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2D PHYSICAL HABITAT ANALYSIS
Ecological Analysis of Structure and Function
Goals of Ecological Analysis
1. Evaluate biological structures, functions, and interactions
at three scales (individual, population, and community)
2. Characterize abiotic-biotic linkages relevant to each scale
Ecological indicator- a metric used to diagnose the status of a
system.
-Can be a biological, chemical, or physical metric
Ecological functions- the ways in which organisms interact
with each other and the environment around them.
p. 4-1
2D PHYSICAL HABITAT ANALYSIS
2D Modeling and Ecological Functions
What discharge accesses streamwood in a mountain river?
p. 4-2
©2012 Pasternack & Wheaton
1
2D PHYSICAL HABITAT ANALYSIS
Physical Habitat
• Location with measurable, characteristic attributes where
organisms perform a designated ecological function.
• Attributes stem from interaction among hydrology,
hydraulics, and geomorphology
• Depth, velocity, substrate, temperature, cover are the most
common attributes used.
• Microhabitat- point-scale locations
• Mesohabitat- patches at the 0.1-10 channel-width scale
p. 4-3
2D PHYSICAL HABITAT ANALYSIS
What Physical Habitats Do You See Here?
p. 4-4
©2012 Pasternack & Wheaton
2
2D PHYSICAL HABITAT ANALYSIS
Physical Habitat Performance Indicators
• [Species X lifestage #] use most, but not all, of their
suitable microhabitat.
• Sufficient quality, number, size and distribution of
mesohabitats, and migration corridors between
mesohabitats, exist for [Species X lifestage #] to achieve
designated ecological functions.
• Sufficient maintenance of watershed processes and
regulatory management practices to create and maintain
suitable physical habitat for all freshwater lifestages of
relevant species.
p. 4-5
2D PHYSICAL HABITAT ANALYSIS
Steps to Characterize Physical Habitat
1. Make biological observations
2. Determine/quantify habitat suitability needs
3. Map habitat using 2D model results
4. Bioverify results
5. Analyze habitat statistics and spatial structure
p. 4-6
©2012 Pasternack & Wheaton
3
2D PHYSICAL HABITAT ANALYSIS
Biological Observations
• Sampling or census approach
• Measure submeter geographic locations
• Measure attributes at locations
Yellow dots are
observations
p. 4-7
2D PHYSICAL HABITAT ANALYSIS
Habitat Suitability Curve (HSC)
• Graphical representation of suitability of physical condition
• Simple HSC: scale statistical distribution to 0-1 range
p. 4-8
©2012 Pasternack & Wheaton
4
2D PHYSICAL HABITAT ANALYSIS
Hydraulic Habitat Suitability Index (HHSI)
depth field
velocity field
Habitat Quality Class
Best Quality
Good Quality
Low Quality
Very Poor Quality
Non Habitat
HHSI field
p. 4-9
2D PHYSICAL HABITAT ANALYSIS
Example HHSI Maps For Different Flows
p. 4-10
©2012 Pasternack & Wheaton
5
2D PHYSICAL HABITAT ANALYSIS
Bioverification Concept
• “Bioverification” is a test of the combined
predictions that results from coupling 2D model
results with HSCs.
• A bioverified model yields reasonable predictions
of habitat availability, which may then be used in
spatial and statistical analyses, such as
assessment of habitat areas as a function of
discharge.
• Bioverification is achieved with a test of the
Electivity Index.
p. 4-11
2D PHYSICAL HABITAT ANALYSIS
Electivity Index (EI) Definition
Utilization-to-Available Ratio by habitat quality class
%U i  100 
% Ai  100 
#reddsi
total #redds
bed areai
total  area
Example
EI 
EI > 1 indicates preference
of habitat class I
EI< 1 indicates tolerance of
habitat class i
EI = 0 indicates no habitat
of habitat class i
©2012 Pasternack & Wheaton
%U i
% Ai
Habitat
blue
green
yellow
red
white
# Stars % stars % area EI
18
72
35 2.06
4
16
15 1.07
2
8
20 0.40
1
4
15 0.27
0
0
15 0.00
p. 4-12
6
2D PHYSICAL HABITAT ANALYSIS
Bioverification Performance Indicator 1
• A pairing of a 2D model with HSCs must yield one or more
habitat classes with EI>1 and one or more with EI<1. This
indicates that it is predicting both preference and tolerance.
• Must take a risk to have specificity!
Trivial Prediction!
Risky Prediction!
p. 4-13
2D PHYSICAL HABITAT ANALYSIS
Bioverification Performance Indicator 2
• Habitat classes with EI>1 must be those with high habitat
index values and habitat classes with EI<1 must be those
with low habitat index values.
Violates HSC
Consistent with HSC
p. 4-14
©2012 Pasternack & Wheaton
7
2D PHYSICAL HABITAT ANALYSIS
Example of Bioverification
LYR Chinook salmon spawning
830 cfs
island
High
flow
Medium
Low
= redd
Very Poor
Non-habitat
p. 4-15
2D PHYSICAL HABITAT ANALYSIS
Bioverification Tests
Yuba 2004
60
• 2 bins with EI>1
• 3 bins with EI<1
Redds
Habitat
50
% Occurrence
preferred
40
tolerated
avoided
preferred
30
tolerated
avoided
tolerated avoided
20
10
• Lowest bins have
lowest EIs
• Highest bins have
highest EIs
0
0
0-0.2
0.2-0.4 0.4-0.6 0.6-1.0
Habitat Quality
©2012 Pasternack & Wheaton
p. 4-16
8
2D PHYSICAL HABITAT ANALYSIS
Weighted Usable Area (WUA) Curve
•
•
•
•
At cell i: WUAi = HSIi x Pixel Area
WUA = ∑ WUAi
Calculate WUA for each discharge (Q)
Plot WUA vs Q
p. 4-17
2D PHYSICAL HABITAT ANALYSIS
% of area
Habitat Quality Bins By Discharge
HHSI Bins
©2012 Pasternack & Wheaton
p. 4-18
9
2D PHYSICAL HABITAT ANALYSIS
EI Use For Any Polygonal Object
• Microhabitat analysis uses habitat quality bins.
• Can also use EI to test biological occurrence in
–
–
–
–
–
–
–
Segment-scale inundation zones
Reaches
Morphological units (overall and by MU size)
Mesohabitat patch size
Scour/deposition patches
Distance bands
Longitudinal rectangles (from box-counting method)
p. 4-19
2D PHYSICAL HABITAT ANALYSIS
Morphological Unit EI Analysis
p. 4-20
©2012 Pasternack & Wheaton
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2D PHYSICAL HABITAT ANALYSIS
Chinook Spawning Preference For MU Size
(100’x650’)
(100’x250’)
(100’x450’)
(100’x100’)
Strongest Pref
Small RTs
Medium Riffles
Large Runs
p. 4-21
2D PHYSICAL HABITAT ANALYSIS
Mesohabitat Patch Size Preference
(100’x500’)
Chinook spawning
(320’x500’)
p. 4-22
©2012 Pasternack & Wheaton
11
2D PHYSICAL HABITAT ANALYSIS
Nonrandom Longitudinal Distribution
Redd occurrence is
skewed upstream
p. 4-23
2D PHYSICAL HABITAT ANALYSIS
Do redds repeatedly prefer and avoid the
same 400’ sections from year to year?
% of 2009-2010 redds at location xi
7
6
y = 0.9389x + 0.0222
R² = 0.83613
5
4
3
2
1
0
0
©2012 Pasternack & Wheaton
1
2
3
4
% of 2010-2011 redds at location xi
5
6
p. 4-24
12
2D PHYSICAL HABITAT ANALYSIS
Physical Habitat Prediction
for River Rehabilitation
D1
D2
D3
D4
D5
D6
Do high or low
relief riffle-pool
units yield
more spawning
and rearing
habitat?
p. 4-25
2D PHYSICAL HABITAT ANALYSIS
2D Model Predictions of Habitat Quality
p. 4-26
©2012 Pasternack & Wheaton
13
2D PHYSICAL HABITAT ANALYSIS
Areas of Habitat Quality Bins Compared
p. 4-27
2D PHYSICAL HABITAT ANALYSIS
Gravel Addition Efficiency Metrics
p. 4-28
©2012 Pasternack & Wheaton
14
2D PHYSICAL HABITAT ANALYSIS
Summary of Design Performance Metrics
Low-relief riffle-pool units work best
p. 4-29
2D PHYSICAL HABITAT ANALYSIS
BIOENERGETICS MODEL:
Consumption = Growth + Respiration + Egestion + Excretion
Field Measurements
Function of Temperature
Determined from laboratory
studies
• Isolates consumption on
growth…
From Nick Bouwes & Eric Wall
Foraging Model from Hayes et al. (2000)
©2012 Pasternack & Wheaton
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2D PHYSICAL HABITAT ANALYSIS
NET RATE OF ENEGY INTAKE – Bioenergetics
• 2D Hydraulic
Model
• Foraging
Model (Hayes)
• Drift Model
• Bioenergetics
Model
• Combine to
look at NREI
From Nick Bouwes & Eric Wall
2D PHYSICAL HABITAT ANALYSIS
NET RATE OF ENEGY INTAKE – Bioenergetics
What happens
when you change
physical habitat?
From Nick Bouwes & Eric Wall
©2012 Pasternack & Wheaton
16