Quantifying habitat benefits of channel reconfigurations on a highly regulated river system, Lower Missouri River, USA-Data
April 5, 2017
Data set contains depth and velocity grids generated from hydrodynamic model (SRH-2D) simulations run for a range of discharges. Date range corresponds to month(s) that bathymetric survey was performed. Three study reaches were considered in this analysis: the Fairview reach of the Yellowstone River, MT, the Miami and Lisbon-Jameson reaches of the Lower Missouir River. Data and application are described in detail in accompanying journal article (Erwin et al., 2017)
Citation Information
| Publication Year | 2017 |
|---|---|
| Title | Quantifying habitat benefits of channel reconfigurations on a highly regulated river system, Lower Missouri River, USA-Data |
| DOI | 10.5066/F7TB154R |
| Authors | Susannah O Erwin |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Columbia Environmental Research Center |
| Rights | This work is marked with CC0 1.0 Universal |
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Quantifying habitat benefits of channel reconfigurations on a highly regulated river system, Lower Missouri River, USA
We present a quantitative analysis of habitat availability in a highly regulated lowland river, comparing a restored reach with two reference reaches: an un-restored, channelized reach, and a least-altered reach. We evaluate the effects of channel modifications in terms of distributions of depth and velocity as well as distributions and availability of habitats thought to be supportive...
Authors
Susannah O. Erwin, Robert B. Jacobson, Caroline M. Elliott
Related
Quantifying habitat benefits of channel reconfigurations on a highly regulated river system, Lower Missouri River, USA
We present a quantitative analysis of habitat availability in a highly regulated lowland river, comparing a restored reach with two reference reaches: an un-restored, channelized reach, and a least-altered reach. We evaluate the effects of channel modifications in terms of distributions of depth and velocity as well as distributions and availability of habitats thought to be supportive...
Authors
Susannah O. Erwin, Robert B. Jacobson, Caroline M. Elliott