
constructing nests near the project area is a rel atively
small step beyond rebuilding blown down nests.It is
correct to assume that some habitat parameter may be
limiting bald eagle use of the unused habitats suggested
for mitigation measures.However,for various reasons,
including some of those mentioned in regard to loss of
hunting habitat (see above)and the presence of several
species of fish,especially in two of the areas (e.g ••
spawning chinook and sockeye salmon in Portage Creek and
white fish at its mouth.and similar fish stocks
associated with Prairie Creek--see Section 2)and nearby
ponds and lakes supporting water birds (e.g ••between
Indian River a[ld Portage Creek,and between Portage
Creek and .Dev il Creek.and Stephen La ke v ic in ity),it is
unlikely that food is a limiting factor.Instead.it
appears that these areas are little used because of an
absence of appropr iate nesting 1 ocati ons {an extremel y
important "habitat parameter"(again,see Newton 1979).
The best example is Portage Creek.Considerable balsam
poplar (a tree species especially favored by bald eagles
in northern.non-coastal regions)are located along it.
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Many of these trees are 1arge enough to support bal d
eagle nests,but stands tend to be dense,canopies tend
to be closed and format i on of the branches tends to be
less than desirable.All basic factors considered
(e.g.,food sources,land form,vegetation cover,
reasonable proximity to the project area where some
existing,albeit limited,nesting habitat with nests
will be lost),and reasonable proximity to other nesting
areas (e.g.,Deadman Creek,main channels downstream
from Indian River)suggest that habitat mOdification and
enhancement along Portage Creek woul d provi de a
reasonable (or better)chance to successfully replace
bald eagle nesting locations that will be lost as a
result of the Susitna Hydroelectric Project.
W-3-464 Paragraph 2:We suggest expanding the discussion to describe
the comparabil ity of habitats,ci rcumstances)and speci es of
birds using artificial nesting platforms as listed in Table
W81.The success of those efforts may not be directly applic~
able to the project area,given the different habitats and
species involved.Please include information on whether such
structures have ever been successful in Alaska.
Response
Additional information has been provided in the text •
Table E.3.176 was provided to show a range of examples
of devices and species,and to show general applicabil-
ity to raptors as a group.Some species listed
eagles,red-tailed hawks,American kestrels)are the
same species that occur in the project area,and the
success of these efforts is clearly applicable to the
project area (e.g.especially for golden eagles!).
Differences between project area habitats and habitats
where successes have occurred must be recognized.
However,this is not a major issue when compared to the
basic biology and behavior of the species,and choosing
appropriate designs for nest sites.Many of those
species,including golden eagles (a species that will
perhaps be impacted by the proj ect to a greater extent
than any other)are adapted to a wide range of basic
habitat types (forest,mountain,seacoast,warm desert,
cold arctic "desert").They make use of these habitats
as long as an adequate prey base is available (most
areas),and more importantly,as long as suitable
nesting locations and nest sites exist in them (only in
some areas).(Again,see other comments on food vs
nesting locations and nest sites as limiting factors;
also see Newton 1979.)
Examples of successful use of many of these structures
in Alaska are unavailable,because no attempts have been
made to try them in Alaska.However,some examples of a
few are avai 1ab 1e.Boreal owl s have readily accepted
nest boxes placed out specifically for them near
Fairbanks.(At least two attempts involving several
boxes each--both attempts successful.D.G.Roseneau and
W.Tilton pers.com.)).Hawk owls have nested in one
nest box in spite of its being designed for boreal owls
(W.Tilton pers.comm.).A ledge,unusable to gyrfal-
cons,was Jlodified to repl ace a nest 1edge that was
becoming unstable on a cliff--gyrfalcons have since
nested in it (.0.G Roseneau and W.Walker,unpub 1.
data)(also see text).Successes elsewhere in the world
and new techniques currently being developed (with some
modification of course,or individual species,partic-
ular habitat situations and other particular circum-
stances)clearly suggest there is little reason to doubt
applicability to Alaska (in general)and the Susitna
River drainage (specifically).
W-3-465 -Seasonal Restrictions:We strongly support the measures
included here with the addition of three points.First,we·
recommend coordinating with project design engineers to ensure
that such timing and siting restrictions are fully incorpor-
ated into project designs,schedules,and cost estimates.
Secondly,our previous comments on the need for follow-up
monitoring of raptor nesting in response to construction
activities are critical here.Finally,for bald eagles,we
recommend there be no blasting with 0.5 miles of nests.
Response
We concur.However,we see no reason to restrict blast-
ing to 0.5 miles or farther if the nesting location is
inactive at the time the blasting occurs (non-breeding
season,or nesting location unoccupied in a given breed-
ing season).In fact,blasting could be conducted rela-
tively close to the nesting location (as long as it and
perches are not destroyed)under such circumstances.
W-3-466 (i i)Waterbi rds:Paragraph 1:We recommend revi si ng thi s
paragraph to describe factors which may limit benefits out-
lined here (see our comments under Section 4.3(a)(xv)).An
additional concern we believe should be described here is the
potential for collisions of swans with transmission lines.
Response
Paragraph has been revised.
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W-3-467 Paragraph 2:We recommend that the monitoring program
described prev i ously shoul d be coordinated with ongoing FWS
surveys for trumpeter swans and other waterfowl,with partic-
ular attention to the impacts of project disturbances on
trumpeter swans.We again note the importance of carefully
siting all project facilities,roads,and transmission lines
away from wetl ands (as being remapped),incl uding stream
corridors and lakes.Since trumpeter swans and other water
birds frequently migrate along stream corridors,siting and
111 ark ing 0 f t ran sm iss ion 1 ine sis pa r tic u1 ar 1y cri tic a1 to
avoid collisions and electrocutions in those areas.
Response
Thi s recommendation will be considered during formul a-
tion of detailed study plans for FY 1984.
W-3-468 (iii)Other Birds:We again note the ecological importance of
these species.We recommend that nest and roost boxes be
considered as mitigation for passerines.Hairy woodpecker,
boreal chickadee,and brown creeper would all adapt readily to
such structures.These three species populations would be
reduced by 10.1,7.4,and 19.9 percent,respectively.The
hairy woodpecker is on the National Audubon Societyl s "Bl ue
List"and is thought to be declining in the Pacific Northwest.
We also recommend that all unavoidable adverse impacts from
the project be fully acknowl edged.
Response
We concur with the ecological importance of all species.
We have noted the recommendation concerning mitigative
measures for passerines.The same recommendation is
al so noted in regard to woodpeckers,al though wood-
peckers (order Piciformes)are not passerines.These
recommendations will be considered during formul ation of
detail ed stUdy pl ans for FY 1984.
W-3-469 (d)Small (non-game)Mammals:We refer you to our comments
above,re fully acknowl edging unavoidable adverse project
impac ts.
Response
Comment noted.
W-3-470 Comments on Tables and Figures for Section 4 -Wildlife
Overall,many of the tables and figures are incompletely foot-
noted and referenced.Few wi 11 stand on thei r own and many
are confusing or inconsi stent even when referring to the text.
We recommend cleaning up the tables and figures to alleviate
these problems in general,as described in our comments on the
text of the report itsel f,and as specified below.Rather
than commenenting on all editing or corrections needed,we
have focused on major problems or points important in under-
standing our comments on other porti ons of the document.
Response
Comments noted.Editing corrections have been made.
W-3-471 Tables W21,W22 and W23:Pl ease include the nlJTlber of sites
sampled in each community.
Response
Number of sites iampled appears in Table E.3.50.Loca-
tion of sample sites is shown in Figure E.3.79.
W-3-472 Table W64:We recommend footnoting a brief definition of
"importance value ratings."Please provide dates for the
s lJIlmer 1981 s urv ey •
Response
Dates and description of I.v.ratings appear in text
where this table is referenced.
W-3-473 Tables W65,W66,W68 and W78a:Please clarify how habitat
types as classified here do or do not coordinate with the
revised vegetation classification scheme.We are concerned
that data manipul ations not obvious from the original refer-
ences be fully described here (see section 4.2(c):Paragraph
lJ·
Response
Thi s in formati on has been added to text and appears in
Table E.3.139.
W-3-474 Figure Wll:We suggest adding reservoir elevation levels.
Response
Such a change would imply a significant loss of range
which is not at all the intent of the figure.
W-3-475 Figures WIg and W20:We recommend incl uding some description
of how II rel ativ e importance ll was determined and how "import-
ance indices ll were calculated.Sources for this data should
be cited here.
Response
These additions have been added to the text in sections
which refer to these tables.
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I
GENERAL COMMENTS -APPENDICES
Convnent 1
Overall,we concur with the environmental guidel ines to the
extent that they are presented here.However,we are con-
cerned that the guidel ines are somewhat incomplete and lack
specifics needed for effective implementation.Please specify
the degree to which these guidel ines are being incorporated
into project pl anning.We recommend that you expl ain any
situations where the guidel ines will not be followed.In
gest the definition include project camps,access roads
both to and within the project site,and any construction
areas (including the dams,borrow sites,disposal sites,
etc.)•
8.Bl asting determinations should be made in consultation
with the resource agencies.Such determinations could be
incorporated into the previously recommended monitoring
program (see our comments on Section 4.4:Paragraph 5).
9.Please discuss the feasibility of disposing of part,or
all,of project spoil s within the impoundment area in
accord with project scheduling.M estimate should be
provided of the quantities which may be involved,or when
those quantities will be determined.Stockpiling needs,
and reclamation considerations should also be provided.
We suggest thi s i tern be expanded into an additi onal
appendix section similar to Appendix AD -Material
Sites.
11.Please refer to our previous comments on the need to map
permafrost areas (Section 3.2 and 3.3[a][ii]-Effects of
Erosion and Deposition).
13.We recommend specifying that fertilization and seeding be
initiated in the growing season immediately following
si te disturbance.The "interagency mon itoring prog ram
referred to in Item 8,above,should review and concur
with species chosen for revegetation.
14.Please refer to our comments under Item 13,above.
15.We concur;again pl ease refer to our comments on Item 13.
Initiating tes.t plots as part of continuing project
studies would provide information on which successful
site restoration can be based.Pl antings to provide
wi 1dl ife food and/or cover shoul d al so be considered in
dev eloping restoration pl an s.
SPECIFIC COMMENTS -APPENDICES
3.A -All Facilities
W-3-476 3.A -All Facilities
1.The referenced buffer to waterways or wetlands should be
a 500-foot minimum width,not maximum width as presented
here.
7.Please define project ufacil ity"as used here.We sug-
gest the definition include project camps,access roads
both to and within the project site,and any construction
areas (including the dams,borrow sites,disposal sites,
etc.).
Trumpeter swan nests and caribou calving areas should be
added to the 1 ist of areas to which the guidel ine is to
apply.
8.Bl asting determinations should be made in consul tation
with the resource agencies.Such determinations could be
incorporated into the previously recommended monitoring
program (see our comments on Section 4.4:Paragraph 5).
9.Please discuss the feasibility of disposing of part,or
all,of project spoil s within the impoundment area in
accord with project sc hedul ing •PrJ estimate shoul d be
provided of the quantities which may be involved,or when
those quantities will be determined.Stockpiling needs,
and recl amation considerations shoul d al so be provided.
We suggest thi s item be expanded into an additional
appendix section similar to Appendix AD Material
Sites.
11.Please refer to our previous comments on the need to map
permafrost areas (Section 3.2 and 3.3[a][ii]-Effects of
Erosion and Deposition).
13.We recommend spec ifying that fertil i zation and seeding be
initiated in the growing season immediately following
site di st urbance.The interagency mon itoring prog ram
refe rred to in Item 8,ab ov e,s houl d rev i ew and conc ur
with species chosen for revegetation.
14.Pl ease refer to our comments under Item 13,above.
15.We concur;again please refer to our comments on Item 13.
Initiating test plots as part of continuing project
studies would prov ide information on which successful
site restoration can be based.Plantings to provide
wildlife food and/or cover should also be considered in
developing restoration plans.
16.We strongly endorse both programs outl i ned here.Refer-
ence should be made to U.S.Coast Guard (C.F.R.33,Part
154[b])and Environmental Protection Agency (C.F.R.40,
Part 112)regulations which requi re use of a Petroleum
and Hazardous Substance Plan and Manual with such devel-
opments.It should be mandatory for all project person-
nel to take part in the Environmental Safety Program
prior to starting work on the project.
17.We suggest that storage containers for fuels and hazard-
ous substances also be located at least 1,500 feet from
wetlands.All personnel involved in transfer and hand-
ling operations for such materials should carry portable
spi 11 contai nmentjabsorpt ion materi a 1s.Impervi ous mate-
rial used to line containment areas should be securely
tacked in place and frequently monitored for tears;such
tears shoul d be promptly repai red and water whi ch may
collect in the areas should be prrnnptly removed.
18.Please specify the degree to which this recommendation is
bei ng foll owed as descri bed under our General Comments
for these appendices.
19.We recommend addition of an item outl ining the need for
the contractor to train personnel,prepare,and follow an
erosion control plan which is subject to resource agency
review and comment (see our comments on Section
3.4[d][ii]).That plan should then be incorporated into
these guidelines.
3.B -Construction Camps
1.and 2.We concur and recommend that there be no truck-
ing of garbage between camps;each camp should have its
own incinerator capable of burning that day·s wastes.
3.We concur;please refer to our comments under Section
4.4(a}(iv)on the need to clearly sign and monitor all
gates to ensure they remain closed.We recommend the
interagency monitoring group review and concur with the
fencing specifications.
4.We suggest that the recommended effl uent samp 1 i ng and
testing program be outlined in construction camp design
plans.
5.Again,resource agency review and concurrence should be
i nvol ved.
3.C -Access Roads
3.We concur and recommend that the proposed program for
identifying wetl ands in consultati on with the CE and FWS
be used in access route siting (see Section 3.2[a][vi]).
5.Instream work should be scheduled to avoid critical
spawning times and minimi ze sedimentation of downstream
habitats.
6.through 10.Criteria should be included for determining
when a culvert rather than a bridge can be used for
stream c rossi ngs.Re source agenc i es shaul d be consulted
in the develo~ent of such criteria.
13.We suggest adding,lias well as after significant stonn
events"at the end of this item.This issue needs
further definition.
3.D -Material Sites
1.We concur and recommend that the interagency monitoring
program be integrated with the interdisciplinary team
effort so that resource agencies are consul ted in the
development and implementation of mining plans.
2.and 3.Pl ease identi fy the extent of borrow material s
needed for project construction which may be available
within the impoundment area,relative to the extent of
borrow which will have to come from other sites.OUr
comments under Appendix EA -All Facilities,Item 9,on
stockpil ing and reclamation,and under Appendix EC -
Access Roads,Items 6 through 10 re criteria for deter-
min ing when to use the lower priority miti g ati on measure
(e.g.,culverts instead of bridges;first-level terrace
sites over well-drained uplands)apply here also.
7.We suggest that construction schedules be evaluated in
order to determine optimum coordination and use of mate-
rial and disturbance sites.
3.E -Transmission Corridors
1.We recommend addition of the phrase "an d maintained ll
after the work IIconstructed"in Line 2 of this item.Our
text comments on the need to fully integrate Intertie
develo~ent with all other project transmission 1 ines
apply here (see Sections 3.4[d][ii]and 4.4[d][i]-
Willow to Healy).
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3.Transmission towers should not be placed in wetlands,as
defined by ongoing remapping efforts.
4.We concur,and suggest that selective cutting be used to
control vegetation along transmission corridors.
Appendix EG
Pl ease provide the source for data cited which was not pro-
vided by the University of Alaska Museum.
Response
Your specific comments have been noted.The referenced
500-foot maximum-width buffer was a typographical error;
guidelines provided to project engineers recommended a
500-foot minimum-width buffer.All specific comments on
the guidelines will be considered during detailed engi-
neering design and construction planning •
COMMENTS CONTAINED IN U.S.FISH AND WILDLIFE
SERVICE LETTER OF JANUARY 14,1983
GENERAL COMMENTS -SOCIOECONOMIC IMPACTS -FISH &WILDLIFE
Comment 1
We see this socioeconomic impact evaluation as an integral component of
the overall evaluation of alternative means of satisfying energy needs
in the least environmentally damaging way.Accordingly,we offer the
following comments for consideration in the evaluation of these alter-
natives.
Evaluation of a proposal must examine impacts,positive and negative,
and mitigation over the 1 ife of the proposal.Data bases provide the
point from which this evaluation must progress.How this project could
effect fi sh and wil dl ife resources over its 1 ife is strongly dependent
upon how the proj ect in fl uences future user demand of those resources.
This evaluation should incorporate:(1)a widely accepted projection
of future popul at ion and economic growth (inc reasi ng user groups)or,
if there is substantial uncertainty as to the val idity of key assump-
tions (as we bel ieve there is),then a multiple scenario model should
be pursued examining at least high,medium,and low projections;and
(2)a tradeoff analysis examining the competing mitigation proposals
for the different interests.Chapter 5 fa il sin respec t to both
poin ts.
The Base Case,as expressed in this document,is a minimum project
impacts scenario.We are led to this conclusion by the following:
1.The recent downturn in State oil revenues directly leads to a down-
turn in State spend ing.Inc rea sed State expend itures resul tin
economic expansion which then attracts and supports the new popula-
tion (Department of Policy Develop1lent and Planning (DPDP)Policy
Analysis Paper No.82-10).The expected lower level of State
spending should be reflected in decreased .economic expansion and
population.One could deduce from this that without the project
economic and population Base Case should be substantially lowered
from what is presented in this doctunent.Since this turn of events
obviously does not impact the cost of the project,the project
soc ioeconomic impacts woul d be accentuated.
Response
Assumptions underlying socioeconomic forecasts of economic expan-
.si on and popul ati on growth are consi stent wi th those used in the
electric power requirements forecasts (see Exhibit D).Require-
ments I forecasts are being reassessed in an ongoing study.If
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different forecasts are adopted,socioeconomic forecasts will be
revised.(Note:Population growth for Anchorage and the Mat-Su
Bo roug h has been more rapid during the 1 ast year than proj ec ted in
the Base Case.Our Base Case population projections for future
years in these areas might be too low.)
Comment 2
With less oil revenue the state would need to concentrate a greater
percentage of its income and/or bonding capability on this project.
The state would then not be able to afford projects in other areas of
the State.We therefore,bel ieve a closer look at statewide impacts is
necessary.
Response
PERC does not require an assessment of statewide fiscal impacts as
part of Chapter 5,Report on Socioeconomic Impacts.The FERC
guidelines require aR evaluation of incremental local government
expel'l~di tures in rel ati on to the incremental loca]government
revenues that wou'lid resul t from the construc ti on of the proposed
project.Informatlon about the state's bonding capabil ity under
different scenarios is provided in Exhibit D.
COl1D11ent 3
The power which this project would provide could act as an attractant
to various industries,to the detriment of other areas of the state.
Response
It is unlikely that this project will act as an attractant to
various industrtes;tsee SRI InternaUonal.July 1982.El ectric
Power and Industrial Development Data for State Planning.Task
III Report.Synthesis--Industrial Location Probability.Prepared
for the Division of Policy Development and Planning,Office of the
Governor,State of Alaska).The Base Case is i,ntended to approxi-
mate a lImost 1i kely"scenario.
Comment 4
Potenti al impacts due to the seasonal ity of the workforce is not fully
addressed in this doclOTJent.Other hydro,power projects in Alaska,such
as Terror Lake,and those constructed?in other remotely situated areas
should be exam:ined to explore this potential impact.
Response
The discussion of potential impacts due to the seasonal ity of the
work force has been expanded in Secti ons 3.2~..2 and 3.3.l(c).Your
suggestion to examine impacts resulting"from seasnnal labor
demands'of other hydropower projects in Al aska will be considered
i,l'!'t.hedev elopnent 0 f future stud ie s.
Comment 5
Impacts result from the number of people attracted by potential jobs
not by the number of jobs created,either directly or indirectly.This
is supported by the letter to Eric Yould dated March 27,1982,from the
Alaska Department of Community and Regional Affairs (ADCRA).
Response
We agree that impacts will result from unsuccessful in-migrating
job seekers.However,it is not possible to predict the number of
unsuccessful in-migrating job seekers.
As discussed in Section 4,Mitigation,a monitoring program will
track this phenonomon.Information will be made available to
impacted jurisdictions to help them identify the extent of disrup-
tion and to indicate what can be done to reduce the disruption.
Based on this information,measures to mitigate adverse impacts
can be developed and implemented.
The discussion concerning unsuccessful in-migrating job seekers
has been expanded in Section 3.2.2.A full discussion of the
types of impacts that could result is contained in (Dixon,Mim.
1978.What Happened to Fai rbanks?--The Effects of the Trans-
Alaska Pipeline on the Community of Fairbanks,Alaska.Social
Impact Assessment Series,No.1.Westview Press,Boulder,
Colorado).
Comment 6
The implications of Item 5 above regarding local and regional hiring
assumptions and impacts to local communities.
Response
Local and regional hiring assumptions were made through analysis
of unemployment data for laborers,semiskilled/skilled workers and
administrative and engineering personnel;and discussions with
local union officials,Alaska Department of Labor economists,and
construction contractors.The assumptions provide the best esti-
mates for sources of manpower for the project.
We acknowledge that impacts to local communities depend,in part,
On these assumptions.These assumptions cannot be improved,how-
ever,until:(1)more accurate and detailed manpower requirements
are developed (this will happen in the latter stages of detailed
design work);(2)new unemployment data become available;and (3)
labor negotiations are completed.Due to unknowns such as these,
the socioeconomic forecasts with and without the project will be
updated with new i nformat i on both before and duri ng construction
activity.Information from the updated forecasts and the monitor-
ing program will be used to develop appropriate mitigation mea-
sures.This is discussed further in Section 4.
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Comment 7
We have not previously had input into many of the decisions which were
reached regarding the construction camp/village such as siting,type of
camp,and administration.These decisions have large implications for
the fish and wildlife resources and users.Consideration of a Prudhoe
Bay type camp should be given.We are not aware of any construction
camp alternatives having been discussed in terms of minimizing adverse
impacts to fish and wildlife resources,and their use.
As illustrated by many of our comments,we are concerned that not only
were the resourceagenc i es not consulted previously on many of the
actions described herein but that communication and coordination bet-
ween the soc ioeconomic component and the fi sh and wil d1 ife resources
components has been insufficient.
Response
We agree that construction camp/village siting,type and adminis-
tration will have implications for fish and wildlife users.It
will also have -implications for workers and impacts on communi-
ties.The siting,type,administration,and other aspects of the
construction camp/village will be further considered in the
developnent of future study plans.My such plans will continue
to prov ide for proper coordinati on between soc ioeconomic and fi sh
and wildlife components.
Comment 8
It is stated several times in this chapter that monitoring of impacts
is proposed and that this program would add flexibility to the mitiga-
tion program.We concur.However,we believe this monitor-jng team
shoul d better refl ect the spi rit of the APA Mitigation Pol icy document.
We bel i'eve a monitoring program should be establ ished,at project
expense,consisting of representatives of appropriate local,state,and
federal agencies,to carry out the function of assessing the extent of
actua 1 impacts and recommending mod ificati ons to the miti gati on pro-
gram.Modification of the mitigation plan,as represented in the
1 icense,would then be through 1 icense amendment.
Response
It is the intention of the Power Authority to establ ish a moni-
toring program that responds to and impl ements the articl es of any
forthcoming FERC 1 icense for the project.
With respect to formulation of the specifics of the program,we
invite and also expect your agency,as well as other regulatory
enti ti es,to pl ay a maj or rol e in thi s effort.Wi th respect to
monitoring the effectiveness of mitigation measures and compl iance
with stipul ations of the 1 icense appl ication,we see that as the
licensee's responsiblity.
We expect that observations by the monitoring team will establish
whether the mitigation programs are achieving their goal s.If
they are not,the mitigation programs will be modified as will
undoubtedly be required by the license.
Comment 9
Modification of the Base Case to accommodate the concerns raised in the
ADCRA letter of May 27,1982,and in our COOlments would dramatically
change the impacts predicted and ul timately the mitigation requi rement.
Additi onally,an assessment of soc i oeconomic impacts must be reac tiv e
to other study components.For example,to evaluate impacts to users
of fi sh and wil d resources,the impacts to the resources must fi rst be
assessed.In that many of these resource impacts have not been suffi-
ciently quantified,one could not expect an acceptably quantified
socioeconomic analysis.This could only have lead to a highly general
mitigation pl an,which is what we find here.In fact,reference is
made to certain actions which (Section4.2(a),page E-5-91),II •••will
be considered in the mitigation plan."A mitigation plan should be a
part of this document,and be specific to the anticipated impacts based
upon a broadly accepted data base.The burden of formul ating an
acceptable mitigation plan is the applicants.
Response
One element of the Impact Management Program is to periodically
update the Base Case (see Section 4.5).This will next be done in
1983.Your concerns and those rai sed in the ADCRA 1 etter 0 f May
27,1982,will be incorporated into this update.
The socioeconomic component has been and will continue to be
reactive with other study components.This interaction will
intensify as the project enters the detailed planning and design
phase,and as more in-depth fish and wildlife impact information
becOOles avail able.
As requested,the mitigation plan has been made more specific (see
Sec t ion 4).
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SPEC IF IC COMMENTS
2 -BASELINE DESCRIPTION
2.1 -Identification of Socioeconomic Impact Areas
W-5-001a 2.1(c)Impacts Areas -State
(c)State:We concur that identifiable impacts would be con-
centrated at the local level,and most difficult to evaluate
on a statewide basis.It should be recognized that how this
project is approached economically has tremendous impl ications
for the state.If the state provides a grant of bill ions of
doll ars,that money cannot be spent on other prog rams.Bond-
ing of the project would have a large impact on the state l s
ability to bond other projects.Additionally,the relation-
ship between large projects and population growth should be
given greater emphasis.
Response
Please see Exhibit D of the License Appl ication.
The Institute of Social and Economic Research's Man-in-
the-Arctic Prog ram model prov ides the rel ati onshi ps bet-
ween large projects and population growth.This model
is the best available in the state.It was used in both
the el ectricity demand forecasts and the socioeconomic
analysis.Future socioeconomic studies will include new
asslJllptions for large projects and,therefore,new popu-
lation growth projections.
W-5-001b Increased state expenditure resul ts in economic expansion that
attracts and supports the new population (DPDP Policy Analysis
Paper No.82-10).The state would be impacted through ser-
vices provided to this project caused higher population
1evel •
Response
We agree that the relationship between large projects
and population growth is important.The specification
of this relationship in the Institute of Social and
Ec onomi c Re searc h t S Man-in -the-Arc tic econometric model
is amon9 the best available.We used the results from
several statewide and regional runs of thi s model in our
baseline forecasts.Updates of the baseline forecast
could also rely on results from updated runs of this
model •
W-5-002 2.2 -Description of Employment,Population,Personal Income
and Other Trends in the Impact Areas
(a)Loca 1
(ii)Population:Paragraph 3:Acceptance of the projected
Mat-Su Borough popul ation figures woul d be on the basi s of a
review and acceptance of the underlying assLDllptions.Without
these we are left with what appears to be relatively high pro-
jections which apparently come from a single source,the
Mat-Su Borough,which could be viewed as having a vested
interested in the project,and a high probabil ity that the
projections rest upon by the original,outdated project eco-
nomic analysi s.The impacts analysi s and mitigation pl anning
is strongly tied to population projections with and without
the project.We recommend that the data base be broadened and
projections updated.
Response
We do not agree that the baseline (i.e.,without the
Susitna project)population projections for the Mat-Su
Borough are too high,nor that they were distorted by
the input of the Mat-Su Borough.We agree that popul a-
tion projections should be broadened and updated period-
ically to reflect new knowl edge.These projections will
be broadened and updated as part of future studies.
These updates will incorporate new information on
development projects,state government reven ues,and the
resul ts of the monitoring of socioeconomic conditions in
local communities before construction on the project
starts.
The projections of basel ine popul ation growth in the
Mat-Su Borough were developed by the Alaska Power
Authority.The only connection of the Mat-Su Borough
government with these figures 1 ies in the use of the
figures on the Borough l s popul ation in 1981 as the base-
line from which future growth was calculated;these
figures were derived from the Mat-Su Borough Planning
Department's survey of population and housing in that
year.A decision on the use of these data as a
starting-off point instead of the 1980 Census data was
made after an analysis of the available data on borough
population growth indicated that the Census data were
too low;thi s is not surprising,considering the rural
and dispersed nature of population in Mat-Su Borough.
The projections of growth in the Mat-Su Borough rest
partially on the projections of growth in the Rai"lbelt
region and in the state which were developed for the
Railbelt energy requirements study by the Institute of
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Social and Economic Research.The scenario used was one
of moderate economic developnent and moderate state
government spending.The socioeconomics impact portion
of the study used these projections in order to be con-
sistent with the energy requirements study (see Exhibit
D)•
Calcul ations of the popul ation of the Mat-Su Borough
over the next twenty years took into account the fact
that growth in the borough over the past ten years has
been increasing far more rapidly than the rest of the
Railbelt (as many people who work in Anchorage began to
move their residences to Mat-Su Borough)and that there
is reason to believe that this trend will continue and
perhaps accelerate.Thus,while there may be reason to
bel ieve that the orig inal projection on popul ation in
the Railbelt may be too optimistic,we still believe
that the Mat-Su Borough will continue to grow rapidly as
a result of its proximity to Anchorage and the large
amount of relatively inexpensive land available for new
housing.Recent popul ation estimates for 1982,
developed by the Mat-Su Community and Regional Affairs,
have supported thi s professional judgment.It shoul d
al so be noted that the projections developed by the
Al aska Power Authority for thi s chapter of Exhibit E are
considerably lower than other sets of projections which
the consultants reviewed during the course of their work
and which have been used as the basis of planning
efforts in the Mat-Su Borough.
W-5-003 Paragraph 4:We recently received a Seoping Document (dated
November 29,1982)for the Knik Arm Crossing from the Al aska
Department of Transportation and Public Facilities (ADOTjPF).
In that ADOTjPF is just beginning to evaluate the desirability
of this project,it would be premature for APA'tO""view it as a
foregone conclusion.
Response
The Power Authority does not view the Knik Arm Crossing
as a foregone conclusion.When the socioeconomic base-
l ine forecasts were made,it was assumed by the soc io-
economics contractor that there would be a crossing in
the early 1990s.However,this assumption does not
affect the amount of population projected to be in the
Mat-Su Borough.This assumption affects only the future
distribution of popul ation in the Borough.
W-5-004 Paragraph 5:Please discuss the assumptions upon which these
population projections are based.
Response
The assumptions upon which popul ation projections are
based have been added to Section 3.1.2.
W-5-005 (b)Regional
(ii)Population:Paragraph 2:We accept the underlying
assumption that,in Alaska,population growth is strongly
associated with natural resource development projects.Please
identify the development projects that have been assllTled to be
going forth.The recent downturn in state income,due to
weaken ing of oil prices,shoul d be factored into thi s an aly-
si s.
Response
The development projects that are assumed to be going
forth are shown in (Battelle Pacific Northwest Labora-
tories.1981.Alaska Economic Scenarios Review Docu-
ment.Working Paper No.2.1,Railbelt Electrical Power
Al ternatives Project.Prepared for the Office of the
Governor,State of Al aska).Refer to the II mo derate
case ll in thi s document.
It has been more than a year since this development
scenario was developed.Some projects that were asslJ1led
to be going forth have been postponed,while others that
were asslJ1led not to be developed are being developed.
On bal ance,it appears that the current and 1 ikely
future mix of development projects will have population
effects that are similar to those associated with the
moderate case in the document cited above.The Base
Case update to be done during 1983 will include an
updated develojlllent projects scenario as well as an
updated state government spending scenario.
3 -EVALUATION OF THE IMPACT OF PROJECT
W-5-006a 3.1 -Impact of In-migration of peo~le on Governmental
Facilities and Services:Paragraph 2:T~e underlying assllllp-
tions which lead to the conclusion that this project would
have minimal impacts to the Mat-Su Borough should be discussed
in greater detail.Peak project employment would be 3,498
(page E-5-37)and 95 percent of these workers would have
dependents,with an average of 2.11 dependents (page E-5-44).
This would lead one to believe direct project worker impacts
woul d be more than 10,000 peopl e.If all these peopl e were
housed at the construction site,we would have a city approxi-
mately three times the size of Palmer,with all the encumbent
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needs of thi s si ze community.Thi s figure would be substan-
tially inf1 ated by secondary and induced jobs resulting from
the project.Spreading these numbers out over the small,
local communities would be expected to result in significant
adverse impacts.
Response
A fuller description of the methodology used to project
the population influx associated with the Susitna pro-
j ect has been added to the text in Secti on 3.1.2.
As exp1 ained in the text,90 percent of the work force
that moves into coomunities in the Mat-Su Borough will
be accompanied by dependents.This high percentage is
likely because workers with families will have the most
incentive to move closer to the project,in light of the
fact that housing facil ities for all workers will be
available at the site.This is not to say that 90 per-
cent of all workers on the project havefamil ies.
It is true tha.t the work camps and family village at the
work sites will have extensive public facility and ser-
vice requirements.The project management will be
responsible for providing these facilities and services.
This is the reason that it is expected the impacts of
the ons ite popu1 ati on wi 11 be min ima1 •
The popu1 ati on inf1 ux assoc iated with the secondary and
induced jobs generated by the project has been inc1 uded
in the population influx projections.
W-5-006b In the May 27,1982,letter from the ADCRA to Eric You1d,it
was noted that,1I •••given the current state of the economy,it
seems reasonable to expect a sizable influx of people from the
Lower 48 seeking highly-paid employment,therefore competing
directly with the local labor force.This was the state's
experi ence during the Tran s-Al aska Pi pel ine proj ec t (TAPS)
and,in fact,just recently for the as-yet to be started
Al aska Natural Gas Tran sportati on System.Yet thi s proven
phenomenon apparently was not considered in the analysis.
This influx of people seeking instant riches in Alaska during
major construction projects has historically contributed to
impacts far in excess of what otherwi se might normally be
expec ted.II
In reference to,II •••the buffering effect of the expected
continued increase of population,1I please refer to our Chapter
5 General Cormnents.
(a)Watana -Construction Phase
(i)Loca 1
Mat-Su Borough:As stated in our Chapter 5 General
Comments,we find it difficult to accept that,Ilin most areas
of the Mat-Su Borough,the population influx related to the
project will only add slightly to the substantial increases in
need for public facilities and services that will be resulting
from the population growth projected under the Base Case.1l It
is stated in the previously referenced May 27,1982,letter
from ADCRA,liThe state l s experience has been that the impacts
from large construction projects (most notably TAPS)are far
in excess of what were originally anticipated.Those impacts
were due to a substantially greater in-migration [SIC]of
peopl e than those anticipated based sol ely upon the si ze of
the required construction and support work force.This was
due in part to a large number of people who migrated to Alaska
with no intention whatsoever of seeking employement,at least
on the construction project.Another unforeseen impact was in
the secondary job market.In-migrants [SIC]competed for,and
fi 11 ed,secondary and induced jobs,many of whic h were v ac ated
by local residents obtaining employment on the high-paying
construction project.This situation only exacerbated the
local unemployment si tuati on.
IlCertain public services were severely taxed as a result of
the larger than expected influx of people.The public safety
and public health were jeopardized by increased 'people prob-
lems;1 too few public safety officials and inadequate or non-
existent facilities delayed the state's abil ity to adequately
respond.Lack of adequate housing led to clvercrowded 1 iving
conditions and sanitation problems.Increased vehicular traf-
fic devastated the roads and at times created safety problems
as well.Util ities,such as power and telephone,were over-
taxed.Heightened demand for housing produced rent gouging,
displ aced famil ies,hasti ly and poorly constructed housing,
and use of substandard or even non-residential units as places
of res id en ce•
lilt seems,therefore,that the potential exists for the types
of impacts described above to occur as a result of the Susitna
project,and to occur in 1 arge part in the Matanuska-Susitna
Borough.Simply put,we bel ieve that past experience has
shown that more peopl e wi 11 show up than orig inally antic i-
pated,bringing with.them all the problems attendant to a
I boom-town I situation.We do not feel that this was
adeguately addressed in the draft feasibility report,nor that
the state IS pri or experi ence with TAPS was taken into
account.II
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Response
We agree that it is reasonable to expect an influx of
person s seeki ng Sus itna c onstr uc ti on an d constructi on-
related jobs.This influx of persons would probably
create the types of impacts that you mention,especially
in the greater Anchorage area and,perhaps,Fairbanks.
We did review the TAPS experience.We found no analysis
of the impact of unsuccessful job seekers on Fairbanks
and the state;nor could we find any analysis of the
degree to which "outside"labor displaced Alaska labor.
We could not even find any data that would allow such
analyses to be done.
Aside from this lack of information,it should be noted
that even if appropriate studies had been done on TAPS,
they would have been of little help in trying to esti-
mate the n umbers of persons who wi 11 be attracted to
Al aska by the Susitna project.This is because each
project (e.g.,TAPS,ANGTS,and Susitna)is unique and
different economic forces prevail in different years.
For exampl e,the types and amounts of workers,and wage
rates are different for each project.This will
infl uence the attractiveness of the project to workers
living "outside."Also,economic conditions "outside"
rel ative to those in Al aska change and infl uence the
attractiveness of Al aska proj ec ts to outsi ders.
For these reasons and several others,it was not pos-
sible to estimate how many persons would be attracted to
Al aska by the Susitna project.The monitoring and miti-
gation program discussed in Section 4.5 is designed to
detect the total project-induced·increase in popul ation
and to hel p appropriate institutions mitigate impacts
that might be caused by persons who come to the Railbelt
region in search of Susitna construction andconstruc-
tion-rel ated (secondary and induced)jobs.
W-5-007 We would expect that a high percentage of those attracted to
the area would become fish and wildlife resource users.This
woul d 1 ead to inc rea sed demand for these resources at the same
time and in the vicinity of more direct project-related
impacts to these resources.Additionally,because the project
work force would be highly seasonal (page E-5-37),the impact
of these employees on the fi sh and wil dl ife resources woul d be
greater than other area residents.
Response
Whereas it is 1 ikely that the members of the population
influx caused by the project would increase the demand
for recreation involving the use of fi sh and game,it
does not necessarily follow that actual use will
increase.For the most part,fish and wildlife use is
controlled by regulation so that not everyone with the
desi re to harvest these resources actually harvest s
these resources.It is,therefore,erroneous to assume
that new members of the area population would become
resource users.Md,if they become users,there is
nothing to indicate that the new members woul d tend to
use the resource more than other area residents.The
fact that work at the project will be seasonal does not
necessarily allow these newcomer s to partic i pate in
resource harvest more than other area residents.A sig-
nificant amount of work in the area is usually sea-
sonal.
W-5-008 •Public Recreation Facilities:Paragraph 1:Please clarify
whether the assumpt i on that full pub 1ic access woul d be pro-
vided by the project through the upper Susitna Basin has been
made.We understood thi s was not the case (see Page E-5-24,
Transportation).
Response
For purposes of analysis,it has been assumed that the
access road will be open to use by the public upon com-
pletion of project construction.However,access can be
restricted at a future time as a mitigation measure.
W-5-009 Use projections and anticipated fish and wildlife resource
impacts should be examined.
Response
Full description of the impacts of the project on recre-
ation in the impact area are presented in Chapter 7,
Recreation Plan.The text has been modified in Section
3.1.3 (a)(i)to refer to that chapter.
The section that this comment is addressing is concerned
with public recreation facilities and services,such as
parks,playgrounds,campsites,and other facil ities that
are maintained by publ ic entities.This was not con-
sidered to be the place to discuss use patterns of and
impacts on fish and wildlife resources.These subjects
are discussed in Section 3.7 of Chapter 5 and in Chapter
3.
W-5-010 •Transportation:Paragraph 1:We concur that,lithe ul timate
status of the road is unsettled at this time.1I The road is a
proposed project feature and as such the ultimate resolution
or mechanisms for resolution of this issue needs to be pro-
vided in the FERC 1 icense,if in fact we do still have road
access at that time as a project feature.We have not
concurred that road access is either necessary or desirable.
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Commen t noted.
W-5-011 Paragraph 3:Reference is made to,"sc heduling of commuting
workers.1I Yet,on Page E-5-91,it is stated that,"•••there
will be no daily commuting •••and workers will not have the
opportunity to drive personal vehicles to the campI
village •••"These confl icts need to be resolved.
-Cantwell
•Transportation:Paragraph 2:Reference is again made to
commuting workers.Please refer to our comments immediately
above (Section 3.1(a)(i)-Mat-Su Borough.Transportation:
Parag raph 3).
Response
These confl icts were resolved.Pl ease refer to Section
4.4.1 (d)•
W-5-012 (ii)Regional:Please refer to our Chapter 5 General Comments
and to our comments regarding Sections 3.1 and 3.1(a)(i).
-Mat-Su Borough.
(b)Watana -Operation Phase and Devil Canyon -Construction
Phase
(i)Local
-Mat-Su Borough:Pl ease refer to our comments immediately
above (Section 3.1(a)(ii)).
Response
Please see the response to Comment W-5-006(a)and (b).
3.2 -Onsite Manpowe~Requirements and Payroll,by Year
W-5-013 b)Seasonality of Manpower Re uirements:Please refer to our
comments regarding Section 3.1 a i -Mat-Su Borough.The
seasonal ity of the project work force could,if they remain in
the state,resul t in signi ficantly higher use 1evel s of fi sh
and wil dl ife resources,and recreational resources than that
found fo r resi dents employed year-round.We recommend that
this should be examined.The TAPS project and in-state
hydropower projects,such as Terror Lake,should provide
valuable information.
3.3 -Residency and Movement of Project Construction Personnel:
paragrafh 3:The proposed administration of the construction
camp/vi lage appears to simplify problems by minimizing con-
straints on the work force.Given the APA Mitigation Policy,
which is consistent with NEPA and our Mitigation Policy,to
first avoid adverse impacts to fish and wildlife resources,we
find it difficult to accept the construction site camp/village
plan or administration of it.In many ways it tends to maxi-
mize adverse impacts to fish and wildlife resources,in direct
confl ict with APA I S stated mitigation goal s.It appears that
pl ans other than that proposed have not been eval uated as none
appear in Chapter 10.
We recommend that a Prod hoe Bay type camp be examined as an
alternative which could minimize project-related impacts to
fish and wildl ife resources and socioeconomic impacts to the
local communities.Our position concerning rail versus road
access to the construction camp/village has been previously
stated (FWS letter to Eric Yould dated August 17,1982).
Response
We ag ree that both temporary and permanent mov ements of
people into the state could result in a larger nlJl1ber of
people seeking fish and wildlife for consumption.It is
not predictable,however,whether persons who work sea-
sonally on the construction of the dam(s),and remain in
the state during periods when they are not working on
dam construction,will have a higher per capita use of
fish and wildlife than others in the state.
It seems that the most important issue is controll ing
the use by the work force of fish and wildlife near the
construction camp and access road.The second most
important issue is management of fi sh and wil dl ife use
in other pl aces,in view of the increasing popul ation in
Al aska and the construc ti on work force.The fi rst issue
will be considered in future study pl ans.Fi sh and
wildlife use information will be available from other
Power Authority-funded hyd ropower proj ec ts when thi s
issue is considered.
Considerable study was done to determine the best
si t i ng,type of camp,and admin i strativ e pol ic i es for
camp operation.During the development of a camp plan,
consideration was given to recent experience in Al aska
on projects like the Trans-Alaska Oil Pipeline as well
as large hydroelectric projects in northern Canada.In
addition,the environmental concerns were taken into
account.
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Selection of camp siting was made after studying pos-
sible locations on both river banks and giving consider-
ation to access,work areas,and environmental impacts.
The type of camp (a balance between family and single
status personnel with emphasis on community and recrea-
tional facilities)was the result of an in-depth study
of successful construction communities on other 1 arge
scale,long-duration hydroelectric projects.The type
of camp was sel ected to compl ernent the hours of work and
the pol ides of time-off for personnel to vi sit
famil ies.The overall objective has been to provide a
cOOlmunity that would attract the skilled workers
requi red for the project,whi 1 e at the same time con-
trolling costs to a reasonable level and keeping envi-
ronmental impacts to a minimum.Mitigation measures
discussed in Chapter 3 include those specifically
addressed to the camp construction and operation.
A further multidisciplinary analysis of the siting,
type,size,administration,etc.of the construction
camp/village will be done in 1983.
W-5-014 (a)Region
~i)Regional Work Force:Paragraph 4:The assumptions stated
or the onsite construction work force were questioned in the
previously referenced May 27,1982,letter from ADCRA,
"Although there are currently enough unemployed in South-
central Al aska to more than ful fill the project's 1 abor
demands,in terms of numbers,that does not necessarily mean
that the appropriately skilled people are locally available.
Al so,given the current state of the economy,it seems reason-
able to expect a sizable influx of people from the Lower 48
seeking highly-paid emploj11lent,therefore competing directly
with the local labor force."In addition,on Page E-5-94,it
is stated,IIThere are at 1east a coupl e of reasons to bel ieve
that local labor might have a difficult time obtaining con-
structi on job s.II Thi s woul d appear to support the contention
that hiring assumptions are overstated,and thus the impacts
of project-induced popul ation increases are understated •
Response
Our analysis indicates that there is a sufficient number
of unemployed and appropriately skilled,and under-
employed and appropriately skilled workers in South-
central Al aska to fill the construction jobs that we
have assumed they wi 11 fi 11.
We agree that "outside"labor will compete with Alaska
labor for jobs.This was considered in making the
geographic sources of 1abor assumptions (see Section
3.3.1).
One point that we were trying to make is that residents
in the smaller communities such as Cantwell and Trapper
Creek could have difficul ty compet"ing with others for
jobs.This would be the case if relatively few of the
small canmunity residents were members of unions,or if
it were more difficult for them to be available at the
p1 ac e(s)0 f hire.
3.4 -Adequacy of Available Housing in Impact Areas
(a)Watana -Construction Phase
(i)Local
W-5-015 -Matanuska-Susitna Borough:Paragraph 1:It is stated that,
"The majority of construction workers on the project are
expected to use the onsite housing facil ities.These workers
will not be in-migrating into established communities and
therefore will have no impact on the housing market in the
Mat-Su Borough."Could we not conclude from the above that a
minority of some unknown number of workers would not be housed
onsite?This would lead one to expect workers commuting,and
impacts to the housing market.Please quantify these poten-
tial impacts.Concerning commuting workers,please refer to
our comments on section 3.1(a)(i)-Transportation:Paragraph
3.In addition,in the previously referenced May 27,1982,
Tetter from ADCRA,the following statement is provided:
"The key supposition in support of the min imal impacts
described is that the majority of the labor force and their
families will live onsite and largely remain onsite throughout
the duration of the project.This presumes affirmative
actions are taken to preclude or limit mobility,particularly
by private automobile,and to provide sufficient incentives
for workers to locate their families onsite rather than in the
more attractive and urban settings of Anchorage,Palmer,or
Wasilla.If those conditions do not occur,workers and their
famil ies in some undetermined nLaTlbers will reside el sewhere,
and the workers will commute.If that occurs,impacts on the
Borough will increase dramatically."
Response
First,it should be clarified that there is a distinc-
tion between workers who commute on a daily basi s to
work at the site,and workers who will use the housing
and fac il iti es on site and return to thei r permanent
places of residence on a weekly or less frequent basis.
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W-5-016
None of the communities in the Mat-Su Borough is within
daily cOOlmuting distance of the project site,as a
resul t of the routing of the access road from the Denal i
Highway.Workers will need to stay at the project-
suppl ied facil ities on a day-to-day basi s,unless they
decide to commute daily from Cantwell (which is not
located in the Mat-Su Borough,and which is estimated to
bean 80-'minute commute from the Watana site t under the
best of conditions t when the access road is in place).
Workers who fall into the second category wi 11 t by their
periodic commut"ing t affect the amount of traffic on the
Parks and Denali Highwayst but they will not necessarily
affect the housing market in the Mat-Su Borough.
Periodic commuters will affect the housing market in the
borough only if they were not currently living in the
borough commun i ti es.
The chapter has been adjusted to present a case in which
there is no organized transportation program and no pro-
hibition on personal vehicles at the site.Under this
scenario t some workers will decide to commute ona daily
basis to and from the Cantwell area t the only existing
community within daily commuting distance of the project
area.The amount of in-mig rati on in to Cantwell may be
limited if land that is controlled by Ahtna t Inc.is not
made available for housing.
3.5 -Displacement and Influences on Residences and Business
Jb)Businesses:Paragraph 2:It would follow that if t lIt-bst
usinesses in the upper basin are dependent upon abundance of
fish t big garnet and furbearer species t ll and the project holds
the potential to severely impact these species through elimi-
nation of their habitats t then most of the businesses would
suffer severe adverse impacts.Th is parag raph ill ustrates a
possible problem relating to coordination or communication of
Exhibit E study programs.
Paragraph 3:Pl ease refer to our comments immediately above
(Section 3.5(b):Paragraph 2).
Response
The concl usion in the comment presented will only resul t
if the unl ikely potential of the second assumption
actually occurs.
The disc ussi on of impacts to natural resource-dependen t
businesses has been expanded (see Sections 3.5 and
3.7).
W-5-017 Paragraph 4:Pl ease refer to our comments above (Section
3.5(b):Paragraph 2).We cannot dismiss impacts to fish and
w"lldlife resource users as insignificant.The existing user
levels must be established in addition to fish and wildlife
resource 1evel s with and without the project.Proposal s
designed to mitigate for unavoidable fish and wildlife
resource losses should then be examined as to potential
impacts on these user groups.
Response
Based upon the fish and wildlife impact analyses t it is
cl ear that the biophysical impacts of the project t with
mitigation,will be negl igible to most users.Changes
in the distributions of caribou t moose and salmon could
disrupt the use patterns of local users.This includes
guides,transportation services,and lodges,as well as
local residents who use the resources for food and other
consumptive purposes.A study of the project's effects
on these users (through project-induced changes in
resource distributions)should be considered in future
study pl ans if/when resource distributon changes are
predicted in more detail.
The largest impact of the project on fish and wildlife
users will probably result from easier and,therefore
increased,access to fish and wildlife.Existing as
well as potential users will have easier access.This
will increase competition for fish and wildlife among
existing users and among existing and new users.Areas
of greatest potential conflict are described in Chapter
3.Potential confl icts could be reduced through effec-
t ive man ag em en t.
Local user l s attitudes will be taken into account,as
these have been to date,as project design work con-
tinues and when mitigation measures are further
developed.Through survey work scheduled during 1983 in
Cantwell and other communities,additional "information
on users l attitudes and the relative importance of fish
and wildlife as income will be available to support pro-
ject design studies and the developnent of mitigation
measures.
W-5-018 3.7 -Local and Regional Impacts of Fish and Wildlife User
Groups
(a)Fish
(i)Methodology:The work which was completed for 1981 did
provide point estimates.The capability of the system to pro-
duce salmon is dependent upon a number of factors which are
being examined as part of the Aquatic Studies Program {e.g.,
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winter water temperature,availabil ity of spawning gravel,
flow regime,etc.).The number of fish that pass a point
along the river does little to establ ish a river1s production
capability other than to establish a bottom figure for it.
A comparison of point estimates of 1981 vs 1982 demonstrates
the great variabil ity that exists in thissystem.Both years
are II representative.II
Response
We agree with the comments.They support the statements
in Section 3.7.1(a).
W-5-019 (ii)The Commercial Fishery
-Specific Impacts:Paragraph 1:We concur.
Paragraph 2:Given the qual ifications stated in the fi rst
paragraph,this discussion fails to recognize the potential of
the project to impact fisheries downstream of Talkeetna,the
potential of the river above Devil Canyon to support salmon
.(future opportunities lost),the importance of cOlllmercial
fishing as a way of 1 ife,the importance of commercial fishing
in terms of secondary and induced job creation,value of the
fishery lost over the life of the project (based upon the same
economic assumptions as the rest of the project),the cost of
various mitigation proposal s over the 1 ife of the project,
etc.We recommend that a more detailed discussion be provided
in the Exhibit E taking into account at 1 east the factors
listed above.
Response
There are many parts to thi s comment.Eac h pa rt will be
responded to separately.
a)
b)
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Failure to recognize impact downstream from
Talkeetna-.-Impacts to the salmon resource down-
stream from Tal keetna are analyzed as III imited ll in
the FERC appl ication.See Chapter 3,Section 2.3.1
(b)iii.
Future opportunities lost,Secondary and induced job
creation,and value lost over the life of the
project.Comment noted.Inclusion of these issues
in future study pl ans will be considered.
Commercial fishing as a way of life.Section 3.7.1
provides data on the value of the commercial catch
and participation levels (i.e.,no.of permits).
Since the project impacts on fish populations are
estimated to be small,even without mitigation,the
change to the way of 1 ife for commercial fi shermen
in Cook Inlet should not be significant (see Chapter
3,Section 2.2.1(a)).
e)Cost of mitigation proposal s.Mitigation is eval u-
ated in Chapter 3,Section 2.4.
W-5-020 (iii)The Sport Fishery:Paragraph 4:We concur that the
type of research described is necessary.Additional informa-
tion on the scope and schedule for completing this work should
be provided here.We would appreciate future coordination on
this research as we had not been contacted previously.
Response
Work has stopped on the task mentioned,as continuation
of the task is not presently under contract.The refer-
ence will be removed.The Power Authority will consider
this suggestion in future study plann"illgs.
W-5-021 (iv)Subsistence Fishing:The impact of the project on this
issue has not been ev al uated and remain sal arg e data and
analysi s gap.The importance of the Susitna system to subsi s-
tence,potential losses,and how mitigation proposals affect
subsi stence use should be addressed in the Exhibit E.The
data provided is not appl icable to the project.Enactment of
a state subsi stence 1 aw in 1978,subsequent 1 itigation,and
changes to that law in 1982 invalidate direct comparisons of
permit nunbers for different years.Additionally,we do not
consider the price of salmon at the supermarket an adequate
refl ection of the importance of the resource to thi s 1 ife-
style.Cultural,social,and recreational values should also
be considered in thi s analysi s.
Response
Additional analysis of the impact of the project on sub-
sistence use will have to wait until the subsistence
issue is resolved.It is not possible to conduct this
analysi s until subsi stence is defined,or until addi-
tional subsistence data become avail able from ADF&G.
The data on subsistence harvest in Cook Inlet are the
only user information currently available and are pre-
sented as such.Since the subsistence fishery in Cook
Inl et is on mixed stocks,only an indeterminate amount
of the harvest discussed in Section 3.7.1 (d)is Susitna
River fish.
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Subsistence fishing within the Susitna Basin is not a
rec ogni zed harvest of the state of Al aska.
We ag ree that compl ete eval uati on of "subsi stence"
salmon would include social,cultural and religious
parameters,if appropriate.Section 3.7.1(d)has been
revised to reflect this point.
W-5-022 (b)Game:The primary deficiencies of the Socioeconomics
Chapter are prev al ent here:(1)inconsi stency with Chapter 3,
Fish,Wildlife and Botanical Resources;(2)lack of coordina-
tion such that mitigation recommendations from Chapter 3 are
not eval uated in Chapter 5 directly confl ict with recommended
mitigation measures;and (3)data gaps and "incomplete analyses
which prevent full evaluation of socioeconomic issues (e.g.,
Pages E-5-75,paragraphs 2 and 5;E-5-76,Paragraph 1;E-5-81,
Paragraphs 1 and 4;and E-5-82 to 83 discussion under Section
3.7(c)(i)-Data Limitation).
Response
All inconsistencies have been corrected.Additional
coord in ati on between Chapters 3 and 5 personnel ha s
taken pl ace to reconcil e confl icts that might have
ex i sted between a ssumpt ion sand mitigati on recommenda-
tions of these chapters.Some data gaps remain,leaving
some analyses incompl ete.These data gaps and analyses
will be considered in future study pl ans as more infor-
mation about impacts on fish and wildlife become avail-
ab 1 e•
W-5-023 (i)Commercial
-Guides and Guide Services:Paragraph 7:Please refer to
our comments on Section 3.5(b).In that "worst case"poten-
tial losses were examined in Section 3.7(a)(ii),we recOOlmend
that a similar examination be provided here,particularly
since moose estimates have previously been furnished by the
ongoing Bi g Game Study Program.
Response
Reference is made to Section 3.7.2(a)(i)for a discus-
sion of this point.Updatedinformati on on impact
estimates has been added to the text.Possible
decreases in the wilderness attributes of the area are
recognized in the text.Implications of potential
decreases for the guiding industry and other users are
not clear at this time •
W-5-024 Discussion should be included on the possible decrease in the
area's attractiveness for remote,wilderness hunting given the
increase in access and human activities with project develop-
ment.By definition,guided hunting involves a more remote
type experience.Loss of this remoteness and potential
impacts to the guiding industry should be considered here.
Ongoing data collection/analysis regarding this issue needed
to be fully desc ribed.
Response
See Chapter 5,Section 3.7.2(a).Loss of remoteness and
the implications of this loss to the guiding industry
are difficult to predict.The inclusion of these issues
in future study plans will be considered.
W-5-025 (ii)Recreational
-Resources:We recommend expanding the discussion to con-
sider relative demands and values for canmercial,recrea-
tional,and subsistence hunting for each species in cooparison
to other species.
Response
A brief analysi s of the rel ative uses of game resources
has been added to Section 3.7.2(b)(i i)of Chapter 5.
W-5-026 Incl uding a section on "Management"would cl arify the remain-
ing discussion on recreational hunting.The section should
briefly describe ADF&G management responsibilities and the
Game Board;and include a map of Game Management Units in
relation to major project features and access routes.
Response
Section 3.7.2(b)in Chapter 5 has been modified to dis-
cuss management.A map has been incl uded along with the
discussion of use of game resources in the area.
W-5-027 •Caribou:Incl uding the map recommended under Section 3.7(b)
(ii)-Resources above,would clarify the discussion.
Response
The map included in Chapter 5 now clarifies the discus-
sion of the area utilized by Nelchina caribou.
W-5-028 Resource Status:The present permit system is designed to
under harvest the herd so that it can continue to grow.This
section should reflect the present and future management plans
for thi s important resource,see simil ar comments under
Chapter 3,Section 4.2(a)(ii)-Population Characteristics.
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Response
Section 3.7.2(b)(ii)of Chapter 5 now contains a fuller
discussion of current management objectives for caribou
and moose in the vicinity of the project.
W-5-029 The Experience Sought by Hunters:Please clarify by identify-
ing the other area or resource to which hunt ing of the
Nelchina herd by nearby Anchorage,Fairbanks,etc.residents
is being compared.
Response
Section 3.7.2(b)(ii)has been clarified to indicate that
Nelchina caribou are harvested mainly by people from the
South-central region.The compari son,therefore,is
between the participation rate of South-central region
residents and that of hunters from elsewhere..
W-5-030 Transportation to and from Hunting Grounds:Project impacts
on hunter access,and indirectly,to the caribou herd should
be discussed.We suggest coordinating the discussion with
that in Chapter 3,page E-3-356,Paragraph 3 and Page E-3-371,
Paragraph 1,and our comments on those sections.
Response
A brief discussion of the implications of the Dena'li
access road is contained in Section 3.7.2(b)(ii)of
Chapter 5.A more exte'nsive analysis of this road's
impacts on the animal populations is given in Chapter 3.
Also contained in Chapter 3 are mitigation measures
which are designed to minimize this kind of impact.
W-5-031 Hunting Pressure:Management changes invalidate direct com-
parisons between the number of hunters in 1980 and 1970.
Increases of human populations should also be described.If
it were not for the permitting system,the hunting pressure
woul d be much hi gher.Al though the number of permit appl i-
cants provides a clearer picture of the importance of the
herd,we consider this figure to also underestimate the impor-
tance of the herd.Si nce the chance that an appl i cant woul d
obtain a permit is low,many people are discouraged from
applying.If warranted,a survey could provide an estimate of
the number of people who would hunt the Nelchina herd if the
permit system were removed.
Response
Refer to Section 3.7.2(b)(ii)of Chapter 5.Information
has been provided to give additional perspective to the
comparison of harvest effort over the years.
W-5-032 To adequately eval uate potential project impacts to the herd,
one woul d need to examine ADF&G present and future management
pl ans,projected demand forecasts,most 1 ikely behavioral
responses to the reservoirs,access routing and control,
alternative reservoir fill ing and operation schemes,construc-
tion and publ ic use of the access mode and routing al ter-
natives,the tradeoffs involved in confl icting mitigative pro-
posa 1s on user groups,etc.We rec ommend that the impac ts
evaluation examine the aforementioned factors.
Response
The issues raised are,in part,discussed in section
3.7.2(b)(ii)of Chapter 5.However,as outlined in
Chapter 3 of Exhibit E,the state-of-the-art does not
allow for precise prediction of project impacts.None-
thel ess,the suggestiDns made in thi s comment by the
U.S.Fi sh and Wil dl ife Serv ice wi 11 be considered for
incorporation in future studies.
W-5-033 Supply and Demand for Hunting Opportunity:
tion is not fully discussed.Data should
paring rates of increase for both permit
human area populations.
Response
Again,the situa-
be provided com-
appl ications and
Refer to Section 3.7.2(b)(ii)for an expanded treatment
of this question.The discussion recognizes the short-
coming of using the permit appl ications to indicate
demand.It would be better to be able to relate demand
to human population growth.However,because of the
hunting regulations,the picture is less clear.Even if
the regulations did not compl icate the picture,it is
unlikely that the growth in hunter participation would
grow at the same rate as the population.
W-5-034 Success Rate:The impact of hunting on caribou popul ations
shoul d be described here (e.g.see Chapter 3,Pages E-3-220 to
222).Inc reases in herd numbers may have al so contributed to
the increased success rate.A map of take rel ative to ex ist-
ing and proposed project access points may aid in eval uating
project impacts.An analysis of those impacts on existing
supply and demand for caribou shoul d be prov ided.
Response
Section 3.7.2(b)(ii)of Chapter 5 now has a discussion
of caribolJ poplJl ation si ze changes,changes in hunting
regulations over time and how these factors relate to
hunter success rates.
,....
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The impact of increased access on caribou populations is
described in Chapter 3.
W-5-035 •Moose:Since the subject of this chapter is socioeconomics,
we recommend expanding the discussion to include information
on moose being the most economically important wildlife
species in the region,per Chapter 3 (see Page E-3-197).
Response
The discussion in Section 3.7.2{b}{ii}has been expanded
to address part of thi s comment.
~though one can state that moose is one of the most
important game resources economically {as was done in
Chapter 3},and whereas moose are known to be important
to the guiding industry and to noncommercial use of
wildlife in the area,it is impossible to state whether
it is the most important.Many guided hunts are combin-
ation hunts "in which the hunter has the opportunity to
hunt for more than one species.Furthermore,many
guides,through provid"ing hunts for individual species,
will {in one season}provide guiding services to various
clients for a n unber of spec ies.Thi s makes it di ffi-
cult to evaluate the relative contributions of individ-
ual species to the income of the guiding industry and to
the economy of the area as a whole.
W-5-036 Resource Status:The paragraph is inconsistent with Chapter 3
which includes 1981 data and an estimate of 4,500 moose in the
upper basin.Recent and long-term ADF&G management plans for
moose,as well as a map of appl icable Game Management Units
would help relate impacts described here to po~ential mitiga-
tion measures.
Response
Updated discussions are contained in Chapter 3 and in
Section 3.7.2{b}(ii}of Chapter 5.The geographic area
referred to in Chapter 5 is more clearly defined by
including a map..
.....,
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W-5-037 Transportation To and From Hunting Grounds:The discussion
describes the type of data av aila61 e yet fa il s to prov ide any
quantification.Figures delineating present and project-
rel ated access points shoul d be incl uded and correl ated to
current hunting intensities.
Responses
Comment noted.JIllalysisof this type will be considered
as part of future study plans •
W-5-038 Hunting Pressure:Pl ease expl ain the hunting permit and/or
habitat changes responsibl e for the significant decrease in
hunters and harvest whil e area hlJTlan popul ations have substan-
tially increased.Reference to 2,859 hunters in 1981 is the
same nlll1ber of hunters as for 1980 in Table E-5-42.Please
correct if thi sis not the case.
Response
The regul atory hi story for moose hunting is incl uded in
Section 3.7.2(b)(ii)to explain some of the reasons for
decl ine in hunting effort.The correct figure for
reported nlll1ber of hunters for moose in GMU 13 during
1981 season is 3105.The text has been modified accord-
ingly (see Section 3.7.2(b)(ii)under moose hunting
pressure)•
W-5-039 Success Rate:Refer to comment above.local human popul a-
tions,permit regulations,and area moose populations are
critical factors in the success rate which should be dis-
cussed.
Responses
These critical factors influencing success rates of
hunters are analyzed in Section 3.7.2(b)(ii)of Chapter
5.
W-5-040 •Other Species:We concur that a large data gap exists.The
schedul e for acqui ring these data and incorporating them into
project planning should be discussed.Once socioeConomic mit-
igation proposals are established,they must be examined in
regard to impacts on fi sh and wil dl ife resource user groups.
A tradeoff analysi s woul d then be needed to examine confl ict-
ing mitigative proposal s.Because coordination among project
studies has been lacking,each study described impacts rela-
tive to optimal proj ect management for the subj ect of that
study,e.g.,recreation,fish,moose,subsistence,power,etc.
We recommend al ternativ e management scen arios be ev al uated
within each study before the necessary tradeoff analysis is
compl eted.
•Importance of Regul ati ons:Paragraph 1:Access routes,
restrictions on access,and construction schedules will al so
greatly influence opportunities to hunt in the project area.
Quantification should be provided for possibl e impacts under
at 1 east two scenarios -severely restricted access and per-
mits and open access without permits.Such analysis should be
fully coordinated with ongoing big game studies and al so dis-
cussed in Chapter 3.Given the substantial agency recommenda-
tions to omit any project access from the Denali Highway,and
the importance of that recommendation as a wildlife mitigation
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measure,we recommend your analyzing the impacts on hunter
access both with and without that road corridor.Additional
discussion should also be provided on impacts both with and
without restrictions on worker access and hunting.Again,
regulation of such use is a significant mitigation measure.
Quantification of possible use levels is necessary for full
quantification of project impacts on moose populations in
Chapter 3.
Response
These suggestions wi 11 be considered in future study
pl an s.
W-5-041 Paragraph 2:Consideration should be given to the greater
losses expected for black bear than for brown bear habitat in
view of the harvest regulations described here.
Response
See Section 3.7.2(b)(ii)of Chapter 5 for the discussion
of the importance and implications of regulations.
W-5-042 •Impacts on the Hunter:Factors contributing to a high
qual ity hunt should be defined here.Avail abil ity and access-
ability of animals are key factors which will be affected by
the project.Again,the schedule for quantifying recreational
project impacts should be described.The present inability to
quantify economic effects of the project is recognized as a
major problem and should be resolved in the license applica-
tion.The economics analysis should occur after quantifica-
tion of wildlife impacts an'd formulationJof mitigation propo-
sals.Please refer to our comments und r Sections 3.7(b)(i)
an d 3.7(b)(i i)•
Response
Factors contributing to a high qual ity hunt are now des-
cribed in Section 3.7.2(b)(ii).We agree that economic
effects of the project on users are most easily
addressed after impacts of the project on game are quan-
tified.This type of economic analysis will be con-
sidered in future study plans.
W-5-043 (iii)Subsistence Hunting:This section should be rewritten
to more accurately refl ect current 1 aws and regul ations.For
exampl e,non-residents cannot qual ify as subsi stence users.A
compl ete,rather than partial,1 isting of all qual ifications
for sub si stence use shoul d be incl uded here.The fi rst sen-
tence of the second paragraph pertains to a one-time only reg-
ul ation which is no longer in effect.The 1ast sentence of
this paragraph is an editorial comment which should be
deleted.Mention of the controversial nature of subsistence
use woul d be appropriate.The referenced future data c<l'npil a-
tion and analysis should be provided in the Exhibit E.At a
minimum,scope and scheduling of this work should be fully
discussed.The concerns expressed under Section 3.7(a)(iv)
-Subsistence Fishing would apply to this section in regard to
hunting.Please refer to Section 810 of the Alaska National
Interest Lands Conservation kt (Publ ic Law 96-487,December
2,1980)for guidance.
Response
Refer to Section 3.7.2(b)(i).The data on subsistence
use of g arne in the reg ion are nonex i stent except for
caribou.The text has been expanded to include caribou
use by local residents.
W-5-044 (c)Furbearers
(i)COlTVT1ercial Users:During the August 1982 AEA Workshop on
the Susitna project,trapping was considered the primary mor-
tality factor affecting beaver in the project area.Access,
in addition to species abundance and pelt prices,is al so a
key determinant of trapping intensity.
Response
The second portion of thi s statement has been added to
the text in Section 3.7.3 of Chapter 5.
W-5-045 -Data Limitations:Given that there are problems with avail-
able trapping data,the records which are available should be
described here as a general indication of area trapping activ-
ities.We are concerned about the apparent 1 ack of coordina-
tion with project furbearer studies which do provide some pop-
ulation and trapping data (see Chapter 3,Pages E-3-250 to
251;E-3-253 to 256;E-3-315 to 317;E-3-321 to 322;E-3-344
to 346;E-3-361 to 362;and E-3-368).
Response
Information on yearly harvests of furbearer species in
Game Management Unit 13 have been added to the chapter,
as the agency requested.However,as mentioned in the
text,the 1 imitations of these data are such that the
use of these data in the present context is considered
to be inappropriate,except as a very general indi-
cator.
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W-5-046 -Trapping Activity:Paragraph 1:Any examination of project
impacts needs to examine future opportunities lost.Again,
pI ease prov ide whatever quanti ficati on of trapper n lJJ1bers and
harvest values is available.Consideration should be given to
thenlJJ1ber of additional trappers the area coul dsupport under
alternative project access location and regulation alterna-
tives.
Paragraph 3:Based on the suggested 25-mile trap line length,
it is doubtful whether the project area,with projected access
routes,coul d support more than an additi onal dozen trappers.
There is some indication that the area may be near trapping
saturati on now (Furbearer St udy Coord inator Phi 1 Gi pson,per-
sonal communication).
Response
There are not sufficient popul ation data on furbearers
avail abl e to estimate the magnitude of future opportun i-
ties lost,the number of additional trappers the proj ect
area could support,or to say whether the area is now
near trapping saturation.
W-5-047 -Aquatic Species
•Baseline:Paragraph 2:To compliment and parallel the
beaver discussion,information should be included on muskrat
populations and habitat utilization;please refer to our com-
ments under Section 3.7(c)(i)-Data Limitations,above.
Response
A summary of the information on muskrat provided in
Chapter 3 has been added to Section 3.7 of Chapter 5 as
requested.
W-5-048 Paragraph 3:Subsistence value of furbearer species should be
identified.
Response
This comment refers to a paragraph that states the meat
of muskrat and beaver are util ized as well as the fur
for dog and human consumption.We do not agree that
thi sis an important sub si stence use of these spec ies,
or that it is appropriate to quantify their values as
food for dogs and humans.
W-5-049 Paragraph 4:References such as lI abundant U and II common II
should be deleted.Quantification should be available from
the 1981 and 1982 field seasons for those species.Please
incorporate these data into the discu$sjon and analysis.
Response
To the extent available.specific information on fur-
bearer popul ations in the project area can be found in
Chapter 3.
W-5-050 •Impacts of the Project:The conclusion that the access road
and transmission 1 ines would provide increased harvest oppor-
tunities through increased access appears to be in confl ict
with conclusions and statements offered in other chapters and
sections (e.g ••Chapter 3.Pages E-3-317 to 323;E-3-345 to
346;E-3-360 to 363;E-3-368;and in particular.E-3-377).
The statement offered in this section would lead one to con-
clude that open access is expected to be provided by the pre-
ferred access road and throug h a maintenance road for the
transmission 1 ine from Watana damsite.It has been our under-
standing that the former has not been establ ished and the
1 atter was not to occur.Pl ease refer to our comments on
Sections 3.1(a)(i)Public Recreation.Facilities:
Paragraph 1.and 3.1(arrn -Transportation:Paragraph 1.The
lost future opportunities and the potential impact that could
occur to trappers due to the expected ice-free winter condi-
tion of the Susitna River above Talkeetna should be fully
described in this section.The potential for furbearer popu-
lations to be trapped out.if open access is provided.should
al so be considered here.
Response
For purposes of analysis.it has been assumed that the
access road will be open to use by the public upon com-
pletion of project construction.However.access can be
restricted at a future time as a mitigation measure.
This has been clarified in the text of Chapter 5.
There is not sufficient information available to esti-
mate the magnitude of future opportunities lost.In the
short-run.trapping opportunities will increase as a
result of increased access.The potential for certain
furbearer spec ies in spec ifi c porti ons of the impact
area to be trapped out is mentioned in Chapter 5.but
quantification is not possible at this time.
The expected ice-free condition of the Susitna River is
not expected to have a significant effect on trappers.
Currently.the river does not freeze sufficiently to
support sub stantlal travel on it.
"..."..,
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W-5-051 -Pine Marten
•Impacts:Paragraph 1:Pl ease refer to comments under
Section 3.7(c)(i)-Aquatic Species:Impacts of the Project,
above.The last two sentences are contradictory;there is
some inconsistency with the last line of the second paragraph
which otherwise appears to be an accidental repetition of
Paragraph 1 under this section.
Response
There was a typographical error in the section on
impacts to pine marten (Section 3.7.3(d))in which part
of the paragraph was repeated twice.This has been
corrected.The text has also been clarified to avoid
the appearance of contradiction.
~I
W-5-052 Lynx:Paragraph 2:Again,quantification should be given to
this trapping pressure and success rate relative to other area
furbearers.
Response
Harvest information of lynx in GMU 13 has been provided
in Chapter 5.
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W-5-053 -Fox:
-Lynx,
impacts
see our
Please refer to our comment under Section 3.7(c)(i)
above.Consideration should also be given to project
on fox,as they may rel ate to the fox trapper (al so
comments under Chapter 3,Section 4.3(a)(xii)).
Response
~Information on the magnitude of impacts to fox and
coyote popul ations can be found in Chapter 3 and in the
response to comments on Chapter 3,Section 4.3(a)(xii).
W-5-054 -Secondary Industries:In order to fully assess project
impacts on secondary industries,the "relatively small percen-
tage of Al askan trappers who operate in the'impac t areal!
should be quantified here.
Response
-I
Trappers in the project area represent approximately 0.5
percent of the total nunber of trappers in the state.
This information was added to Section 3.7.3(g).
W-5-055 (ii)Recreational:Inadequacy of data base is identified.
Information on this user group should be accumulated,impacts
an alyzed,mitigati on proposed and then re-eval uated to assess
effectiveness and impacts in the Exhibit E.The impact due to
the loss of access across the upper Susitna River resulting
from the probable loss of winter ice cover requires examina-
tion in this section.
We suggest addition of a paragraph (iii)Subsistence to com-
plete this section.Information under Paragraph 3,Page
E-5-84 would apply,see comment under that section (Section
3.7(c)(i)Pine Marten -Impacts).
Response
The section now contains no distinction between "commer-
cial ll and "noncornmercialll trappers,since part-time
trappers will often sell tne furs they obain,and since
there are no data to support such a distinction.
Surveys of wildlife users in the project area will be
considered in future study plans.This would help to
explore further the impl icati ons for trappers of the
expected ice-free condition of the Susitna River.
4 -MITIGATION
W-5-056 Paragraph 1:The definition should reflect that established
in the APA Mitigation Policy document and the NEPA defini-
tion.
paragraph 4:Without proper coordination between Susitna
study components,actions designed to minimize one component's
adverse impacts can unwittingly adversely effect the abil ity
of another component to mitigate.The maj or mitigation pro-
posal s offered here are often in confl ict with the mitigation
goals of the fish and wildlife resources components.Greater
communication,coordination must result in an open process to
examine the tradeoffs when mitigation proposal s are offered
which may pose impacts to other components.Pl ease refer to
our comments concerning section 3.7(c)(i)Aquatic Species
which appears to indicate a lack of component coordination.
Paragraph 5:Appropriate local,state,and federal agencies
need to have input to this process.Continued monitoring of
changing mitigation needs in regard to compatabil ity with
mitigation goal s of other components is very important.
4.2 -Mitigation Alternatives:How the goal of mitigation as
expressed in this section conforms to the goals of mitigation
in the APA Mitigation Pol icy document and the NEPA definition
of mitigation should be explained.
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a Tools that Influence the Magnitude and Geographic Distri-
ution of Project-Induced Changes
Paragraph 3:Schedu1 ing constraints need to be reassessed in
1 ight of the 1 atest power needs forecasts.We recommend that
the extent to which impacts could be mitigated in each study
component be examined through a tradeoff ana1ysi s of the
timing constraints which have been imposed.
Paragraph 4:Impacts to fish and wildlife resources,and thus
indirectly to users of these resources,are re1 ated to the
type of construction camp established,access provided (route
and mode),and the administration of these facil Hies.We
perceive 1 ittle coordination designed to minimi ze impacts to
fish and wildlife resources as a part of the socioeconomic
analysis.
Paragraph 5:It appears as if management of the construction
site is to be passive.That is,workers can come and go with-
out restrictions.Thi s appears to be in conf1 ict with the
statement on Page E-5-91,"For this project,there will be no
daily commuting."Also,the assllTlption that workers will
maintain their existing residences would follow only if the
assurnpt ion that the workers woul d come almost enti rely from
the local and regional areas households.This was strongly
questioned in the previously referenced letter dated May 27,
1982,from ADCRA,and on Page E-5-94,"There are at 1 east a
couple of reasons to bel ieve that local labor might have a
difficult time obtaining construction jobs."
Paragraph 8:Thi s parag raph suffers from internal
tenc ies concerning dai 1y commuting and use of
vehicles.Please clarify the discussion.
inconsi s-
personal
Paragraph 9:Thi s section is supposed to be the mitigation
pl an.
Paragraph 12:The referenced stud ies shou1 d be coord in ated
with fi sh and wil d1 ife resources analyses and mitigati on
planning.P1 ease refer to Section 4:Paragraphs 4 and 5 for
additional comments.
(b)Tools that·Help Communities and Other Bodies Cope with
Oi srupti ons ,and Budget Defi cits
Paragraph 2:In accordancewit'h the APA Mitigation Pol icy
doc lITl'ent,a monitoring panel wou1 d need to be estab 1i shed,at
project expense,consisting of representatives of appropriate
local,state,and federal agencies to carry out the function
of assessing the extent of actual impacts and recommending
modifications to the mitigation program.Modification of the
mitigation plan in the 1 icense would be through 1 icense amend-
ment.
Paragraph 10:Pl ease refer to the comments immediately above
(Section 4.2(b):Paragraph 2).
Paragraphs 13 and 14:The question of whether or not the
labor needs of the project could be fulfilled largely through
local hire (Page E-5-44)or not obviously is going to substan-
tially effect socioeconomic impacts.In that uncertainty
exi sts,as expressed in these paragraphs and in the May 27,
1982,ADCRA 1 etter to APA,we recommend a re-eva]uati on be
carried out as indicated in Section 4.3 (on Page E-5-95)and
incorporated into the Exhibit E.
4.3 -Impact Management Program:paragra~h 4:Item 1:In
many respects,the Base Case,as discusse in this document,
is a minimum project impacts scenario;this opinion is clearly
expressed in our Chapter 5 •General Comments.We bel ieve
that substantial uncertainty exists in key assLlllptions and
that a multiple scenario model is in order.The study should
be updated to refl ect current state economic and popul ation
forecasts.
Item 2:Pl ease refer to our comments on Section 4.2(b):
Paragraph 2.
Item 3:Pl ease refer to our comments on Section 4.2(b):
Paragraph 2.
Item 4:Pl ease refer to our comments on Section 4.2(b):
Parag raph 2.
Paragraph 5:Pl ease refer to our cOOlments on Section 4.2(b):
Paragraph 2.
Table E-5-42:We recommend the addition of population esti-
mates and any changes in permit regulations from 1970 to 1981.
The nlJ11ber of hunters in 1980 is attributed to 1981 on Page
E-5-79.
Response
Thank you for these comments.Section 4,Mitigation,
has been rev i sed in response.
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COMMENTS CONTAINED IN U.S.FISH AND WILDLIFE
SERVICE LETTER OF JANUARY 14,1983
.GENERAL COMMENTS -RECREATIONAL RESOURCES
Comment 1
Primary objectives of the Recreation Plan should be:a)to identify
.and mitigate the project related adverse impacts to the existing uses
of fish and wildlife and other resources and,b)to maximize additional
recreational opportunities that are not in conflict with existing uses
and the resources they are 'based upon.Thi s shoul d be accompl i shed in
the context of projected demand during the construction and operation
phases of the project.
In general we find this chapter suffers from a lack of necessary infor-
mation which would achieve these objectives.In particular,1)the
chapter fails to outline alternative recreation options;2)evaluate
the recommended plan and alternatives over the entire economic project
life;3)distinguish between specific recreation users;4)recognize
and identify specific responsibilities with regard to implementation
and operation of the plan;and 5)lacks specificity necessary to influ-
ence project developnent for the betterment of recreati onal opportun i-
ties.
Response
1.Section 5.5 outl ines various conceptual recreation al ter-
natives including the no-build alternative.These alter-
natives provided the parameters for the elements consi-
dered in the proposed recr'eation plan.In addition,a
phasing system has been applied in order to provide flexi-
bil ity in the evolution of the recreation plan.
2.Sections 2.1.3,2.1.4,2.1.5,2.1.6 are provided to demon-
strate the backg round and composition of the current
recreation users.Figures E.7.6,E.7.7,and E.7.8 indi-
cate existing recreation use patterns.
Section 2.2.2 describes existing recreation use within the
study area including user descriptions.Section 3.2.3
discusses estimated recreation demand as rel ated to spe-
r-cific user categories.
I
3.Section 4.3 outlines the financial responsibility of the
Alaska Power Authority.Section 6.0 outlines the imple-
mentation of the recreation plan.Future work includes
the negotiation and formalization of the agreements be-
tween the Al aska Power Authority and managing agencies and
the private corporations holding land •
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4.Specific responsibil ities of all parties regarding imple-
mentation of the recreation plan are discussed in Sections
4 and 6 of Chapter 7,Exhibit E.The responsibil ities of
all parties will be formal ized and documented prior to
implementation of the recreation plan.
Comment 2
To allow the maximum flexibility for meeting recreational demands,it
is important that an array of alternative options be evaluated.This
is emphasized by the lack of definitive demand projections and poten-
tial for access during the construction periods.Furthermore,we view
the tremendous influx of people during the construction period as a
major consideration for a recreation plan.Specific measures must be
identified which will not only satisfy demand but also act as controls
on overuse.The pl an must al so recogni ze the 1 imited recreational
carrying capacity of the area and deal with the fact that all demand
may not be satisfied.
Response
1.Sections 5.1,5.2,5.3,and 5.4 discuss the study method
within which a maximum flexibility could occur,as based
upon the best demand information available from several
different sources.The phasing concept,rel ated to con-
struction and operation,is intended to provide not only
fl exibil ity,but for the possibil ity of change in demand
or need over the extended construction period.
2.Section 5.4.6 describes the recreation plan for the con-
struction camp.These are specifically intended as alter-
natives to the normal recreation opportunity.
3.The study methodology recogni zes not all recreation de-
mands can be met.There has not been an emphasi s upon
that concept.Instead carrying capacity,Section 5.3.4,
is intended to evaluate each site on the basis of fitness
of use.
Comment 3
Identification of specific responsibilities for implementation and
operation of the Recreation Plan should be included.It does not
suffice to pl ace the responsibil ity on the "management agenc ies,"with-
out a detailed coordinated effort with the agencies prior to issuance
of the license.The plan must clearly identify the applicant's re-
sponsibility,the agencies'responsibility,and clearly outline the
procedures to be followed.The plan must recognize the inherent
restraints pl aced on the agencies and include as a project cost compen-
sations of them as appropriate for mitigation of project-induced
impacts.
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Response
In addition to Sections 2.2.2 and 3.2.3,future work includes
this necessary work as discussed above.Costs for management
of recreation areas are indicated in Figures E.7.19 and
E.7.20.
COJllllent 4
The plan clearly fails to recognize the differences between sport,
trophy,and subsistence use of particular wildl ife resources.The ten-
dency has been to lump these users as hunters with a major objective of
bagging game.We submit these are clearly distinct groups and should
be so recognized.Cultural differences regarding recreational pursuits
have also been totally ignored in the plan.
Response
Refer to Chapters 3 and 5.
Comment 5
lastly,the plan appears to have been written in a clearly reactive
mode.There is no recognition of any recreational planning initiative
that has precluded develoJl1lent of recreational opportunities which
could have avoided some impacts while maintaining a higher aesthetic
quality to the recreational experience.
Response
We disagree with the comment.Refer to Sections 1.0,1.1,
1.3,5.1,5.3,and 5.5,which describe the conceptual format
of the recreation study.
SPECIFIC COMMENTS -RECREATIONAL RESOURCES
3 -PROJECT IMPACTS ON EXISTING RECREATION
3.1 -Watana Development
(a)Reservoir
W-7-001 (i)Construction:The discussion in this section needs to be
expanded to address non-consumptive and subsi stence recrea-
tional users as well as sport and trophy hunters.Further-
more,the section needs to address the eminent competition
between existing recreational users and construction workers.
Response
Refer to Chapters 3 and 5.Competition between workers
and existing users is discussed in Section 3.
W-7-002 (ii)Operations:Discussions should be provided to address a
new recreational opportunity,i.e.,boating on the reservoir,
primarily for access to other areas.
Response
The potential for boating on the reservoirs was consi-
dered,as described in Section 3.1.1;it was concluded
that the operational and physical character of the reser-
voirs created little recreation opportunity.
W-7-003 (b)Talkeetna to Devil Canyon Fishery
(i i)Constructi on:Si nce a pl an for flow rel eases during the
construction and filling period has not been finalized,we do
not know what effect flow will have on fishing opportunity.
Mitigation measures will be aimed at maintaining existing
fishing opportunities.
Response
Refer to Chapter 3,Exh-ibit E.
W-7-004 (ii 1Operations:Since the proposed operational flow regime
wil likely reduce water quantity in the sloughs,we antici-
pate a reduction in fishing opportunity that must be mitiga-
ted,the potential for this adverse impac,t and appropriate
mitigation should be addressed.
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Response
Refer to Chapter 3,Exhibit E.In addition,new fisheries
will be more accessible because of the recreation plan to
repl ace the abovementioned restricti ons in opportun ity.
The recreation plan is mitigation for lost opportunities.
(d)Other-Land Related Recreation
~i)Construction:Paragraph 2:Please expand and clarify the
;scuss;on.It ;s our understanding that the area will be
open to the recreating publ ic.--
Paragraph 3:The discussion fail s to 'address whether or not
existing use shifts to other areas is dependent upon several
factors;e.g.,species involved,availabil ity of and restric-
tions on use of those species elsewhere,existing demand
already present in other areas,and cultural association with
those spec ies.
Response
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Refer to Chapters 3 and 5 of Exhibit E.
W-7-006 (ii)Operations:It is the responsibility of the project
sponsor to identify specific mitigation measures and develop a
comprehensive pl an which wi 11 address thi s impact.lIProper
control by 1andowners and managers,II is not a mitig ati on
measure without appropriate compensation to implement and
operate the recreation plans.This cost should be identified
and evaluated over the economic project 1 ife and included as a
project cost.
Response
Tables E.7.17,E.7.18, E.7.19,and E.7.20 speak to direct
recreation development and operations.Further negotia-
tions will occur between the Al aska Power Authority and
Division of State Parks (managing agency)for this pro-
ject.
W-7-007 3.3 -Access (3.1.3)
(a)Watana Access Road
~i)Construction:Paragraph 2:Estimated recreational ve-
;cl e traffic both prior to and after 1993 shoul d be presen-
ted.
Response
Refer to Chapters 5 and 9.
W-7-008 (b)Devil Canyon Access Road
(i)Construction:Paragraph 2:Mitigation for excavation of
the borrow areas could include the future use of these areas
for rec reat ion dev el olJllent.These measures shoul d be spec i fi-
cally identified and incorporated as part of the Recreation
Pl an.
Response
This is included as part of Phase 5 recreation planning.
Also it is included as a mitigating measure in Chapter 3
and Chapter 8.
W-7-009 (ii)Operations:These "care ful plans"should be a part of
thi s doclJTlent,if not,who will develop these pl ans and when?
The associated costs should also be discussed and displayed as
project costs.Also,management responsibil ities during
construction should be identified and discussed along with
associated costs.
Response
Detail ed pl anning and design is the purpose of Phase II
engineering.Tables E.7.17,E.7.18, E.7.19,E.7.20 are
costs specific to the recreation plan.
W-7-010 (d)Other Land-Related Recreation
(ii)Operation:We feel this will be a significant impact and
specific plans should be identified and discussed in this
document.
Response
Other recreation study e.g.,transmission line corridors,
will be incl uded.
W-7-011 3.5 -Indirect Impacts --Project-Induced Recreation Demand
(b)Assumptions:Paragraph 1:This paragraph is very confus-
ing and needs to be clarified.In particular,that part deal-
ing with mitigation.We would suggest,liThe proposed recrea-
tion plan is designed as mitigation for recreation opportuni-
ties lost due to proj~ct development.•••"
Response
Ag reed.
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W-7-012 Paragraph 3:Assumption 6:We would suggest that a 1 ikely
scenario associated with this developnent will be a road
access prov ided to the area without the proj ec t.Thi s scen-
ario could drastically affect your evaluation •.
Response
We doubt the 1 ikel iness of simil ar road access to the
Susitna area without the project.
W-7-013 (c)Estimated Recreation Demand
Thi s para-
Paragraph 17:The simpl ificati on of your methodology al so
does not consider that other recreation opportunities may
become saturated,hence areas of low use (proj ec t area)may
become much more important for future use and receive an
increase in demand.
Response
Although possible,the obvious capacity and capture rate
of nothern offsite recreation sites within the same travel
time and distance zones,pl us the attractiveness of other
places,limits this scenario in its significance.These
are described in section 3.2.3,Estimated Recreation
Demand.
COMMENTS CONTAINED IN U.S.FISH AND WILDLIFE
SERVICE LETTER OF JANUARY 14,1983
GENERAL COMMENTS -AESTHETIC RESOURCES
Comment 1
We find the chapter deficient in the following areas:1)it lacks the
detail necessary to distinguish the various user groups within the
category "hunters and fishermen,"e.g.,the chapter characterized this
group as only subsistence users;2)avoidance has not been acknowledged
as a mitigation measure,which could significantly reduce potential
impacts;and 3)the chapter does not reference the incorporation of any
mitigation measures into the project pl ans.
Response
1.Refer to Chapters 3 and 5 for user group discussions.See
response to specific comment W-8-001.
2.
3.
Av oidance will be used,and has been used,in proposed
facility design.
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Refer to Sections 9 and 10,and the appendices for this
inclusion.
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SPECIFIC COMMENTS -AESTHETIC RESOURCES
3 -EXISTING ENVIRONMENT (STEP 3)
3.2 -Viewer Sensitivity (Step 4)
Types of Viewers
W-8-001 (A)Hunters and Fi shermen:Your categorization of hunters and
fishermen lacks the necessary depth to allow meaningful analy-
sis.There are three distinct groups which must be identified
and discussed,i.e.,sport,subsistence,and trophy users.We
submit that they are unique in their appreciation of aesthetic
quality.
Response
Basel ine sociological data about the characteristics of
any normative recreation users do not exi st.Other than
generalizations about people,the types of viewers were
not as critical as was their location and what they were
seeing.This section has been changed to reflect this
distinction.All people have unique appreciation of
aesthetic quality.
W-8-002 Nonresident Outdoor Recreation Enthusiasts:Trophy hunt-
lng an fl s lng are readl y ldentl la e user groups,espe-
cially in Stephan Lake area.This should be identified and
evaluated.
Response
Refer to Chapter 5.
W-8-003 Expectation of Views (A):The prime concern of some users is
not bagging their game or catching their 1 imits.This dis-
tinction should be made.
Response
Section 6 has been changed.to emphasize principal views
and observation points.We agree with the above comment.
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W-8-004 5 -PROPOSED MITIGATION MEASURES (Step 9~:The mitigation
measures you have identified are commendab e.However,there
is no indication in this section that these measures have been
addressed and incorporated into the project plans.Pertinent
sections of the license application should be cited to show
where these measures are addressed and/or reasons why they
were not addressed.We are al so concerned that "avoidance,"
as a mitigation measure has not been addressed.We refer
Ispec ifically to proj ect features which coul d be located el se-
where as a mitigation measure or be more easily mitigable in
another location.Access routes and town sites would fall
into this category.
Response
Sections 8,9 and 10 include incorporated mitigation
measures,including avoidance.Future supplemental work
will include more aesthetic measures,and Phase II project
engineering design will consider the proposed mitigation
measures.
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COMMENTS CONTAINED IN U.S.FISH AND WILDLIFE
SERVICE LETTER OF JANUARY 14,1983
GENERAL COMMENTS -LAND USE
Comment 1
With reg ard to Secti on 2.2(d)(i),we find the c haptersuffers from a
lack of definitive information regarding wetlands and floodplains.
These areas should be graphically displayed by type in the document.
Furthermore,the chapter should discuss the specific values of these
areas,their relationship with other vegetative types,and specifically
address the effects of the projects on wetland and floodplains.
Mitigation measures recommended to minimize impacts to wetland flood-
plains should be discussed including alternative site locations.
This analysis is extremely important to avoid any delay necessitated to
insure compl iance with federal requi rements with Section 404·of the
Clean Water Act as amended (86 Stat.884,U.S.C.1344),associated reg-
ulations,guidelines,and Executive Orders (11988,11990).
Response
These comments have been addressed in Section 2.2.4 -Special
Lands -(a)Wetlands and (b)Floodlands.Wetland maps are
included in Chapter 3.Floodplain maps are included in
Chapter 2.
Comment 2
Specific measures to mitigate impacts from the transmission line should
also be addressed including the right-of-way management techniques.
Response
These comments have been addressed in Section 3.5.1 -Trans-
mission -Proposed Facilities and 3.5.3 -Transmission -Miti-
gation.
Note:No specific comments were suppl iedon Chapter 9,Land Use.
GENERAL COMMENT -ALTERNATIVE LOCATIONS,DESIGNS,AND ENERGY SOURCES
Comment 1
Mr.John Lawrence of Acres American,by letters dated November 1981,
requested that the FWS review the Development Selection Report and the
Transmission Corridor Report.These requests were made for the purpose
of fulfill"ing the FERC requirements of formal pre-license application
coordination.We responded to the first review request by letter dated
December 17,1981 and to the second by 1 etter dated January 5,1982.
In that these letters were requested as part of the formal coordination
process,they should be responded to at this time.
Response
The letter of December 17,1981 and our response appear
in Chapter 11.
The letter referred to,dated January 5,1982,was
responded to on April 14,1982.Copies of each appear
in Chapter 11.
Comment 2
We have been requested to review the draft Exhibit E without benefit of
the other draft license exhibits.In Chapter 10,numerous references
are made to other Exhibits (pp.E-10-1,E-10-1,E-10-14, E-10-16,
E-10-23,E-1O-28,E-10-32,E-10-38,E-10-62,E-10-81).Since we are
unable to examine the other Exhibits,we view this .pre-license coordi-
nation as unsatisfactory.Additionally,in our examination of the
Exhibit E chapters,we have seen numerous examples of insufficient
internal coordination and/or communication.In that this appears to be
a problem within the Exhibit E,we can only assume that this problem
occurs between Exhibit E and the other Exhibits.
Examples of lack of coordination and/or communication between Chapter
10 and Chapters 2 and 3 are apparent in the discussion concerning mini-
mum flow rel eases .(pp.E-10-28,E-20-3D),temperature model i ng (pp.
E-10-3D,E-10-31),and socioeconomic considerations between this
Chapter and Chapter 5 (pp.E-1D-138).These conncerns are di scussed
within the text of our specific comments.
Response
The same material present in the Exhibits not received
is present in the Feasibility Report material issued in
March 1982.With the exception of the operating scena-
rio,access road,and the transmission line,the project
description,maps,etc.,have not changed.With the
numerous meetings held previous to this request for com-
ments and the presentation of the project by Dr •.John
Hayden of Acres on November 29,1982,adequate informa-
+ion was available to review Exhibit E.An updated set
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of all exhibits is now filed with FERC and will be dis-
tributed to agencies on acceptance by FERC.
Any inconsistencies have been corrected.
Since publication of the draft license application,fur-
ther temperature studies have been conducted.The re-
sults of these studies are discussed in Chapters 2 and 3
of Exhi bit E.
Comment 3
There is essentially no attempt in this chapter to assess the possi-
bflity of no Susitna project or how the Railbelt should contend with
time delays of various lengths.Just listing various types of alterna-
tive energy sources does not allow an evaluation of what would,or
shoul d coccur in the event that Sus itna is delayed for a peri od of
years,or is never bui It.We reconmend that this type of pl anni ng
effort be carried out to examine the effects of short-term delays and
to examine long-term alternatives.
Response
Section 5 discusses the ramifications of the Susitna
Project not being built.The effects or possibility of
Susitna delays is not required in the FERC regulations.
The need to build the project and the project schedule
are discussed in Exhibits C and D,respectively.Ade-
quate float time is incorporated into the schedul e to
allow for foreseeable delays.
Comment 4
Any assessment of alternatives,needs to take into account the most
current power needs projecti ons.It is our understandi ng that the
power projections which are being used in the license application are
generally agreed to be high and are being reevaluated for submittal to
FERC after the license application is submitted (Acres American Deputy
Project Manager John Hayden,personal communication).The envi ronmen-
tal implications are rather evident.Alternatives to Susitna should be
examined on the basis of fulfilling future power needs rather than
matching the power production of Susitna.Under previ ous projected
power needs,it probably would have taken a combination of a greater
number of individual power generating stations than under the latest
projections.Several smaller individual generating facilities should
lead to greater flexibility in potential combinations and fewer adverse
environmental impacts.We recommend that this be examined.
Response
The power projections used were the best available and
deemed to be the most accurate at the time of license
application.The need to reevaluate these forecasts is
being assessed by Alaska Power Authority.The Susitna
Project was designed to most economically meet projected
future power needs.In comparing alternatives,it was
most logical to compare the Susitna Project with others
having the same power output.This permitted a compari-
son of the environmental impacts.We also question that
several smaller individual generating facilities (with
associated access and transmission)should lead to fewer
adverse environmental impacts.
Comment 5
In the assessments provided on hydropower alternatives,Susitna as pro-
posed and alternative basin developments are not evaluated on an equit-
able basis.
Tables are displayed which contrast the weak and strong points of these
alternatives yet we never see how the Susitna project ranks.This is
particularly unfortunate since Susitna would leave one with the initial
impression (which is the level to which the alternatives are examined)
that it would have significant adverse impacts to many of the environ-
mental criteria (page E-1O-4),including:(l)big game,(2)anadromous
fish,(3)de facto wilderness,(4)cultural (subsistence),(5)recrea-
tion (existing),(6)restricted land use,and (7)access.
Response
The Susitna Project is the proposed project.The tables
and analyses referred to are not for the purpose of
evaluating the Susitna project but to evaluate alterna-
tives.Much more detailed analysis of the Susitna Proj-
ect is appropriate and occurs in the remainder of Exhi-
bit E.From an initial review,the Susitna Project
would be extremely favorabl e from an envi ronmental per-
spective compared to the other large hydro si~es evalua-
ted.
Comment 6
There is no attempt in this chapter to examine the environmental trade
offs of the different power generation alternatives,including Susitna.
Therefore,an assessment as to what woul d be the "best II power develop-
ment for the Railbelt is not possible.Additionally,in that no single
alternative source of power is contemplated to provide the same level
of power as Susitna (assuming the updated future power demand projec-
tions assert that this power generation capability is needed)various
power generation mixes should be examined.These alternative combina-
tion plans should then be compared to Susitna in a tradeoff analysis.
Response
An identification of the "best"alternative power devel-
opment in the absence of Susitna is made in Exhibit D.
This alternative consists of significant development of
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coal resources suppl emented by gas power or peaking
energy.The environmental impact of this plan would
basically be that as described under Section 4.Without
a specific mining/generating plants it is not possible
to provide specific environmental impacts.
Comment 7
One obvious alternative power generation mix (which is further discus-
sed in our Specific Comments)should center on the power generating
capabi 1ity of the West Cook Inlet area.In close proximity to each
other and existing transmission lines s we have Chakachamna hydropower s
Beluga Coal fields s Mount Spurr geothermal s and the West Cook Inlet
natural gas fields.
Response
Further to the previous responses the IIbest"non-Susitna
plan is a mixture of the West Cook Inlet alternatives
with emphasis on Beluga coal.This plan and the asso-
ciated economic comparison is supplied in Exhibit Os as
specified in the FERC regulations.The Chakachamna pro-
ject is addressed as part of the non-Susitna plan sensi-
tivity analysis.
Comment 8
Natural gas is considered by many to be a highly attractive alternative
to Susitna 18/,19/.Yet the coverage devoted to this subject was
disappointing,particularly when compared to other alternative power
generating technologies.Three times as much space is devoted to
nuclear power which is not generally considered as a socially accept-
able alternative to Susitna.Biomass,as an energy sources received
twice the coverage of natural gas s and wind power received more than
four times the coverage devoted to natural gas.This confirms what we
perceive as misappropriation of emphasis.Numerous reports have been
issued over the 1ast three years on the natural gas al ternative s in-
cluding the two footnoted below.Few reports are referenced in Section
10.3(c)(i)giving the impression that a very limited effort was expen-
ded in researching this section.
Response
Natural gas was only one of t~e alternatives considered.
Adequate coverage is devoted to this subject in Section
4.
Comment 9
Section 10.3(f)fails to recognize the most attractive geothermal al-
ternatives Mount Spurr.Further discussion on this alternative is fur-
nished in our Section 10.3(f)specific comments.
Response
Additional information on this subject has been added to
Sections 4.It should be noted that the Alaska Depart-
ment of Natural Resources,in its comments to this
Chapter stated IIUnt il expl orat i on of the geothermal
potential of Mt.Spurr has occurred,the viability of
geothermal power for the railbelt region is unknown.1I
Comment 10
Apparently no attempt has been made to assess alternatives to the pro-
posed construction camp/village such as siting,type of camp,and
administration of the camp.Alternatives to those proposed in the
draft application obviously exist and need to be openly examined.
These implicit decisions have large implications for the fish and wild-
1 He resources and users.Considerations of a Prudhoe Bay type camp
should be given.Construction camp alternatives should be discussed in
terms of minimizing adverse impacts to fish and wildlife resources and
thei r use.We are concerned that not only were the resource agenci es
not consulted previously on these actions but that communication and
cooodination between those responsible for this chapter and those in-
volved in the socioeconomic,and the fish and wildlife components did
not occur to a satisfactory level.
Response
Considerable study was done to determine the best sit-
ing,type of camp and administrative p~icies for camp
operation.During the development of a camp plan,con-
sideration was given to recent experience in Alaska on
projects 1 ike the Trans-Al aska Oi 1 Pi pel i ne as well as
1 arge hydroelectric projects in northern Canada.In
addition,the environmental concerns were taken into
account.
Selection of camp siting was made after studying pos-
sible locations on both river banks and giving consider-
ation to access,work areas and environmental impacts.
The type of camp with a balance between family and
single status personnel with emphasis on community and
recreational facilities,was the result of an in-depth
study of successful construction communities on other
large scale,long-duration hydroelectric projects.The
type of camp was selected to compl iment the hours of
work and the poljcies of time-off for personnel to visit
famil ies.The overall objective has been to provide a
community that would attract the skilled worker required
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for the proj ect,whi 1e at the same time controll i ng
costs to a reasonable level and keeping environmental
impacts to a minimum.Mitigation measures discussed in
Chapter 3 include those specifically addressed to the
camp construction and operation.
Cornment 11
Due to the numerous inadequacies mentioned above the "concludingll
Section 10.4 should not be expected to provide enlightenment regarding
the consequences of license denial.It does not.Additional inadequa-
cies are discussed in the Specific Comments which follow.
Response
The section on consequences of license denial has been
expanded.See Section 5.
SPECIFIC COMMENTS -ALTERNATIVE LOCATIONS,DESIGNS,AND ENERGY SOURCES
W-10-001 10.1-r-.----..---:::---.-:-----:~r--"'_T-:__"".___n~-__;_Paragraph 1:
not prov1 e ,
(i)Screening of Candidate Sites:Paragraph 1:Reference
is made to Exhibit B,which has not been furnished,although
we requested it.
-Second Iteration:Paragraph 2:The criteria should re-
flect that:(1)just because salmon migrate above a site
doesn't mean losses to anadromous fish are unavoidable (e.g.,
Chakachamna);and (2)just because anadromous fish are not
found above a potential site,adverse impacts are avoidable
(e.g.Susitna).
Res ponse
The methodology for analysis of alternative sites for
non-Susitna hydropower development was discussed in
Section 1.4 of Volume I of the Feasibility Report,which
was issued to all agencies in March 1982.The plan
formulation and selection methodologies in Exhibit B
discusses the engineering and economic considerations of
the analysis;the environmental analysis methodology is
explained in full in Chapter 10 of Exhibit E.
The 91 potential sites were a result of reviewing pre-
vious studies.It is not necessary nor desirable to
increase the 1 ength of Chapter 10 by expanding on the
sources of information.They are discussed in detail in
the Development Selection Report issued to all agencies
in November 1981.This report is referenced in Chapter
10.
This paragraph has been revised.It is felt that pre-
sence of anadromous fish makes the area more sensitive
to environmental disturbances.
W-10-002 (in Basis of Evaluation:It would appear appropriate to
include Susitna and within Susitna basin alternatives in the
evaluation matrices.
Response
The purpose of the analysis was to compare the various
alternatives in order to select those for which develop-
ment would have the least environmental impact and still
meet economic and engineering constraints.
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W-10-003 Paragra h 1:The inter-
relations ips of the environmenta criteria should be recog-
nized and assessed.Dramatic changes in anyone item would
have repercussions to all others.
Response
The eval uati on methodology uti 1i zed cons i ders ranks and
we i ghts the most important envi ronmenta 1 criteri a.
.....Attempting to include interrelationships would compli-
cate the evaluation scheme,confuse the reader,and most
likely not affect the outcome.
W-10-004 (iv)Eval uation Results:We recommend that all eval uation
matrices include Susitna and within Susitna basin alterna-
tives.
v)Plan Formulation and Evaluation:We recommend that all
eva uatlon matrlces lnc u e Susltna and within Susitna basin
alternat i ves.
This evaluation should be reassessed in terms of current pro-
jections for future power needs.The present examination
apparently is geared toward looking at various power genera-
tion alternatives (which are not specifically described)on
the basis of providing an equal amount of generating capacity"
to what Susitna woul d provide.We recommend that these
alternative plans be reassessed in light of current power
proj ecti ons.
Response
W-1O-005
See response to comment W-IO-002.
(c)Upper Susitna Basin Hydroelectric Alternatives:Paragraph
3:Reference is made to Exhibit B,which has not been fur-
nished,although we requested it.
Response
The selection process in Exhibit B which is referred to
is described in Section 1.4 of Volume 1 of the Feasi-
bil ity Report whi ch was sent to the U.S.Fi sh and
Wildlife Service in March 1982.Figure E.10.4 depicts
the role of environmental concerns in the selection
process.
W-10-006 (ii)Site Screening
-Energy Contribution:Reference is made to Exhibit B,which
has not been furnished,although we requested it.
Response
Information on load forecasts is included in the Feasi-
bility Report which was distributed to the USFWS in
March 1982.The information pertinent to the discussion
in Chapter 10 is included;it is not necessary to go
into more detail~
W-10-007 (v)Comparison of Plans
-Energy Contribution:Paragraph 2:Reference is made to
Exhibit B,which has not been furnished,although we have
requested it.
Response
The reference to Exhibit B
technical considerations.
whi ch are the subject of
Chapter 10.
is in regard to economic and
Environmental comparisons,
Exhibit E,are included in
Paragraph 1:
been furni shed,Reference is made to Exhibit B,which has not
although we requested it.
10.2 -Alternative Facility Designs
(a)Watana Facility Design Alternatives
(i)Diversion/Emergency Release Facilites:
W-10-008
It is stated that,"Tables B.61 and B.62 of Exhibit B show
the minimum flow releases from the Watana and Devil Canyon
dams required to maintain an adequate flow at Gold Creek.
These release levels have been established to avoid adverse
affects on the Salmon (SIC)fishery downstream."Perhaps a
more accurate apprai sal can be found in Chapter 4 (page
E-4-3),"The impact of •••upriver and downriver changes in
hydrology •••cannot be assessed at this time due to the lack
of i nfonnati on concerni ng t he amount,type and 1ocati on of
disturbances associated with these activities.II In Chapters
2 and 3 it is stated that the reduced flows could impair fish
migration,dewater spawning and rearing habitat,prevent
access to slough and side channel habitats and lower or eli-
minate intragravel flows to slough and side channel spawning
grounds.The minimum flows proposed were not developed using
any recogni zed instream flow methodol ogi es,and 1ack any
bi 01 ogica 1 basi s other than the most rudimentary.In fact,
no explanation is offered in the Exhibit E as to how the
12,000 cfs minimum operating flows for August and into
September were arrived at.
F-"c-l
Response
The referenced tables in Exhibit B are included in
Chapter 2 of Exhibit E.The impacts referred to in
Chapter 3 are all potential impacts;it is expected
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mitigation will reduce or eliminate many of these.The
12,000 cfs minimum operating flows for August were
arrived at as a compromise between avoidance flows (Case
D)whi ch would be 19,000 cfs in August and make the
project economically unattractive and optimum power
flows (Case A)which would be 6000 cfs in August and
result in severe impacts.It is bel ieved the selected
operating scenario (Case C)will result in impacts which
can be mitigated.Further studies,as part of the fish
and wildlife mitigation effort,are continuing.
W-10-009 (i ii)Power Intake and Water Passages:Paragraph 2:The
statement is made that a multi-intake structure would be
used,II •••in order to control the downstream ri ver tempera-
tures within acceptable limits.1I The Watana and Devi)Canyon
dams will cause changes to the existing water temperature of
the Susitna River,generally releasing cooler water during
summer months and warmer water in winter.This,in turn,may
present significant impact to the downstream riverine envi-
ronment.Temperature vari ati ons may affect the abi 1ity of
fish to migrate,spawn,feed,and develop in the Susitna
system.Ice formation may be del ayed or possibly not occur
above Talkeetna.This issue is discussed at length in
Chapters 2 and 3 although an accurate description of post-
project temperature impacts is not presented.The model
which was developed to describe reservoir outflow tempera-
tures contains input data from only five months (June through
October)of one year (1981)•The Devi 1 Canyon Reservoir was
not modeled,but in Chapter 2 it is stated that the location
of ice formation (above Talkeetna)will depend on the outflow
temperature from Devil Canyon Dam (page E-2-83).
Response
The multi-level intake structure will be utilized as
stated to control downstream river temperature within
acceptable limits.It is not meant to imply there will
be no changes in river temperatures from current opera-
tions.Revised temperature and ice modeling results,
including for Devil Canyon,are presented in Chapters 2
and 3.
W-10-010 Paragraph 3:Please reference our comments on Section
10.2(a)(i)concerning minimum flows.
Response
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W-10-011
See response to comment W-10-008.
(b)Devil Canyon Facility Design Alternatives
iii Power Intake and Water Passages:2:Please
......r-e..".fe-r"--t~o----o-u r..;;.-c-om-m-e-n-:"t-s-o-n--:S:;"""e-'-c-:-t.....i-o"""'"n=--'1"'0-.2~a-r-""""~"'T""""-c on ce rn ing
temperature modeling.
Response
See response to comment W-10-008.
W-10-012 Paragraph 3:It should be clarified what "nonnally"and "the
requirements of no significant daily variation in power flow"
mean,particularly in regard to fish and wildlife impacts.
Response
This paragraph has been rewritten for clarity.
W-10-013 (c)Access Alternatives
(i)Plan Selection:Paragraph 2:Although input was solici-
ted from resource agencies and the Susitna Hydro Steering
Committee (SHSC),the selection certainly did not reflect
this input.Please reference the SHSC letter dated November
5,1981.In addition,we wish to incorporate into our com-
ments,by reference,our letter dated August 17,1982 to Eric
Yould on this subject.As such,APA should respond to this
letter as a part of our formal pre-license coordination.
Response
Although it may appear the access route selected did not
refl ect agency input,the sel ecti on process most cer-
tainly did.Section 2.3 more explicitly outlines the
selection process and rationale.The Power Authority's
response to the August 17 letter appears in Chapter 11.
W-10-014 (i i)Pl an Eva 1uati on:Paragraph 1:Reference is made to
Exhibit B,which has not been furnished,although we reques-
ted it.
Res pon se
The plan evalutation section has been expanded to in-
clude this information.
W-10-015 Item Number 5:Paragraph 1:It is acknowl edged that a pro-
blem exists in the potential of the access road and traffic
to affect caribou movements,population size,and productiv-
ity.Avoidance of the problem by eliminating the Denali
Highway to Watana access segment would be consistent with the
APA Mitigation Policy document,the recommendations of the
resource agencies,and NEPA.As is stated in Appendix B.3 of
the Susitna Hydroelectric Project Access Plan Recommendation
Report (August 1982),"From a caribou conservation viewpoint,
the Denali access route is far less desirable than proposed
routes originating on the Alaska Railroad and Parks Highway.
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"""'I
The Denal i route woul d most certai nly have immedi ate detri-
mental impacts on the resident subherd and future negative
impacts on the ma in Nelchi na herd although these impacts
cannot be quantified."
Response
Schedule constraints and logistical and financial con-
siderations resulted in the necessity of the Denali
Highway to Watana selection.These considerations are
now discussed.Measures to mitigate any potential
impacts to caribou are included in the mitigation plan
discussed in Chapter 3.Making decisions to avoid
rather than minimize environmental impacts,while ignor-
ing significant cost and schedule ramifications,is not
consistent with the Power Authority's mitigation policy
document.
W-10-016 Item Number 7:Paragraph 5:Both the APA Mitigation Policy
document and NEPA acknowledge that it is better to avoid an
adverse impact than to try to minimize it,"through proper
engi neeri ng des ign and prudent management."APA I S approach
should better reflect this in their decisions concerning
access routing.In addition,reference is made to discussion
"in Exhibit E."This is the Exhibit E.
Response
All efforts have and will be made to avoi d adverse
impacts.see Section 2.4 concerning adjustments that
were made to the access route to avoi d impacts where
possible.The statement referencing Exhibit E has been
rewritten for clarification.
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W-10-017 (d)Transmi ss i on Alternati ves:By 1etter dated November 9,
1982,Mr.John Lawrence of Acres American requested our re-
view of the Transmission Corridor Report as part of the for-
mal pre-license coordination process.We responded by letter
dated January 5,1982.In that it was requested as part of
this formal pre-license coordination process and we responded
with this understanding,the issues raised and recommenda-
tions made in that letter should be addressed at this time.
Response
The letter referred to dated January 5,1982,was re-
sponded to on April 14,1982.Copies of each appear in
Chapter 11.
W-IO-018 (iii Identification of Corridors:Paragra h 2:Reference
is made to Exhibit B,which has not been furnis ed,although
we requested it.
Response
The three figures referred to in Exhibit B are present
as Figures E.10.10,E.10.11,and E.10.12 in Exhibit E.
W-10-019
and Economically Acce table
Watana to the Intert ie vi a South
,ver
•Environmental:Given the APA decision to have road access
for the Watana damsite to the Devil Canyon damsite along the
north side of the river,we do not understand how it can be
considered best environmentally (rating of "A")to have the
transmission line al.ong the south side of the Susitna River.
In our January 5,1982 1 etter we stated~II How construct i on -
and maintenance-related access is obtained to a great extent
determines the project-related wil dl ife and socioeconomic
impacts.Construction and maintenenace of transmission lines
should not provide for additional public access over that
provided by the dam access route,II and,"Access to the dams
shoul d be fully coord i nated wi th transmi ss ion 1 i ne rout ing.
Access corridors which serve a dual purpose in regard to pro-
ject access needs would be highly desirable from several
decision-making criteria."This potential for increased
access provided by the transmission line routing is readily
acknowledged elsewhere in the Exhibit E (page E-5-84).This
apparent inconsistency needs to be clarified.
Response
The transmission 1 ine,in accordance with the common
corridor concept to reduce access,is now routed on the
north side of the Susitna'River.See Section 2.4 and
Table E.10.24 which reflect this change.
W-10-020 Corridor Thirteen
South Shore,Devil
Sus itna Ri ver
(ABCF)-Watana to Devil Canyon via
•Envi ronmental :Pl ease refer to our comments above on
Corridor One (ABCD).
Response
Refer to response to comment W-10-019.
W-10-021 (ix Results and Concl usions:Paragraph 3:Reference is
made to Exhib,t G which was not provide,a though we reques-r=
ted it.
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Response
Not all exhibits were distributed in the initial review
phase.All exhibits will be distributed by FERC as part
of their review process.
W-I0-022 (e)Borrow Site Alternatives:Unless unavoidable,borrow
sites should be restricted to within the future impoundments
and/or to upland sites.Selection should be coordinated with
access and transmission line routing and with resource agen-
cies.We have not previously been contacted for the purpose
of providing input and we do not have any project plans or
assessments upon which to provide specific input.
No attempt is offered to assess the env'i ronmental tradeoffs
that would be made by selecting one borrow site alternative
over another.We have assumed this is the underlying intent
of including this type of alternatives comparison in the
environmental Exhibit E.We recommend that this be under-
taken to an equal level for alternative borrow sites,access
routes,transmission routes,and other alternative project
features.
Response
The major concern in borrow site selection was locating
sites where sufficient material of the correct type was
present.The environmental aspects of borrow site
selection has been added to Section 2.5.Where poss-
ible,primary sites were selected which would be in the
impoundment zone with secondary sites being those out-
si de the future impoundment zone.Thi sis now stated in
Section 2.5.
W-I0-023 10.3 -Alternative Electrical Energy Sources
(a)Coal-Fired Generation Alternative
There are three main deficiencies in the discussion of Beluga
Coal development as an alternative to the Susitna project:
1.No quantitative estimate of the areas or resources to be
affected by coal development are included.We recommend you
include a description of:(a)schedules for developllent;(b)
area fish and wildlife populations;(c)habitat types and
areas to be di sturbed,altered,or destroyed;(d)construc-
tion and operation work forces necessary for project develop-
ment;(e)magnitude of commercial,recreational,and subsis-
tence use of Beluga area fish and wildlife resource;and (f)
numbers of fish and wildlife which may be impacted by project
development.
We realize that such information is still very tentative for
the Beluga project and project impacts have barely been eval-
uated.However,recent field studies should allow you to
approximate the magnitude of the resources involved and po-
tential for impacts to them.
Response
Without a specifi c proposal to mi ne Be 1uga coal,it is
not possible to supply this information.The environ-
mental assessment of project al ternatives is not re-
quired to be as detailed as for the proposed project.
The Power Authority will consider this recommendation.
W-10-024 2.A direct comparison with Susitna develollTlent plans and
anticipated impacts is lacking.Comparison of the informa-
tion identified in 1.,above,with similar information for
the Susitna project should be provided.For example,the
corrmercial,recreationa 1,and subs i stence harvests and pres-
sures for use of the Beluga area should be compared to
Susitna area resources.Acreages and habitat types that
would be impacted by alternative development scenarios should
be compared.The magnitudes of project impacts relative to
fish and wildlife needs to be analyzed.Also,the work force
and time frame which would be required for Susitna should be
compared to Beluga developments,for the same power needs.
Response
See response to comment W-10-034.
W-10-025 3.Reasons for rejecting Beluga coal-fired generation or
Beluga coal in combination with smaller hydroelectric pro-
jects or other energy sources,as an alternative to develop-
ment of Susitna hydropower are not given.
Response
These reasons are included in Section 5 and Exhibit D.
W-10-026 Paragraph 1:Since we were not provided with a copy of Exhi-
bit B,we cannot comment on the adequacy of the referenced
analysis of the economic feasibility of Beluga Coal.We
would hope the analysis includes discussion of private finan-
cial backing for Beluga Coal develollTlent as compared to State
financing involved with the Susitna project.Further discus-
sion of the feasibility of alternative Beluga development
schemes may be found ina State report by Gene Rutl edge,
Darlene Lane,and Greg Edblem,1980,Alaska Regional Energy
Resources Planning Project,Phase 2,Coal,Hydroelectric,and
Energy Alternatives,Volume 1,Beluga Coal District Analy-
sis.
F-
rna-
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Current soft foreign market conditions are exempl ified by
recent slow downs of the most active Beluga coal lease-
holders in completing ongoing environmental studies necessary
for permitting.It woul d be hel pful to know to what extent
the State is working with the private leaseholders to consi-
der State use of any portion of Beluga Coal production.We
understand that the lease holders do not expect to complete
financial feasibility studies before the second half of 1983.
Response
Economic feasibility analysis is not a subject appro-
priate for Exhibit E according to the FERC regulations.
See Exhibit B.
W-I0-027 Paragraph 2:Although specifics of plant design and location
are not yet available,more detailed information can be pro-
vided on the magnitude,and probable initial development
alternatives,including export of Beluga coal to Pacific Rim
countri es.We recommend the add it i on of an area map with
locations of existing leases,potential camps and development
facitlities,and alternative transportation and transmission
corri dors.
Response
Until a specific plan is proposed,this information is
not avail abl e.It is not felt thi s 1 evel of detail ; s
necessary to compare alternatives.
W-I0-028 Paragraph 3:We recommend expanding this paragraph to consi-
der the availability and probability of coal development in
Southcentral Alaska.Accord"jng to current industry plans,
Beluga coal resources are sufficient to allow mining for
export of 5 million tons per year (with possible expansion to
10 million tons)on Beluga Coal Company leases and 6 to 13
million tons per year from the 20,500 acre Diamond Alaska
Coal Company 1ease for at 1 east 30 years.The avai labi 1ity
of this qr other developments as an energy source for Alaska
has been increased with recent state promotions of additional
coal exploration.The state has proposed a competitive coal
large sale during the first half of 1983 for 25,000 acres
near Beluga Lake."Also under consideration is a non-
competitive coal right disposal west of the Susitna River.
Moreover,Bering River coal development has been the subject
of recent proposal s for expl orat i on and envi ronmental
studies.
Response
Thi sparagraph expl a ins the assumptions for the a lterna-
tiveana~'ysis.The information suggested to be added is
not re 1event,.
W-10-029 (i)Existing Environmental Condition:As described earlier,
the qualitative discussion provided here allows no comparison
with the Susitna project.We recommend descri bing detai 1ed
U.S.Forest Service and Soil Conservation Service data for
the area and ongoing studies which should result in a more
detailed classification of area vegetation.
The predominance of wetlands,particularly near the coast,
are discernable on FWS·National Wetland Inventory maps
avail able for the area.Those wetlands are particul arly
important habitats for the diverse bi rd 1 ife descri bed in
later paragraphs.
Response
The detail of the information suggested is not deemed to
be necessary for alternative comparison.
W-10-030 Fauna,Paragraph 1:Cl arification is necessary regarding
the referenced "Selvon fisheryll.
Response
"Selvon ll has been corrected to salmon.
W-10-031 Paragraph 2:We recommend describing numbers of bal d eagle
and trumpeter swan nests relative to numbers in the Susitna
project area.
Response
This level of information is not required for assessing
alternatives.
W-10-032 -Aquatic Ecosystem:Additional information should be pro-
vided on the quantity and quality of this system (e.g.,the
extent to whi ch spawni ng,reari ng,and overwi nteri ng areas
have been identified within and downstream of the 1 ease
areas).
Response
This level of information is not necessary to assess
alternatives.
W-10-033 Marine Ecosystem:Although species presence is described,
there is no quantitative information on their relative abun-
dance,or habitat quality.Figures cited for the referenced
Cook Inlet fishery is dependent upon Beluga,Susitna,and
other area systems.An assessment of the proportion of that
fishery which depends on the Beluga system compared to the
Susitna system should be provided.
FT'
F--
,....
I
~,
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F'
I
I
Response
This information is not available.
W-IO-034 -Socioeconomic Conditions:The discussion should be ex-
panded to cover current levels of commercial,subsistence,
and recreational fish and wildlife use.
Response
This information is not necessary to assess alter-
natives.
W-IO-035 (ii)Envi ronmental Impacts
-Air Quality:The potential for mitigating the air pollu-
tants described here should be discussed.
Response
The figures for fly ash include the use of preclpl-
tators,which is a mitigation device.The point of the
discussion is that burni ng coal,even with mitigation,
will result in some degradation of air quality.
W-IO-036 Terrestri al Ecosystems:The range of te rrestri al habitat to
be annually impacted should be quantified and compared wi ttl
Susitna development pl ans.In add it i on to habitats di.sturbed
by mi ni ng,p roj ect features s uc h as roads and t ransmi s si on
corridors which could be expected with coal development
should be described.While the road system required for coal
de vel opment shoul d be substanti ally 1ess than that for the
Susitna proJect,the potential for restori ng mi ned 1 ands to
original habitat values is untested for the area.
Paragraph 2:ADF&G harvest data s houl d be i ncl uded here.
The correlation between hunting pressure and current access
should also be discussed in quantifying roads and human popu-
lation increases anticipated from Beluga Coal development.
Human/wildlife conflicts (e.g.,bears shot in defense of life
or property,wildlife mortality from additional vehicle
traffic and roads)is another critical impact not mentioned
here.
Response
The amount of 1 and to be impacted woul d depend on the
quantity of coal to be mined,thickness of seam and
other information;a meaningful figure could not be cal-
culated without a specific mining plan.M"ining would
result in continuous and increasing disturbance of wild-
life habitat;the Susitna Project would not.
Quantification of the relationship between hunting
pressure and access is not possible.A sentence
discussing the impacts from human/wildlife conflicts has
been added to this paragraph.
W-10-037 Aquatic and Marine Ecosystems:Some quantification of anti-
ci pated impacts can be made and shoul d be i ncl uded here.
Development of both Beluga Coal Company·s and Diamond Alaska
Coal Company's lease holdings could eliminate nine stream-
miles of existing anadromous and resident fish habitat.
Stream restoration to original habitat quality will be diffi-
cult,to impossible,to attain.According to preliminary
flow information,nearly half the total flow in the Chuitna
River originates in or flows through the proposed mine pits.
Assuming that half the anadromous fish production is lost
from the Chuitna system,ADF&G estimates the annual loss of
fish available to Cook Inlet fisheries will be within the
following ranges:
Pi nk Salmon
Coho Salmon
King Salmon
Chum Salmon
Total Salmon
70,000 -650,000
mean =275,000
5,250 -48,750
mean =20,625
2,100 -19,500
mean =8,250
700 -6,500
mean =2,750
78,050 -724,750
mean =306,625
We recommend contrasti ng thi s i nformat i on with prel imi nary
impact assessments for Susitna and other alternative project
developments in the license application.The comparison
shoul d al so cover harvest 1evel s,and areas and types of
habitats to be altered or destroyed.Data gaps and uncer-
tainties should be clarified in an accompanying discussion.
Response
Without a specific m1n1ng plan proposal,it is not pos-
si ble to quantify impacts as suggested.The figures
provided by the FWS have been added to the report.Sim-
ilar figures for big game,furbearers,and areas and
types of habitats are not available.
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W-10-038 -Socioeconomic Conditions:Recently published reports by
the ADF&G document the magnitude of subsistence hunti ng and
fishing by Tyonek area residents 21/22/23.We recommend
that you discuss these findings inassessing fish and wild-
life resource uses which may be affected by Beluga coal
development.
A general discussion of the socioeconomic impacts on Tyonek
from developing Susitna or Chakachamna hydropower projects,
as compared to Beluga coal development is given in a recent
report for the ADCRA 24/.Tyonek apparently supports coa 1
development as long ash does not inhibit their ability to
subsistence hunt and fish.Consideration should be given to
similar local support or opposition to the Susitna project.
Although the purpose of this section is to desc~ibe Beluga
as an alternative to Susitna,Beluga coal development would
undoubtedly include additional mining for export.Thus while
the discussion appropriately describes the incremental
workers associated with the power generation facilities only,
the enti re development wi 11 i nf1 uence the permanence of the
work force.The report is confusing in the discussion on
whether a fly-in construction camp or permanent townsite is
to be established (see pages E-10-81(a)Paragraph 3,E-10-88,
last two paragraphs,and E-10-89,Paragraph 1).Some dis-
cussion is needed of both alternatives,resultant impacts on
fish and wildlife uses,and the potential for mitigation.
Response
Subsistence hunting and fishing by the village of Tyonek
is discussed in this section.The Power Authority has
conducted an extensive Public Participation Program for
the Susitna Project.
In addition,a report of public attitudes and sociocul-
tural conditions and expected impacts from the Susitna
Project was prepared by Stephen Braund and Associates.
The results of his study are presented in Chapter 5 of
the Susitna Feasibility Report,supplied to agencies in
March 1982.A summary of this information is included
in Chapter 5 of Exhibit E.
The question of a pennanent town site or fly-in con-
structi on camp wou1 d not be reso1 ved without further
analysis of the mining plant,schedule,logistics,and
cost.It is neither necessary or desirable to assess
alternatives within alternatives to the proposed pro-
ject.
W-IO-039 (c Thermal Alternatives Other Than Coal
1 Natura Gas:In t at natura gas is considered by many
to be the best single source alternative to Susitna 25/,26/,
it is disconcerting to see so minimal an effort expended
examining this alternative.The effort should be at least
equal to that provided to the assessment of alternative
hydropower sites and coal.Anything less must be considered
inadequate.No examination specific to natural gas in regard
to potential environment impacts is provided nor is a trade-
off examination of natural gas,and other alternatives.
Without this,one cannot determine whether or not a proposal
is the best of all alternatives.
Discussion should be provided on the potential impact of the
recent signi ng of natural gas supply contracts between the
Enstar Corporation and Marathon and Shell Oil Companies.
Discussion should focus on the impacts of these contracts,if
approved,not only on allocated natural gas reserves,but
also on predicting future use,pricing,potential future
demand of electricity for home heating through the Matanuska-
Susitna Borough,and future availability and pricing of
natural gas for electrical energy generation.
Response
Section 5 provides additional information on the natural
gas alternative.Information on impacts on reserves,
use,pricing,demand,and availability is not part of
the envi ronmental assessment and not appropri ate for
Exhibit E.Treatment of these topics is in Exhibit D.
W-IO-040 (iv)Environmental Considerations:It is unclear as to what
this section is in reference to.If it is meant to cover all
types of fossil fuel burning power plants,it is insuffi-
cient.We do not consider the potential environmental
impacts of burning natural gas to be the same as for diesel,
oil,or coal.We recommend that environmental considerations
be examined separately for each of these fuel alternatives.
Then they shoul d be exami ned through a tradeoff analys is
which would include Susitna,as proposed,other hydropower
projects,and alternative within basin alternatives,and
other alternatives to Susitna.
Much of the section centers on the potential impact/problems
which would occur with increased dependence on coal for power
generation.Given that the section is entitled (c)Thermal
Alternatives Other Than Coal,this would seem inappropriate.
Response
The titl e of this section has been changed to avoid
confusion.It does not cover impacts from burning coal,
.....
"...
I
r
as thi s was di scussed in the invnedi ately preceedi ng
section.Tables E.IO.27,E.IO.28,and E.IO.29,as
referenced,do not include emissions from coal-fired
plants.The discussion of coal plants in this section
is presented only as comparative information for the
regulatory framework section.The tradeoff analysis
requested is not possible without site specific plans
and proposals.
W-IO-041 (f)Geothermal:This section fail s to recognize,other than
parenthetically,the most attractive geothermal alternative,
Mt.Spurr.We therefore,recommend that APA examine the
feasibility of geothermal energy development at this site as
an alternative to Susitna.Mt.Spurr is being considered by
the Division of Minerals and Energy Management of the ADNR as
their first geothermal lease sale area.They concluded it is
the best potential geothermal development site within their
jurisdiction.It is being proposed because:(1)it has high
potential;(2)it is located on State land;and (3)it is
close to existing transmission lines (Beluga Station).In
addition,it is in an area already being explored for power
development,being located between the Chakachatna River and
the Beluga coal fields,and the area is criss-crossed by
logging roads.It would also seem logical to explore the
possibility of a West Cook Inlet power generation alternative
to Sus.itna.This combination would be composed of Mount
Spurr geothermal,Chakachamna hydropower,Beluga coal,and
West Cook Inlet natural gas.Obvious advantages woul d be
found in the isolation of adverse environmental impacts to a
relatively small area which al ready has transmission facil i-
ties.
Response
The discussion of the Mount Spurr areas has been expan-
ded.The Al aska Department of Natural Resources in its
comment on the draft 1 icense appl ication has stated
"Until exploration of the geothermal properties of Mount
Spurr has occurred,the vi abil ity of geothenna 1 powe r
for the rail belt region is unknown."
It is not the intent of the alternative discussion to
include all the various combinations of generation
mixes.The reader may do this by reading the various
sections.
W-IO-042 10.4 Environmental Consequences of License Denial:This
section provides little insight as to what might occur if
Susitna were not built.We hope that a greater planning
effort is ongoing to allow the State to adequately address
thi s issue.It woul d seem that the fi rst approach to thi s
problem would involve a tradeoff analysis,looking at envi-
ronmental as well as other i ssuess to exami ne appropri ate
alternatives to the Susitna project.The analysis should be
directed at:(1)short-term planning,in the event that
Susitna is delayed for various lengths of time;and (2)long-
term pl anni ng so that we do have a fall back pl an in the
event that Susitna is not licensed.We recommend that this
be undertaken.
There is no examination of socioeconomic impacts in the event
that the Susitna project license is denied.We consider the
potential for a boom-bust occurrence to be great with con-
struction of Susitna.Without Susitna we,therefore,would
consider this as much less likely.In the event we do not
have Susitna,we would expect the construction of much smal-
ler power generation units which would come online over a
much longer period of time.We recommend that the socioeco-
nomic implications of license denial be assessed.
Response
This section has been expanded.Recommendations for
further studies will be considered in developing future
plans.