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Last modified
1/26/2010 4:15:49 PM
Creation date
4/22/2007 10:20:58 AM
Metadata
Fields
Template:
Water Supply Protection
File Number
8230.400.21.B.6
Description
CO River Lit - Div 4 Water Court - Steamboat RICD - Water Court Filing - Expert Reports
State
CO
Basin
Colorado Mainstem
Water Division
5
Date
11/1/1998
Author
Various
Title
Expert Reports 1998-2005 - RE-Steamboat RICD - Case Number 03-CW-86 - 11-01-98 through 08-17-05
Water Supply Pro - Doc Type
Report/Study
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<br />. <br /> <br />. <br /> <br />. <br /> <br />002941 <br /> <br />Table 2. Criteria used to determine minimum flow requirements using R2CROSS single transect <br />method (Nehring 1979). <br /> <br />Stream Top Average Percent Wetted Average <br />Width (ft) I Depth (ft) Perimeter (%) 2 Velocity (ft/sec) <br /> (xd ) (% WP) (xv ) <br />1-20 0.2 50 1.0 <br />21-40 0.2-0.4 50 1.0 <br /> . <br />41-60 0.4-0.6 50-60 1.0 <br />61-100 0.6-1.0 ?70 1.0 <br /> <br />1 At bankfull discharge. <br />2 Percent of bankfull wetted perimeter. <br /> <br />Instream Flow Incremental Methodology (IFIM) <br />and the Physical Habitat Simulation System (PHABSIM) <br />IFIM is an incremental problem solving approach based upon systems analysis techniques <br />(Stalnaker et al. 1995). PHABSIM is a specific model designed to calculate an index of the amount <br />of microhabitat available for different life stages at different flow levels (Stalnaker et al. 1995, <br />Milhous et al. 1989). The IFIM methodology is coupled with the PHABSIM model to generate a <br />habitat-discharge relationship (Figure 2). Habitat area is expressed in dimensionless units called <br />"Weighted Usable Area". The relationship between Weighted Usable Area and discharge is used <br />to predict changes in habitat under various streamflow scenarios. The IFIM approach is commonly <br />used in 38 states (Figure 1) and it is the preferred method for developing instream flow <br />recommendations in 24 states (Reiser et. al 1989). <br /> <br />IFIM/PHABSIM is a very flexible modeling tool. The methodology supports the use of at <br />least three separate hydraulic models. This flexibility allows the model to predict instream hydraulic <br />parameters in a variety of stream habitat-types including, but not limited to, riffles, runs, pools, and <br />glides. <br /> <br />Habitat modeling in PHABSIM is based on habitat suitability curves. Habitat suitability <br />curves are estimated species responses to instream hydraulic variables that have been normalized <br />into a response curve. Suitability curves have been developed to reflect flow-related, instream <br />hydraulic requirements for most lifestages of warmwater, coolwater, and coldwater fish species, <br />aquatic invertebrate species, and many other instream values, e.g. rafting and wading flows. In <br />addition, site-specific habitat suitability curves can be developed for practically any aquatic species <br />or instream value of interest. Consequently, IFIM/PHABSIM can be used to predict changes in <br />almost any environmental parameter that can be quantified in the form of a flow-dependent <br /> <br />7 <br />
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