Outputs from hydrodynamic simulations of flows between 185-635 cms at 30 cms increments for the Upper Missouri River near Wolf Point, MT
Dates
Publication Date
2024-01-16
Start Date
2018-06-06
End Date
2019-07-05
Citation
Call, B.C., Erwin, S.O. and Bulliner, E.A., 2024, Supporting files for particle tracking simulations of the Upper Missouri River near Wolf Point, MT: U.S. Geological Survey data release, https://doi.org/10.5066/P975PH68.
Summary
This dataset contains two- and quasi-three-dimensional hydrodynamic model outputs from the Flow and Sediment Transport with Morphologic Evolution of CHannels (FaSTMECH) hydrodynamic model in the open-source binary Visualization Toolkit (VTK) format (https://vtk.org/). The simulations were run at flows in the range of 185-635 cms at increments of 30 cms. This set of flow conditions pertains to the base lateral eddy viscosity scenario referred to as LEVx1 in Call et al., 2023. Files can be opened using the open-source software program Paraview: (https://www.paraview.org/).
Summary
This dataset contains two- and quasi-three-dimensional hydrodynamic model outputs from the Flow and Sediment Transport with Morphologic Evolution of CHannels (FaSTMECH) hydrodynamic model in the open-source binary Visualization Toolkit (VTK) format (https://vtk.org/). The simulations were run at flows in the range of 185-635 cms at increments of 30 cms. This set of flow conditions pertains to the base lateral eddy viscosity scenario referred to as LEVx1 in Call et al., 2023. Files can be opened using the open-source software program Paraview: (https://www.paraview.org/).
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ReachComparison_hydro.xml Original FGDC Metadata
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Related External Resources
Type: Related Primary Publication
Call, B.C., McDonald, R.R., Erwin, S.O., and Jacobson, R.B., The influence of channel morphology and hydraulic complexity on larval pallid sturgeon (Scaphirhynchus albus) drift and dispersal dynamics in the Fort Peck Segment, Upper Missouri River: insights from particle tracking simulations: Journal of Ecohydraulics, p. 1-29. https://doi.org/10.1080/24705357.2024.2312837.
Hydrodynamic and particle tracking models were developed as part of a larger effort to better understand the larval drift and dispersal of endangered Pallid sturgeon (Scaphirhynchus albus) in the Upper Missouri River.
