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Susitna-Watana Hydroelectric Project Document
ARLIS Uniform Cover Page
Title:
Middle Susitna River segment remote line habitat mapping technical
memorandum
SuWa 24
Author(s) – Personal:
Author(s) – Corporate:
HDR Alaska, Inc.
AEA-identified category, if specified:
January 31, 2013 Filing
AEA-identified series, if specified:
Series (ARLIS-assigned report number):
Susitna-Watana Hydroelectric Project document number 24
Existing numbers on document:
Published by:
[Anchorage, Alaska : Alaska Energy Authority, 2013]
Date published:
January 2013
Published for:
Prepared for Alaska Energy Authority
Date or date range of report:
Volume and/or Part numbers:
Attachment B
Final or Draft status, as indicated:
Document type:
Technical memorandum
Pagination:
vii, 18 p.
Related work(s):
Cover letter (SuWa 22), Attachments A, C-E (SuWa 23, 25-27)
Pages added/changed by ARLIS:
Added cover letter
Notes:
All reports in the Susitna-Watana Hydroelectric Project Document series include an ARLIS-
produced cover page and an ARLIS-assigned number for uniformity and citability. All reports
are posted online at http://www.arlis.org/resources/susitna-watana/
1
January 31,2013
Ms. Kimberly Bose
Secretary
Federal Energy Regulatory Commission
888 First Street, NE
Washington, DC 20426
Re: Susitna-Watana Hydroelectric Project, FERC Project No. 14241-000
Dear Secretary Bose:
By letter dated January 17, 2013, Staff of the Federal Energy Regulatory
Commission (Commission) issued a modified schedule for its April 1, 2013 study plan
determination (SPD)for 13 of the individual studies contained in the Alaska Energy
Authority’s (AEA) Revised Study Plan (RSP) for the Susitna-Watana Hydroelectric
Project, FERC Project No. 14241.1 Among other milestones, Staff’s modified schedule
required AEA to file specified information related to these 13 individual studies by
January 31, 2013, and to convene public meetings on February 14-15, 2013, to discuss
these materials with federal and state resource agencies and other licensing participants.
In accordance with Staff’s modified schedule, the purposes of this filing are to: (1)
submit all information specified by Staff for filing by January 31; and (2) provide details
of the public meetings to be held in Anchorage, Alaska, on February 14-15, 2013.
Description of Attached Information
Commission Staff’s January 17 modified schedule required AEA to file the
following information by January 31, 2013:
results of 2012 open-water flow routing model and habitat mapping; draft
implementation plans for the Fish Distribution and Abundance in the
Upper Susitna River (study 9.5), the Fish Distribution and Abundance in
the Lower and Middle Susitna River (study 9.6), and River Productivity
1 See Letter from Jeff C. Wright, Federal Energy Regulatory Commission, to Wayne Dyok, Alaska
Energy Authority, Attachment A, Project No. 14241-000 (issued Jan. 17, 2013)[hereinafter, Schedule
Modification Letter]. The 13 individual studies scheduled for Staff’s April 1 SPD consist of the following:
(1) Baseline Water Quality (RSP 5.5); (2) Water Quality Modeling Study (RSP 5.6); (3) Mercury
Assessment and Potential for Bioaccumulation Study (RSP 5.7); (4) Geomorphology Study (RSP 6.5); (5)
Fluvial Geomorphology Modeling Below Watana Dam Study (RSP 6.6); (6) Groundwater Study (RSP 7.5);
(7) Ice Processes in the Susitna River Study (RSP 7.6); (8) Fish and Aquatics Instream Flow Study (RSP
8.5); (9) Riparian Instream Flow Study (RSP 8.6); (10) Study of Fish Distribution and Abundance in the
Upper Susitna River (RSP 9.5); (11) Study of Fish Distribution and Abundance in the Middle and Lower
Susitna River (RSP 9.6); (12) River Productivity Study (RSP 9.8); and (13) Characterization and Mapping
of Aquatic Habitats (RSP 9.9).
2
(study 9.8) studies; all proposed focus areas; and a description of habitat
units within the focus areas for all aquatic studies to be implemented in the
middle Susitna River.2
In response to Staff’s request, and in furtherance of its efforts to finalize study reports
associated with its 2012 early licensing studies, AEA has prepared several study reports
and technical memoranda containing all the requested information. The information
requested by Commission Staff appears in the attachments as follows:
Requested Information Attachment
Results of 2012 Open-Water Flow Routing Attachment A, Open Water HEC-RAS
Flow Routing Model (January 2013)
Results of 2012 Habitat Mapping Attachment B, Middle Susitna River
Segment Remote Line Habitat Mapping
Technical Memo (January 2013)
Draft Implementation Plan for Study of
Fish Distribution and Abundance in the
Upper Susitna River (RSP 9.5)
Attachment C, Draft Susitna River Fish
Distribution and Abundance
Implementation Plan (January 2013)
Draft Implementation Plan for Study of
Fish Distribution and Abundance in the
Middle and Lower Susitna River (RSP 9.6)
Attachment C, Draft Susitna River Fish
Distribution and Abundance
Implementation Plan (January 2013)
Draft Implementation Plan for River
Productivity Study (RSP 9.8)
Attachment D, Draft Susitna River
Productivity Study Implementation Plan
(January 2013)
Proposed Focus Areas Attachment E, Selection of Focus Areas
and Study Sites in the Middle and Lower
Susitna River for Instream Flow and Joint
Resource Studies –2013 and 2014
(January 2013)
Description of Habitat Units within Focus
Areas for All Aquatic Studies to Be
Implemented in the Middle Susitna River
Attachment E, Selection of Focus Areas
and Study Sites in the Middle and Lower
Susitna River for Instream Flow and Joint
Resource Studies –2013 and 2014
(January 2013)
Details of Public Meetings
Commission Staff’s modified schedule directed AEA to hold meetings on
February 14-15, 2013, “to discuss the study results, proposed implementation plans, and
selected focus areas in the middle and lower Susitna River.”3 These Technical
Workgroup (TWG) meetings, which are open to federal and state resource agencies, other
licensing participants, and interested members of the public, will begin each day at 8:30
a.m. (Alaska Standard Time), and will be held in the Public Conference Room of the Z.J.
2 Schedule Modification Letter, Attachment A.
3 Id.
3
Loussac Public Library, located at 3600 Denali Street, Anchorage, Alaska. Additional
information regarding these TWG meetings—including instructions for participating
online and via teleconference for those unable to attend in person—appear at AEA’s
licensing website, http://www.susitna-watanahydro.org/meetings/. More detailed
information regarding these TWG meetings, including a draft agenda, will be posted to
the website in the coming days.
AEA looks forward to discussing these materials in the upcoming TWG meetings.
These discussions will inform and assist AEA in its development of the final
implementation plans for the Study of Fish Distribution and Abundance in the Upper
Susitna River (RSP 9.5), Study of Fish Distribution and Abundance in the Middle and
Lower Susitna River (RSP 9.6), and River Productivity Study (RSP 9.8). As provided in
Commission Staff’s modified schedule, AEA will file these final implementation plans
with the Commission by March 1, 2013.
AEA acknowledges and greatly appreciates the participation and commitment to
this licensing process of Commission Staff, federal and state resource agencies, and other
licensing participants. AEA is particularly appreciative of all participants’ efforts to date
to work efficiently and collaboratively in developing a robust study plan that can be
approved by Commission Staff in accordance with the modified schedule and
implemented beginning with the 2013 field season.
If you have questions concerning this submission please contact me at
wdyok@aidea.org or (907) 771-3955.
Sincerely,
Wayne Dyok
Project Manager
Alaska Energy Authority
Attachments
cc: Distribution List (w/o Attachments)
Attachment B
Middle Susitna River Segment Remote Line Habitat Mapping
Technical Memo (January 2013)
Susitna-Watana Hydroelectric Project
(FERC No. 14241)
Middle Susitna River Segment
Remote Line Habitat Mapping
Technical Memorandum
Prepared for
Alaska Energy Authority
Prepared by
HDR Alaska, Inc
2525 C Street
Suite 305
Anchorage, AK 99503
January 2013
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page i January 2013
TABLE OF CONTENTS
1. Middle River Mainstem Habitat Mapping ..................................................................... 1
1.1 Introduction ............................................................................................................. 1
1.2 Study Goals and Objectives .................................................................................... 1
1.3 Study Area .............................................................................................................. 2
2. Study Methods ................................................................................................................... 2
2.1 GIS Habitat Mapping .............................................................................................. 3
2.2 Study Deviations ..................................................................................................... 4
3. Results ................................................................................................................................ 5
3.1 Main Channel Habitat ............................................................................................. 5
3.2 Off Channel Habitats .............................................................................................. 6
3.3 Tributary Habitat ..................................................................................................... 6
3.4 Edge Habitat............................................................................................................ 6
4. Discussion........................................................................................................................... 7
5. References .......................................................................................................................... 7
6. Tables ................................................................................................................................. 8
7. Figures .............................................................................................................................. 15
LIST OF TABLES
Table 1. Middle River levels of habitat classification hierarchy. .................................................. 9
Table 2. Locations of Middle River (MR) geomorphic reaches by Project river mile. ............... 11
Table 3. Total length and percent composition (by geomorphic reach) of main channel
habitat classifications by geomorphic reach in the Middle Susitna River. ............................ 11
Table 4. Total length and percent composition (by geomorphic reach) of main Channel
mesohabitat classifications in the Middle Susitna River. ...................................................... 12
Table 5. Total length and percent composition (by geomorphic reach) of off channel habitats
classified in the Middle Susitna River. .................................................................................. 13
Table 6. Summary of the frequency, total area, and average area of tributary mouth and
backwater habitat by geomorphic reach. ............................................................................... 13
Table 7. Edge habitat (in miles) reported per mile in each geomorphic reach in the Middle
Susitna River. ......................................................................................................................... 14
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page ii January 2013
Table 8. List of major tributaries by geomorphic reach. Identified Project river miles for each
tributary specifies the mainstem Susitna River location where the tributary confluence
occurs. .................................................................................................................................... 14
LIST OF FIGURES
Figure 1. Main Channel Habitat classifications by geomorphic reach in the Middle Susitna
River. ..................................................................................................................................... 16
Figure 2. Main Channel Habitat classifications by geomorphic reach in the Middle Susitna
River. ..................................................................................................................................... 17
Figure 3. Mesohabitat classifications by geomorphic reach in the main and side channels in
the Middle Susitna River. ...................................................................................................... 17
Figure 4. Summary of level 3 habitat classifications in each geomorphic reach in the Middle
Susitna River. ......................................................................................................................... 18
Figure 5. Summary of the amount of edge habitat per mile in each geomorphic reach of the
Middle Susitna River as an indicator of habitat complexity.................................................. 18
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page iii January 2013
LIST OF ACRONYMS AND SCIENTIFIC LABELS
Abbreviation Definition
ADF&G Alaska Department of Fish and Game
AEA Alaska Energy Authority
APA Alaska Power Authority
APA Project APA Susitna Hydroelectric Project
Backwater
Off-channel habitat characterization feature found along channel margins and
generally within the influence of the active main channel with no independent
source of inflow. Water is not clear.
Bank
The sloping land bordering a stream channel that forms the usual boundaries of a
channel. The bank has a steeper slope than the bottom of the channel and is
usually steeper than the land surrounding the channel.
Beaver complex Off-channel habitat characterization feature consisting of a ponded water body
created by beaver dams.
Braided streams
Stream consisting of multiple small, shallow channels that divide and recombine
numerous times. Associated with glaciers, the braiding is caused by excess
sediment load.
cfs cubic feet per second
Channel A natural or artificial watercourse that continuously or intermittently contains water,
with definite bed and banks that confine all but overbank stream flows.
Confluence The junction of two or more rivers or streams.
Cross-section A plane across a river or stream channel perpendicular to the direction of water
flow.
Devils Canyon
Located at approximately Susitna River Mile (RM) 150-161, Devils Canyon contains
four sets of turbulent rapids rated collectively as Class VI. This feature is a partial
fish barrier because of high water velocity.
Downwelling The downward movement of water from rivers, streams, sloughs and other surface
water features into soils and bedrock.
Drainage area The total land area draining to any point in a stream. Also called catchment area,
watershed, and basin.
Edge habitat The boundary between natural habitats, in this case between land and a stream.
Level five tier of the habitat classification system.
et al. “et alia”; and the rest
FERC Federal Energy Regulatory Commission
Floodplain
1. The area along waterways that is subject to periodic inundation by out-of-bank
flows. 2. The area adjoining a water body that becomes inundated during periods of
over-bank flooding and that is given rigorous legal definition in regulatory programs.
3. Land beyond a stream channel that forms the perimeter for the maximum
probability flood. 4. A relatively flat strip of land bordering a stream that is formed by
sediment deposition. 5. A deposit of alluvium that covers a valley flat from lateral
erosion of meandering streams and rivers.
Floodplain vegetation − groundwater /
surface water regime functional groups
Assemblages of plants that have established and developed under similar
groundwater and surface water hydrologic regimes.
Fluvial Of or pertaining to the processes associated with rivers and streams and the
deposits and landforms created by them.
Focus Area Areas selected for intensive investigation by multiple disciplines as part of the AEA
study program.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page iv January 2013
Abbreviation Definition
Geomorphic mapping A map design technique that defines, delimits and locates landforms.
Geomorphic reach Level two tier of the habitat classification system. Separates major hydraulic
segments into unique reaches based on the channel’s geomorphic characteristic.
Geomorphology The scientific study of landforms and the processes that shape them.
GIS
Geographic Information System. An integrated collection of computer software and
data used to view and manage information about geographic places, analyze
spatial relationships, and model spatial processes.
Glide An area with generally uniform depth and flow with no surface turbulence. Low
gradient; 0-1 % slope.
Gradient The rate of change of any characteristic, expressed per unit of length (see Slope).
May also apply to longitudinal succession of biological communities.
Gravel Substrate particles between 0.1 and 3.0 inches in size, larger than sand and
smaller than cobble.
Groundwater (GW) In the broadest sense, all subsurface water; more commonly that part of the
subsurface water in the saturated zone.
GW/SW interactions The physical interactions between groundwater and surface water.
Habitat
The environment in which the fish live, including everything that surrounds and
affects its life, e.g. water quality, bottom, vegetation, associated species (including
food supplies). The locality, site and particular type of local environment occupied
by an organism.
ILP Integrated Licensing Process
Instream flow The rate of flow in a river or stream channel at any time of year.
Juvenile A young fish or animal that has not reached sexual maturity.
licensing participants; Participants Agencies, ANSCA corporations, Alaska Native entities and other licensing
participants
LiDAR Light Detection and Ranging. An optical remote sensing technology that can
measure the distance to a target; can be used to create a topographic map.
Life stage
An arbitrary age classification of an organism into categories relate to body
morphology and reproductive potential, such as spawning, egg incubation, larva or
fry, juvenile, and adult.
Lower segment Susitna The Susitna River from Cook Inlet (RM 0) to the confluence of the Chulitna River at
RM 98.
Main channel For habitat classification system: a single dominant main channel. Also, the primary
downstream segment of a river, as contrasted to its tributaries.
Main channel habitat
Level four tier of the habitat classification system. Separates main channel habitat
types including: tributary mouth, main channel, split main channel, multiple split
main channel and side channel into mesohabitat types. Mesohabitat tyes include
pool, glide, run, riffle, and rapid.
Mainstem
Mainstem refers to the primary river corridor, as contrasted to its tributaries.
Mainstem habitats include the main channel, split main channels, side channels,
tributary mouths, and off-channel habitats.
Mainstem habitat
Level three tier of the habitat classification systems. Separates mainstem habitat
into main channel, off-channel, and tributary habitat types. Main channel habitat
types include: tributary mouth, main channel, split main channel, multiple split main
channel and side channel. Off-channel habitat types include: side slough, upland
slough, backwater, and beaver complex. Tributary habitat is not further categorized.
Major hydraulic segment
Level one tier of the habitat classification system. Separates the River into three
segments: Lower River (RM 0-98), Middle River (RM 98-184), and Upper River (RM
184-233).
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page v January 2013
Abbreviation Definition
Mesohabitat
A discrete area of stream exhibiting relatively similar characteristics of depth,
velocity, slope, substrate, and cover, and variances thereof (e.g., pools with
maximum depth <5 ft, high gradient rimes, side channel backwaters).
Middle segment Susitna The Susitna River from the confluence of the Chulitna River at RM 98 to the
proposed Watana Dam Site at RM 184.
MR Middle River
Multiple split main channel Main channel habitat characterization feature where more than three distributed
dominant channels are present.
N/A not applicable or not available
NEPA National Environmental Policy Act
Nested design
Nested design (sometimes referred to as a hierarchical design) is used for
experiments in which there is an interest in a set of treatments and the experimental
units are sub-sampled.
Off-channel Those bodies of water adjacent to the main channel that have surface water
connections to the main river at some discharge levels.
Off-channel habitat Habitat within those bodies of water adjacent to the main channel that have surface
water connections to the main river at some discharge levels.
PHABSIM
Physical Habitat Simulation, aspecific model designed to calculate an index to the
amount of microhabitat available for different life stages at different flow levels.
PHABSIM has two major analytical components: stream hydraulics and life stage-
specific habitat requirements.
PhD Doctor of Philosophy
Pool Slow water habitat with minimal turbulence and deeper due to a strong hydraulic
control.
PRM
Project River Mile(s) based on the digitized wetted width centerline of the main
channel from 2012 Matanuska-Susitna Borough digital orthophotos. PRM 0.0 is
established as mean lower low water of the Susitna River confluence at Cook Inlet.
Project Susitna-Watana Hydroelectric Project
Rapid
Swift, turbulent flow including small chutes and some hydraulic jumps swirling
around boulders. Exposed substrate composed of individual boulders, boulder
clusters, and partial bars. Lower gradient and less dense concentration of boulders
and white water than Cascade. Moderate gradient; usually 2.0-4.0% slope.
Resident Resident fish as opposed to anadromous remain in the freshwater environment
year-round
Riffle
A fast water habitat with turbulent, shallow flow over submerged or partially
submerged gravel and cobble substrates. Generally broad, uniform cross-section.
Low gradient; usually 0.5-2.0% slope.
Riparian Pertaining to anything connected with or adjacent to the bank of a stream or other
body of water.
Riparian vegetation Vegetation that is dependent upon an excess of moisture during a portion of the
growing season on a site that is perceptively more moist than the surrounding area.
Riparian zone A stream and all the vegetation on its banks that is influenced by the presence of
the stream, including surface flow, hyporheic flow and microclimate.
RIRP Railbelt Integrated Resources Plan
River A large stream that serves as the natural drainage channel for a relatively large
catchment or drainage basin.
River corridor
A perennial, intermittent, or ephemeral stream and adjacent vegetative fringe. The
corridor is the area occupied during high water and the land immediately adjacent,
including riparian vegetation that shades the stream, provides input of organic
debris, and protects banks from excessive erosion.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page vi January 2013
Abbreviation Definition
River mile The distance of a point on a river measured in miles from the river's mouth along
the low-water channel.
RM River Mile(s) referencing those of the APA Project.
RSP Revised Study Plan
Run (habitat)
A habitat area with minimal surface turbulence over or around protruding boulders
with generally uniform depth that is generally greater than the maximum substrate
size. Velocities are on border of fast and slow water. Gradients are approximately
0.5 % to less than 2%. Generally deeper than riffles with few major flow
obstructions and low habitat complexity.
Run (migration)
Seasonal migration undertaken by fish, usually as part of their life history; for
example, spawning run of salmon, upstream migration of shad. Fishers may refer to
increased catches as a “run” of fish, a usage often independent of their migratory
behavior.
sf; sq ft, ft2 Square foot (feet)
Side channel
Lateral channel with an axis of flow roughly parallel to the mainstem, which is fed by
water from the mainstem; a braid of a river with flow appreciably lower than the
main channel. Side channel habitat may exist either in well-defined secondary
(overflow) channels, or in poorly-defined watercourses flowing through partially
submerged gravel bars and islands along the margins of the mainstem.
Side slough Off-channel habitat characterization of an Overflow channel contained in the
floodplain, but disconnected from the main channel. Has clear water,
Slope The inclination or gradient from the horizontal of a line or surface.
Slough
A widely used term for wetland environment in a channel or series of shallow lakes
where water is stagnant or may flow slowly on a seasonal basis. Also known as a
stream distributary or anabranch.
Soil water storage variations Seasonal changes in where and how water is stored in a hydraulic system.
Solar geometry Angle of the sun’s rays to the surface.
Spaghetti tag
A long, thin external tag type used to mark individual fish. Sometimes referred to as
anchor or dart tags, they are usually made of vinyl tubing that can have study
information printed upon.
Spawning The depositing and fertilizing of eggs by fish and other aquatic life.
Split main channel Main channel habitat characterization where three of fewer distributed dominant
channels.
Spring Area where there is a concentrated discharge of groundwater that flows at the
ground surface.
Streambed The bottom of the stream channel; may be wet or dry.
Three Rivers Confluence
The confluence of the Susitna, Chulitna, and Talkeetna rivers at Susitna River Mile
(RM) 98.5 represents the downstream end of the Middle River and the upstream
end of the Upper River.
Tributary A stream feeding, joining, or flowing into a larger stream (at any point along its
course or into a lake). Synonyms: feeder stream, side stream.
Tributary mouth Main channel habitat characterization of clear water areas that exist where
tributaries flow into Susitna River main channel or side channel habitats.
TWG Technical Workgroup
Upland slough
Off-channel habitat characterization feature that is similar to a side slough, but
contains a vegetated bar at the head that is rarely overtopped by mainstem flow.
Has clear water.
Upper segment Susitna The Susitna River upstream of the proposed Watana Dam Site at RM 184.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page vii January 2013
Abbreviation Definition
USFS USDA, Forest Service
Watana Dam
The dam proposed by the Susitna-Watana Hydroelectric project. The approximately
750-foot-high Watana Dam (as measured from sound bedrock) would be located at
river mile (RM) 184 on the Susitna River. The dam would block the upstream
passage of Chinook salmon, possibly other salmon species, and resident fish that
migrate through and otherwise use the proposed Watana Dam site and upstream
habitat in the Susitna River and tributaries.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 1 January 2013
1. MIDDLE RIVER MAINSTEM HABITAT MAPPING
1.1 Introduction
The Alaska Energy Authority (AEA) is preparing a License Application that will be submitted to
the Federal Energy Regulatory Commission (FERC) for the Susitna-Watana Hydroelectric
Project (Project) using the Integrated Licensing Process (ILP). The Project is located on the
Susitna River, an approximately 300-mile-long river in Southcentral Alaska. The Project’s dam
site will be located at river mile (RM) 184, corresponding to Project RM (PRM) 187.1 of the
updated GIS-based hydrography.
This study provided information to serve as the basis for the 2013–2014 formal study program,
for preparing Exhibit E of the License Application, and for use in FERC’s National
Environmental Policy Act (NEPA) analysis for the Project license.
AEA will initiate aquatic studies in 2013 to characterize both instream flow and fish distribution
within the Susitna River. These studies are described in the Revised Study Plan (RSP) Sections
8.5, 9.5, 9.6, and 9.9. To efficiently perform this work within a narrow seasonal window an
approach to subsample representative habitat has been proposed. This subsample approach is
applied differently for both instream flow and fisheries methodologies; however, both resources
require some understanding of what available habitat exists and needs to be represented.
Historical habitat mapping studies from the 1980s occurred in the mainstem Middle River.
Channel morphology was identified and the mainstem habitat types were representative of
distinct functional hydrology. The approach to the study (i.e., classification system) was
informative; however, these existing data may not reflect current conditions because of habitat
changes in this dynamic river over the last 30 years.
In October 2012, a small AEA resource team identified this data need. The team determined that
the best pathway for characterizing the frequency and proportion of habitat in the mainstem
Middle River was to use geo-rectified aerial imagery in combination with available aerial
videography to map available habitat. A hierarchical and nested classification system developed
specifically for the Susitna River with input from the Fish and Aquatics Technical Workgroup
(TWG) was used to classify habitat (see RSP Section 9.9 and Table 9.9-4). Applying this
methodology allowed for habitat to be mapped remotely during winter months when additional
on-the-ground mapping could not occur. The product of this effort is presented within this
report.
1.2 Study Goals and Objectives
The goal of this study was to determine the composition and frequency of mainstem aquatic
habitats and delineate the proportion of habitat in the Middle Susitna River from aerial imagery
or videography.
The objective was to measure, using geo-rectified imagery, river habitat in the Middle Susitna
River. A spatial database of the length and composition of habitat would be developed by
drawing the beginning and end point of each specific habitat unit (i.e. remotely habitat map).
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 2 January 2013
The study is intended to provide baseline data for supporting the selection of representative focus
areas for instream flow studies and the approach for fish distribution site selection.
1.3 Study Area
The study area for the Middle River mainstem habitat mapping encompassed the mainstem
Susitna from the Chulitna River confluence (Project River Mile [PRM]1 102.3, Figure 1) to
proximally below the Watana Dam Site 2 (PRM 186.7). The effort also included identifying
tributaries to the mainstem Susitna River. The tributaries were identified within a 0.5 mile
buffer from a centerline of the mainstem Susitna River. The 0.5 mile buffer extent was used
because it was considered a conservative standard buffer to sufficiently represent the confluence
of tributaries to the mainstem Susitna River.
2. STUDY METHODS
Remote line mapping of habitats in the Middle River was conducted using hierarchically-nested
habitat typing adapted to feasible identification levels based on the use of aerial still imagery,
LiDAR (Light Detection And Ranging), and low-elevation high definition aerial videography
collected in 2012.
The aerial videography was collected from September 7–11, 2012. During the video collection,
mean daily discharge from Gold Creek steadily declined from 16,500 cfs on September 7 to
10,800 cfs on September 11, 2012.
A linear network was created in GIS (geographic information system) by drawing vector-lines
(segments) through the middle of the stream channel as viewed by aerial imagery or LiDAR. The
reference imagery was collected at river flows generally ranging from 10,000 to 12,000 cfs,
which were considered representative of relatively lower to mid-flow levels for mapping.
Divided channels had multiple segments representing that stream section.
Main channel, tributary and off-channel habitats were uniquely identified and delineated into
segments. The lengths of the segments were based on mesohabitat classification for the main
channel and macrohabitat classification for off-channel or tributary habitat (Table 1). Each
individual vector line segment provided a length and a hierarchical-tiered habitat classification
organized in "levels". Not all lines connected into a contiguous or flow-based network, as that
resulted in excessively long segments for small habitat units.
The habitat classification hierarchy was composed of five levels representing: (1) major
hydrologic segment; (2) geomorphic reach; (3) mainstem habitat type; (4) main channel
mesohabitat; and (5) edge habitat. Table 1 summarizes the levels and provides brief definition of
each habitat classification level used during the effort. Level 1 identified the Middle River.
Level 2 identified one of eight unique reaches established from the channel’s geomorphic
characteristics (developed from the Geomorphology Study [see RSP Section 6.0]). Level 3
classified the mainstem habitat type of main, off-channel, and tributary habitat using a slightly
modified approach from the 1980s historical habitat mapping definitions (ADF&G 1983a). All
1 Note that historic river miles from work conducted in the 1980s differ from current Project river miles or PRM.
Current Project river miles are referenced throughout this report. 2 The current dam site is PRM 187.1, but was only recently revised, following the development of this report. This
minor difference will not substantially affect the results reported here.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 3 January 2013
off-channel and tributary habitats were classified to Level 3 and all main channel habitats were
identified to Level 4 mesohabitat type (riffle, pool, run, etc.). The final tier, Level 5 edge habitat,
was a calculated length of shoreline (i.e., doubled length of each line segment). The line
segment length was defined by the lowest level of classification (i.e., Level 4 for mainstem and
Level 3 for off-channel and tributary habitats). Edge habitat was reported by the amount of
habitat per mile and provided an indicator of habitat complexity.
2.1 GIS Habitat Mapping
Habitat in the Middle River hydrologic segment was mapped using GIS from aerial still imagery
viewed at a range of scales from 1:1,000 to 1:12,000 in order to locate line segments and habitat
boundaries. All habitat segments were identified using a mid-channel line, which was measured
to provide habitat length. In channels that were only partially inundated or where water was
present in sloughs, the line segments followed the wet areas. Polygons were drawn to demark
the boundaries of tributary mouth and backwater habitat in order to characterize available fish
habitat. Area mapping was generated separately from the linear database, but all data is
summarized below.
Several controls were established to ensure that the habitat mapping effort was both precise and
accurate. Examples of specific aerial images of habitat as related to the levels were created.
These examples were reviewed and confirmed by the technical lead and provided a voucher
reference to help identify habitat types. Final habitat typing was reviewed by the technical lead to
ensure consistency and accurate habitat mapping.
The exact location of habitat boundaries often required professional judgment on the part of the
mapper, such as the boundary between a riffle and run or glide. Due to lack of resolution in the
GIS imagery and shadows along the left bank of the river, some habitat features such as tributary
mouths were confirmed by referring to aerial video as a secondary reference. The aerial video
was also used to confirm the more permanent gravel bars that showed some vegetation, which
was sometimes not evident in the GIS imagery. If the aerial video indicated a bar had vegetation
on it, but vegetation was not evident in the GIS imagery, the island was considered vegetated and
the main channel line segments were split around the island.
Tributaries were delineated in the GIS imagery to 0.5 mile from the centerline of the mainstem
confluence, using a buffer. Tributaries were differentiated from upland sloughs based on their
gradient characteristics and if they originated above the general floodplain. The exact locations
of some tributary segments were difficult to determine using the imagery in heavily forested
areas. As such, locations were estimated based on visual cues in the canopy. Tributary mouths
were mapped using a single line segment showing the length of the wetted area of the tributary
mouth that extended from the vegetation line out to the edge of the gravel bank. In some of the
larger tributaries, the mouth habitat was extended inland beyond the vegetation line based on
habitat breaks visible between the tributary channel and the alluvial gravel areas at the mouth.
Mainstem habitats were classified as main channel when only a single dominant channel was
present; split main channel when the flow was dispersed into two relatively evenly sized
channels such as around a central island; and multiple split main channel when the mainstem
split into three or more separate channels each carrying a significant portion of the flow.
Mesohabitats were classified from interpretation of both the GIS imagery and aerial video.
Riffles were distinguished from areas of wind waves or standing waves by the presence of white
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 4 January 2013
water and protruding boulders in the area that indicate the water is relatively shallow and passes
over cobbles and boulders. White water in a reach was classified as a run, if only one or two
protruding boulders were producing isolated areas of turbulence.
The presence of clear or turbid water was used as a main indicator to differentiate between side
sloughs and side channels. Side sloughs had clear water and were open to main channel flow at
both ends, but water was connected at only one end of the slough during the time of the survey.
These areas could be partially dry but showed evidence that they were inundated regularly during
high flows by lack of vegetation. Upland sloughs had similar characteristics in that the water
was relatively clear, but these were not open to the main channel at both ends as indicated by the
presence of vegetation in the area between the upstream end of the slough and the main channel.
Side channels were either completely inundated with turbid water connected at both upstream
and downstream ends to the main channel or contained portions that held turbid water. The dry
portions of the channel were delineated based on gravel bed and lack of any vegetation
indicating that water periodically inundated the channel during higher flow periods. The
distance that the side channel line segments extended into the main channel were determined by
an estimation of the continuation of the vegetated or high water shoreline on either side of the
mouth of the side channel.
Only mainstem habitat was further classified into mesohabitats consisting of run/glide, pool,
riffle, or rapid (Table 1). Off-channel habitat (which includes side and upland sloughs) and
tributaries were not classified into mesohabitats due to the lack of resolution of aerial imagery
and the confounding presence of shadows or riparian cover.
The amount of edge habitat was determined by doubling the segment lengths that delineated each
mainstem and off-channel habitat type. In order to compare amounts of edge habitats between
different reaches, the length of each was divided by the total reach length to calculate edge
habitat per mile.
2.2 Study Deviations
The development of the current study came about through a collaborative and adaptive process in
October of 2012. Initially, there was an expectation to potentially mesohabitat map tributary and
off-channel habitat types. As the mapping effort progressed it became clear that many of these
units could not be mapped to the mesohabitat level and that only main channel habitat could be
entirely mapped to the mesohabitat level. This limitation was a result of the quality of the aerial
imagery, small size of the habitat unit, and potential for vegetative canopy that obstructed
overhead viewpoints.
Finally, mapping the mainstem habitat to the mesohabitat level was challenging for certain
habitat types that include differentiating run and glide habitat and identifying pool habitat. Run
and glide habitat was closely examined through aerial stills and videography to make a
professional judgment of the habitat type; however, it is realized that wind-waves and glare can
confound the typing of these habitats. Pool habitat required identifying a hydraulic control and
was only found in the Devils Canyon area, where the control was very obvious. Small, less
obvious pools may have not been identified from this methodology.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 5 January 2013
3. RESULTS
The Middle River was divided into 8 geomorphic reaches based on geomorphic characteristics
established from the Geomorphology Mapping Study (Figure 1, Table 2). Reaches were
numbered sequentially from Middle River 1 (MR-1) at the upstream end to Middle River 8 (MR-
8) at the downstream end at the confluence with the Chulitna River. These reaches are not
equally distributed in length, but separated based on the presence of distinct geomorphic
processes and channel characteristics as described in RSP Section 6.0. Note that since there are
multiple habitat types laterally distributed at any one time within the channel, the total distance
of habitat is significantly greater than the actual length of the reach alone.
3.1 Main Channel Habitat
Main channel habitat varied by geomorphic reach and generally increased in complexity from
upstream to downstream locations (Figure 2, Table 3). The single confined channel type
represented the majority of habitat from the proposed dam site (MR-1) through Devils Canyon
(MR-5). Downstream of Devils Canyon (i.e., MR-6 to MR-8), channel types were broadly
distributed between all four channel types and main channel habitat was not the majority in any
of those reaches. The downstream reaches contained multiple split main channel habitat and
many side channels (Figure 2; Table 3). These areas also contained many gravel bars and
islands. These were differentiated by the presence of vegetation as described in Section 2.1.
Side channels varied widely in size and length.
Mesohabitat in the main channel was generally dominated by a mixture of run and glide habitats
(Figure 3, Table 4). Run and glide habitats were not distinguished from each other at this level
of classification and were combined into a single element referred to as ‘glide or run’. This
included smooth-flowing, low turbulence reaches as well as areas with some standing or wind
waves and occasional solitary protruding boulders. Only in the reach where Devils Canyon is
situated (MR-4) was the mesohabitat not dominated by run and glide habitat. Riffle habitat was
most prevalent in MR-4. There was no riffle habitat in MR-1 and very small amounts in MR-2
and MR-5 (Figure 3, Table 4).
Side channels were predominantly glide or run, with some riffle areas in the lower reaches.
Many side channels were not completely inundated with flowing water and so identification of
riffle or run habitat was not possible; these were classified as unidentified and were most
prevalent in reach 6 (Table 4).
Cascade habitat was not found within any Middle River reach. The geomorphic reach through
Devils Canyon (MR-4) contained the only rapids in the Middle River, which accounted for 38%
of the mainstem habitat in that reach. Only 3 pools were found in the Middle River and these
were also contained in MR-4 between rapids in Devils Canyon.
The habitat associated with the confluence of tributaries with the main channel river was
documented as tributary mouth and clear water plume (Table 3 and 6). Tributary mouth habitat
was not associated with every tributary that entered the Middle River. Small tributaries, where
the vegetation line was close to the mainstem, did not fan out and create the areas classified as
tributary mouth habitat. These areas were most frequent in the larger tributaries within MR-2,
MR-4, and MR-6 (Table 6). Named tributaries by geomorphic reach are identified in Table 8.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 6 January 2013
The largest total tributary mouth habitat area was in MR-2, which also had the second largest
average area. The largest average area was represented by a single tributary mouth in MR-5.
Clear water plume habitat was marked in areas along the shoreline of the main channel where the
water remained clear for some distance downstream prior to mixing with the turbid main channel
waters. These habitats resulted from the outflow of tributaries and commenced at tributary
mouths and extended downstream. Small tributaries or tributaries that flowed into fast moving
or turbulent sections of the mainstem did not produce these clear water plumes. Clear water
plume habitats were located in reaches MR-2, MR-3, MR-5, and MR-7, with the most being in
reach MR-2 (Table 4). Associated named tributaries in each of the identified reaches are
identified in Table 8.
3.2 Off Channel Habitats
Sloughs were prevalent throughout the Middle River reaches outside of Devils Canyon and
downstream of the uppermost reach at MR-1. Side sloughs were most abundant in MR-5,
followed by MR-6 (Table 5). Upland sloughs were most abundant in MR-8, and generally
increased in abundance towards the downstream reaches (Table 5). Beaver dams were rarely
present in side slough habitat, and slightly more prevalent in upland sloughs. Beaver dams were
only observed in reaches MR-6 and MR-7 (Table 5).
Backwater habitat was also relatively rare and primarily represented in the lower reaches from
MR-6 through MR-8 (Figure 3; Table 5). A single backwater was also delineated in MR-2 and
MR-4, but accounted for less than 1 percent of the linear habitat in each reach due to small size.
The greatest total area of backwater habitat was in MR-7, but the greatest frequency was found
in MR-6 (Table 5).
3.3 Tributary Habitat
Tributaries were generally smaller and could be completely obscured by vegetation. Therefore,
the tributaries were not further identified to a mesohabitat type as part of this specific effort.
Tributaries structure was variable and ranged from confined linear channels to multi-channel
complexes. Tributaries were absent in MR-1 and relatively less frequent in MR-5 and MR-8
(Figure 4 and Table 5). Tributaries represented more than 60 percent of off-channel and
tributary habitats in MR-2, MR-3, and MR-4 (Table 5). Associated named tributaries in each of
the identified reaches are identified in Table 8.
3.4 Edge Habitat
Standardized edge per mile provided an index of complexity to compare geomorphic reaches.
The results of this analysis are presented in Figure 5 and Table 7. Complexity generally
increased in downstream locations. MR-8 was the most complex reach, followed by MR-6 and
MR-7, respectively. The lower reaches were characterized by split main channels, along with
off-channel and tributary habitat. The least complexity was within MR-4 (Devils Canyon Reach)
and remained low in MR-5. Above MR-4, complexity was moderate.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 7 January 2013
4. DISCUSSION
The results of the study provide a complete index of the frequency and proportion of main
channel, off-channel, and tributary habitat within the Middle River. The resolution of the data
varied based on the size and visibility of each habitat unit and relied upon the professional
interpretation of biologists. Nonetheless, the final product provides a tool and current resource to
make informed decisions and plan for representing the Middle River for instream flow and fish
distribution studies for 2013. It is important to note that this tool represents only a small portion
of habitat mapping study activity for 2013. Significant on-the-ground activity is planned for
2013 that will expand the resolution and working knowledge of available habitat in the Susitna
River and surrounding tributaries.
5. REFERENCES
ADF&G (Alaska Department of Fish and Game). 1983a. Su Hydro draft basic data report,
Harper, D.M., C.D. Smith, and P.J. Barham. 1992. Habitats as the building blocks for river
conservation assessment. In River Conservation and Management, Boon P.J., Calow, P.,
Petts, G.E. (eds). John Wiley: Chichester; 311–319.
Trihey, E. W. 1982. Preliminary assessment of access by spawning salmon to side slough habitat
above Talkeetna. Susitna Hydroelectric Project Doc. No. 134. 24 pp.
USFS (U.S. Forest Service). 2001. Chapter 20 – Fish and Aquatic Stream Habitat Survey. FSH
2090-Aquatic Habitat Management Handbook (R-10 Amendment 2090.21-2001-1).
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 8 January 2013
6. TABLES
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
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FERC Project No. 14241 Page 9 January 2013
Table 1. Middle River levels of habitat classification hierarchy.
Note that mentions of the Upper and Lower River are included, but those areas were not mapped as part of this report.
Level Unit Category Definitions
1 Major Hydrologic Segment Upper, Middle, Lower River
Defined Segment Breaks (used in this report)
Upper River – RM 186.7 – 261.3 (habitat mapping will only extend up to mainstem
RM 233 and will include the Oshetna River.
Middle River - RM 102.3 – 186.7
Lower River - RM 0 – 102.3
2 Geomorphic Reach
Upper River Segment
Geomorphic Reaches 1-6
Middle River Segment
Geomorphic Reaches 1-8
Lower River Segment
Geomorphic Reaches 1-6
Geomorphic reaches that uniquely divide the Major Hydrologic Segments based on
geomorphic characteristics.
3
Mainstem Habitat
Main Channel Habitat
Off-Channel Habitat Types
Tributary Habitat
Main Channel Habitat:
Main Channel – Single dominant main channel. Split Main Channel – Three or fewer distributed dominant channels.
Multiple Split Main Channel – Greater than three distributed dominant channels.
Side Channel – Channel that is turbid and connected to the active main channel but
represents non-dominant proportion of flow.
Tributary Mouth - Clear water areas that exist where tributaries flow into Susitna
River main channel or side channel habitats (upstream Tributary habitat will be
mapped as a separate effort).
Off-Channel Habitat (also referred to as macrohabitat):
Side Slough - Overflow channel contained in the floodplain, but disconnected from the
main channel. Has clear water.1
Upland Slough - Similar to a side slough, but contains a vegetated bar at the head
that is rarely overtopped by mainstem flow. Has clear water.1 Backwater - Found along channel margins and generally within the influence of the
active main channel with no independent source of inflow. Water is not clear.
Beaver Complex – Complex ponded water body created by beaver dams.
Tributary Habitat:
Tributaries will be mapped to the upper limit of Susitna River hydrological influence.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 10 January 2013
Level Unit Category Definitions
4 Main Channel Main Channel
Main Channel Mesohabitat
Pool – slow water habitat with minimal turbulence and deeper due to a strong
hydraulic control.
Glide – An area with generally uniform depth and flow with no surface turbulence. Low
gradient; 0-1 percent slope. Glides may have some small scour areas but are
distinguished from pools by their overall homogeneity and lack of structure. Generally
deeper than riffles with few major flow obstructions and low habitat complexity.2
Run – A habitat area with minimal surface turbulence over or around protruding
boulders with generally uniform depth that is generally greater than the maximum
substrate size. 2 Velocities are on border of fast and slow water. Gradients are
approximately 0.5 percent to less than 2 percent. Generally deeper than riffles with few
major flow obstructions and low habitat complexity.2
Riffle – A fast water habitat with turbulent, shallow flow over submerged or partially
submerged gravel and cobble substrates. Generally broad, uniform cross section.
Low gradient; usually 0.5-2.0 percent slope.5
Rapid - Swift, turbulent flow including small chutes and some hydraulic jumps swirling
around boulders. Exposed substrate composed of individual boulders, boulder
clusters, and partial bars. Lower gradient and less dense concentration of boulders
and white water than Cascade. Moderate gradient; usually 2.0-4.0 percent slope.2
5 Edge Habitat Length of Shoreline Habitat Calculation- will be determined by doubling the length of the mapped habitat unit.
1 The terms Side Channel, Slough, and Upland Slough are similar but not necessarily synonymous with the terms for macrohabitat type as applied by Trihey (1982) and ADF&G (1983a).
2 Adapted from Moore et al. 2006.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 11 January 2013
Table 2. Locations of Middle Rive (MR) geomorphic reaches by Project river mile.
Geomorphic Reach Downstream Project River Mile Upstream Project River Mile Length (miles) Description1
MR-1 184.7 186.7 2.0 Tertiary-Cretaceous Gneiss
MR-2 169.7 184.7 15.0 Cretaceous Kahiltna Flysch Tertiary-Cretaceous Gneiss
MR-3 166.1 169.7 3.6 Paleocene Granites
MR-4 153.5 166.1 12.6 Paleocene Granites
MR-5 148.5 153.5 5.0 Cretaceous Kahiltna Flysch
MR-6 122.7 148.5 25.8 Cretaceous Kahiltna Flysch with undifferentiated Upper Pleistocene
moraines, kames, lacustrine deposits
MR-7 107.7 122.7 15.0 Cretaceous Kahiltna Flysch with undifferentiated Upper Pleistocene
moraines, kames, lacustrine deposits
MR-8 102.3 107.7 5.4 Upper Pleistocene moraines, outwash and Holocene Alluvial Terrace
deposits
1 Characterization from internally updated geomorphic reach characterization
Table 3. Total length and percent composition (by geomorphic reach) of main channel habitat classifications by geomorphic reach in the Middle Susitna River.
Main Channel Type
MR-1 (PRM 186.7 – 184.7) MR-2 (PRM 184.7-169.7) MR-3 (PRM 169.7-166.1) MR-4 (PRM 166.1-153.5) MR-5 (PRM 153.5-148.5) MR-UR(PRM 148.5-122.7) MR-7 (PRM 122.7-107.7) MR-8 (PRM 107.7-102.3)
% of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft)
Main Channel 67.2% 10,702 68.5% 74,908 73.2% 16,935 98.3% 66,004 75.9% 24,114 27.5% 96,245 28.0% 41,756 24.3% 18,432
Split Main Channel 0.0% 0 7.5% 8,148 15.6% 3,600 0.0% 0 15.2% 4,835 18.0% 62,885 52.0% 77,407 5.9% 4,453
Multi-Split Main Channel 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 7.5% 26,400 0.0% 0 32.3% 24,430
Side Channel 32.8% 5,235 16.1% 17,646 9.0% 2,090 1.0% 699 6.2% 1,954 45.9% 160,659 19.6% 29,178 37.5% 28,398
Tributary Mouth 0.0% 0 1.0% 1,113 0.6% 129 0.6% 426 1.0% 305 0.4% 1,545 0.2% 319 0.0% 0
Clear Water Plume 0.0% 0 6.8% 7,470 1.7% 383 0.0% 0 1.7% 549 0.6% 2,143 0.2% 240 0.0% 0
Grand Total 100% 15,937 100% 109,285 100% 23,137 100% 67,128 100% 31,758 100% 349,877 100% 148,900 100% 75,714
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 12 January 2013
Table 4. Total length and percent composition (by geomorphic reach) of main Channel mesohabitat classifications in the Middle Susitna River.
Main Channel Mesohabitat
MR-1 (PRM 186.7 –
184.7)
MR-2 (PRM 184.7-
169.7)
MR-3 (PRM 169.7-
166.1)
MR-4 (PRM 166.1-153.5) MR-5 (PRM 153.5-148.5) MR-6 (PRM 148.5-122.7) MR-7 (PRM 122.7-107.7)
MR-8 (PRM 107.7-
102.3)
% of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft) % of Total Total (ft)
Main Channel 67.2% 10,702 68.5% 74,908 73.2% 16,935 98.3% 66,004 75.9% 24,114 27.5% 96,245 28.0% 41,756 24.3% 18,432
Glide or Run 67.2% 10,702 65.8% 71,956 71.3% 16,495 30.2% 20,305 75.9% 24,114 25.9% 90,760 22.9% 34,058 24.3% 18,432
Pool 0.0% 0 0.0% 0 0.0% 0 0.7% 500 0.0% 0 0.0% 0 0.0% 0 0.0% 0
Rapid 0.0% 0 0.0% 0 0.0% 0 38.0% 25,519 0.0% 0 0.0% 0 0.0% 0 0.0% 0
Riffle 0.0% 0 2.7% 2,953 1.9% 440 29.3% 19,680 0.0% 0 1.6% 5,485 5.2% 7,698 0.0% 0
Split Main Channel 0.0% 0 7.5% 8,148 15.6% 3,600 0.0% 0 15.2% 4,835 18.0% 62,885 52.0% 77,407 5.9% 4,453
Glide or Run 0.0% 0 7.5% 8,148 15.6% 3,600 0.0% 0 15.2% 4,835 17.7% 61,922 42.1% 62,623 5.9% 4,453
Riffle 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.3% 963 9.9% 14,784 0.0% 0
Multi-Split Main
Channel 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 7.5% 26,400 0.0% 0 32.3% 24,430
Glide or Run 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 7.1% 24,922 0.0% 0 31.7% 24,008
Riffle 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.3% 882 0.0% 0 0.6% 422
Unidentified 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.2% 595 0.0% 0 0.0% 0
Side Channel 32.8% 5,235 16.1% 17,646 9.0% 2,090 1.0% 699 6.2% 1,954 45.9% 160,659 19.6% 29,178 37.5% 28,398
Glide or Run 32.8% 5,235 5.2% 5,716 7.2% 1,677 0.0% 0 4.2% 1,329 25.3% 88,662 13.1% 19,536 28.4% 21,528
Pool 0.0% 0 0.0% 0 0.0% 0 0.5% 342 0.0% 0 0.0% 0 0.0% 0 0.0% 0
Riffle 0.0% 0 0.0% 0 0.0% 0 0.5% 357 2.0% 625 0.7% 2,522 0.2% 279 9.1% 6,870
Unidentified 0.0% 0 10.9% 11,930 1.8% 414 0.0% 0 0.0% 0 19.9% 69,475 6.3% 9,363 0.0% 0
Tributary Mouth 0.0% 0 1.0% 1,113 0.6% 129 0.6% 426 1.0% 305 0.4% 1,545 0.2% 319 0.0% 0
Clear Water Plume 0.0% 0 6.8% 7,470 1.7% 383 0.0% 0 1.7% 549 0.6% 2,143 0.2% 240 0.0% 0
Total 100% 15,937 100% 109,285 100% 23,137 100% 67,128 100% 31,758 100% 349,877 100% 148,900 100% 75,714
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 13 January 2013
Table 5. Total length and percent composition (by geomorphic reach) of off channel habitats classified in the Middle Susitna River.
Off-Channel and Tributary Habitats
MR-1 (PRM 186.7–184.7)
MR-2 (PRM 184.7-169.7) MR-3 (PRM 169.7-166.1) MR-4 (PRM 166.1-153.5) MR-5 (PRM 153.5-148.5) MR-6 (PRM 148.5-122.7) MR-7 (PRM 122.7-107.7) MR-8 (PRM 107.7-102.3)
% Total (ft) % Total (ft) % Total (ft) % Total (ft) % Total (ft) % Total (ft) % Total (ft) % Total (ft)
Backwater 0.0% 0 0.0% 0 0.4% 91 0.0% 0 0.9% 1,236 1.5% 1,458 1.5% 453 0.3% 201
Side Slough 0.0% 0 4.5% 712 0.0% 0 66.8% 4,482 27.5% 38,898 10.0% 10,038 20.6% 6,195 20.2% 16,130
Beaver
Complex 0.0% 0 0.0% 0 0.0% 0 0.0% 0 3.8% 5,393 2.6% 2,584 0.0% 0 0.0% 0
Side Slough 0.0% 0 4.5% 712 0.0% 0 66.8% 4,482 23.7% 33,505 7.4% 7,454 20.6% 6,195 20.2% 16,130
Tributary 0.0% 0 95.5% 14,946 99.6% 24,700 33.2% 2,232 41.7% 59,066 38.8% 38,945 24.1% 7,266 60.4% 48,143
Upland Slough 0.0% 0 0.0% 0 0.0% 0 0.0% 0 29.9% 42,361 49.8% 50,067 53.8% 16,190 19.1% 15,261
Beaver
Complex 0.0% 0 0.0% 0 0.0% 0 0.0% 0 8.8% 12,512 5.0% 5,011 0.0% 0 0.0% 0
Upland Slough 0.0% 0 0.0% 0 0.0% 0 0.0% 0 21.1% 29,849 44.8% 45,056 53.8% 16,190 19.1% 15,261
Grand Total 0.0% 0 100% 79,735 100% 15,658 100% 24,791 100% 6,713 100% 141,561 100% 100,508 100% 30,104
Table 6. Summary of the frequency, total area, and average area of tributary mouth and backwater habitat by geomorphic reach.
Geomorphic Reach Tributary Mouth Area Backwater Area
Count Total Area (sq ft) Mean Area (sq ft) Count Total Area (sq ft) Mean Area (sq ft)
MR-1 (PRM 186.7–184.7) 0 0 0 0 0 0
MR-2 (PRM 184.7-169.7) 10 143,473 14,347 1 41,237 41,237
MR-3 (PRM 169.7-166.1) 3 5,951 1,984 0 0 0
MR-4 (PRM 166.1-153.5) 9 13,136 1,460 1 1,434 1,434
MR-5 (PRM 153.5-148.5) 1 36,510 36,510 0 0 0
MR-6 (PRM 148.5-122.7) 10 105,007 10,501 4 51,761 12,940
MR-7 (PRM 122.7-107.7) 4 14,820 3,705 2 124,645 62,322
MR-8 (PRM 107.7-102.3) 0 0 0 1 21,004 21,004
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 14 January 2013
Table 7. Edge habitat (in miles) reported per mile in each geomorphic reach in the Middle Susitna River.
Geomorphic Reach MR-1 (PRM 186.7 – 184.7)
MR-2 (PRM 184.7-169.7)
MR-3 (PRM 169.7-166.1)
MR-4 (PRM 166.1-153.5)
MR-5 (PRM 153.5-148.5)
MR-6 (PRM 148.5-122.7)
MR-7 (PRM 122.7-107.7)
MR-8 (PRM 107.7-102.3)
Backwater 0.00 0.01 0.00 >.01 0.00 0.02 0.04 0.03
Main Channel 2.03 1.89 1.78 1.98 1.83 1.41 1.05 1.29
Split Main Channel 0.00 0.21 0.38 0.00 0.37 0.93 1.95 0.31
Multi-Split Main Channel 0.00 0.00 0.00 0.00 0.00 0.39 0.00 1.71
Side Channel 0.99 0.45 0.22 0.02 0.15 2.36 0.74 1.99
Tributary Mouth 0.00 0.03 0.01 0.01 0.02 0.02 0.01 0.00
Side Slough 0.00 0.41 0.07 0.00 0.34 0.57 0.25 0.43
Tributary 0.00 1.22 1.57 0.74 0.17 0.87 0.98 0.51
Upland Slough 0.00 0.39 0.00 0.00 0.00 0.62 1.26 1.14
Total Edge Habitat Per Mile 3.02 4.58 4.04 2.76 2.87 7.18 6.29 7.42
Table 8. List of major tributaries by geomorphic reach. Identified Project river miles for each tributary specifies the mainstem Susitna River location where the
tributary confluence occurs.
Geomorphic Reach Major Named Tributaries (in order from upstream to downstream)
MR-1 (PRM 186.7–184.7) None
MR-2 (PRM 184.7-169.7) Tsusena Creek (PRM 184.5), Fog Creek (PRM179.3)
MR-3 (PRM 169.7-166.1) None
MR-4 (PRM 166.1-153.5) Devils Creek (PRM 165.8), Chinook Creek (PRM 160.4), Cheechako Creek (PRM 155.8)
MR-5 (PRM 153.5-148.5) Portage Creek (PRM 152.2)
MR-6 (PRM 148.5-122.7) Indian River (142.0),Gold Creek (PRM 140.1), Deadhorse Creek (PRM 124.3)
MR-7 (PRM 122.7-107.7) Portage Creek (PRM 121.3), McKenzie Creek (PRM 120.2), Lane Creek (PRM 117.1)
MR-8 (PRM 107.7-102.3) Whiskers Creek (PRM 104.8)
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 15 January 2013
7. FIGURES
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 16 January 2013
Figure 1. Main Channel Habitat classifications by geomorphic reach in the Middle Susitna River.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 17 January 2013
0
5
10
15
20
25
30
35
1 2 3 4 5 6 7 8Miles of HabitatGeomorphic Reach
Main Channel Split Main Channel Multi-Split Main Channel Side Channel
Figure 2. Main Channel Habitat classifications by geomorphic reach in the Middle Susitna River.
0
5
10
15
20
25
1 2 3 4 5 6 7 8Miles of HabitatGeomorphic Reach
Backwater Glide or Run Pool Rapid Riffle
50.4
Figure 3. Mesohabitat classifications by geomorphic reach in the main and side channels in the Middle Susitna River.
TECHNICAL MEMORANDUM MIDDLE SUSITNA RIVER REMOTE LINE HABITAT MAPPING
Susitna-Watana Hydroelectric Project Alaska Energy Authority
FERC Project No. 14241 Page 18 January 2013
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
1 2 3 4 5 6 7 8
Geomorphic Reach
Main Channel Off-Channel Tributary
Figure 4. Summary of level 3 habitat classifications in each geomorphic reach in the Middle Susitna River.
0
1
2
3
4
5
6
7
8
1 2 3 4 5 6 7 8Total EdgeHabitat Per MileGeomorphic Reach
Figure 5. Summary of the amount of edge habitat per mile in each geomorphic reach of the Middle Susitna River as an
indicator of habitat complexity.