2004
DOI: 10.1002/rra.748
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Application of a 2D hydrodynamic model to design of reach‐scale spawning gravel replenishment on the Mokelumne River, California

Abstract: In-stream chinook salmon (Oncorhynchus tschawytscha) spawning habitat in California's Central Valley has been degraded by minimal gravel recruitment due to river impoundment and historic gravel extraction. In a recent project marking a new direction for spawning habitat rehabilitation, 2450 m 3 of gravel and several boulders were used to craft bars and chutes. To improve the design of future projects, a test was carried out in which a commercial modelling package was used to design and evaluate alternative gra… Show more

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Cited by 150 publications
(146 citation statements)
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“…[13] The two-dimensional finite element surface water modeling system (FESWMS) was used to analyze depth-averaged hydrodynamics following the approach of Pasternack et al [2004]. FESWMS solves the vertically integrated conservation of momentum and mass equations using a finite element method to acquire depth averaged 2D velocity vectors and water depths at each node in a finite element mesh.…”
Section: Two-and Three-dimensional Modelingmentioning
confidence: 99%
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“…[13] The two-dimensional finite element surface water modeling system (FESWMS) was used to analyze depth-averaged hydrodynamics following the approach of Pasternack et al [2004]. FESWMS solves the vertically integrated conservation of momentum and mass equations using a finite element method to acquire depth averaged 2D velocity vectors and water depths at each node in a finite element mesh.…”
Section: Two-and Three-dimensional Modelingmentioning
confidence: 99%
“…Casulli and Zanolli, 2002;MacWilliams, 2004;Froehlich, 1989;Pasternack et al, 2004]. For this application, the models were validated using field data collected by Keller [1969] to the extent possible recognizing the technological limitations and differing purpose of the original work.…”
Section: Model Validationmentioning
confidence: 99%
“…Tonina and Jorde (2013) [99] reviewed the application of 1D, 2D, and 3D hydraulic models for ecohydraulic studies; in addition to non-numerical models. Hydraulic 2D models based on the depth-averaged St. Venant equation are useful for restoration providing design information in both the longitudinal and lateral dimensions [100][101][102]. The River2D model also includes a habitat subroutine computing WUAs based on species preference relationships at each user-defined flow cell [103,104].…”
Section: Hydraulic Habitat Modelingmentioning
confidence: 99%
“…Restoring stream habitat based on geomorphic classification of stream reaches can be limiting [29], but coupled with a hydraulic habitat model, species trait-based HSC can be incorporated into restoration design. In general, ecohydraulic models have been used in restoration projects, but their use is minor when considered with the number of projects constructed each year using the NCD method [19,91,102,[110][111][112].…”
Section: Hydraulic Habitat Modelingmentioning
confidence: 99%
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