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 348 cms as measured on July 1, 2019, during a larval drift experiment conducted on the Upper Missouri River near Wolf Point, MT. Three different variations of the model were run at multiples of 0.5, 1, and 2 times the calculated lateral eddy viscosity (LEV) value to account for uncertainty in this parameter. These are labeled as LEVx0p5, LEVx1, and LEVx2 respectively. Files can be opened using the open-source software program Paraview: (https://www.paraview.org/).

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/).

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/).

This dataset contains two separate sets 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 first dataset set contains outputs from simulations of flow conditions of 348 cms as measured on July 1, 2019, during a larval drift experiment conducted on the Upper Missouri River near Wolf Point, MT. The second dataset contains hydrodynamic model outputs from simulations at the same site for flows in the range of 185-635 cms at increments of 30cms. Files can be opened using the open-source software program Paraview: (https://www.paraview.org/).

This dataset contains two separate sets 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 first dataset set contains outputs from simulations of flow conditions of 348 cms as measured on July 1, 2019, during a larval drift experiment conducted on the Upper Missouri River near Wolf Point, MT. The second dataset contains hydrodynamic model outputs from simulations at the same site for flows in the range of 185-635 cms at increments of 30cms. Files can be opened using the open-source software program Paraview: (https://www.paraview.org/).

This file contains discharge, water surface elevation, roughness, and lateral eddy viscosity parameter values for flow simulations in the range of 185-635 cms (cubic meters per second), in increments of 30 cms, for the hydrodynamic model reach of the Upper Missouri River near Wolf Point, MT created using the Flow and Sediment Transport with Morphologic Evolution of CHannels (FaSTMECH) model.

This file contains discharge, water surface elevation, roughness, and lateral eddy viscosity parameter values for flow simulations in the range of 185-635 cms (cubic meters per second), in increments of 30 cms, for the hydrodynamic model reach of the Upper Missouri River near Wolf Point, MT created using the Flow and Sediment Transport with Morphologic Evolution of CHannels (FaSTMECH) model.

This dataset contains 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/) that are required to run simulations of the Searcys Bend dye trace experiment using the “Fluvial Particle” model. The outputs correspond to a modeled flow of 1631 cubic meters per second (cms) based on conditions at Searcys Bend on May 5, 2021, as measured by the U.S. Geological Survey’s Missouri River gaging station at Boonville, Missouri (USGS Gage 06909000). Four different variations of the model were run at multiples of 0.5, 1, 2, and 4 of the calculated lateral eddy viscosity (LEV) value to account for uncertainty in this parameter. Files can be opened using the open source programming Paraview: (https://www.paraview.org/).

This dataset contains 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/) that are required to run simulations of the Searcys Bend dye trace experiment using the “Fluvial Particle” model. The outputs correspond to a modeled flow of 1631 cubic meters per second (cms) based on conditions at Searcys Bend on May 5, 2021, as measured by the U.S. Geological Survey’s Missouri River gaging station at Boonville, Missouri (USGS Gage 06909000). Four different variations of the model were run at multiples of 0.5, 1, 2, and 4 of the calculated lateral eddy viscosity (LEV) value to account for uncertainty in this parameter. Files can be opened using the open source programming Paraview: (https://www.paraview.org/).

This dataset contains 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/) that are required to run simulations of the Searcys Bend dye trace experiment using the “Fluvial Particle” model. The outputs correspond to a modeled flow of 1631 cubic meters per second (cms) based on conditions at Searcys Bend on May 5, 2021, as measured by the U.S. Geological Survey’s Missouri River gaging station at Boonville, Missouri (USGS Gage 06909000). Four different variations of the model were run at multiples of 0.5, 1, 2, and 4 of the calculated lateral eddy viscosity (LEV) value to account for uncertainty in this parameter. Files can be opened using the open source programming Paraview: (https://www.paraview.org/).