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The consists of longitudinal water surface profiles collected in a 10-km reach of the Missouri River at Sheepnose Bend downstream from Lexington, Missouri. Water surface elevation profiles were generated from data collected by USGS staff from the Columbia Environmental Research Center during multibeam sonar surveys of the channel bed in 2019, 2020, and 2021.
This dataset consists of a point shapefile with depth, velocity magnitude, XY velocity vector components, and vector angles from outputs of a two-dimensional hydrodynamic model of the Missouri River at Searcys Bend near Huntsdale, Missouri. The model was run at a discharge of 1,291 cubic meters per second (m3/s) to reflect average flow conditions on September 16, 2021, as measured by the U.S. Geological Survey’s Missouri River gaging station at Boonville, Missouri (USGS Gage 06909000). The simulation was run using the Flow and Sediment Transport with Morphologic Evolution of CHannels (FaSTMECH) hydrodynamic model within the International River Interface Cooperative (iRIC) software package (www.i-ric.org). Required...
This dataset contains the particle starting locations for particle tracking simulations of the Searcys Bend dye release experiment using the “Fluvial Particle” particle tracking model. This file was generated to approximate the location and distribution of dye as observed in the first aerial image captured 3.5 minutes following the dye release. Although the total number of particles simulated is 1,500,000, simulations were run using a parallel version of the Lagrangian particle tracking algorithm distributed across 120 computational processing units (CPUs). Therefore, the file provides the location information for 12,500 particles (1,500,000 / 120 = 12,500). The file was created by georeferencing a line laterally...
This dataset contains a series of processed acoustic Doppler current profiler (ADCP) measurements collected by boat on the Missouri River at Searcys Bend near Columbia, Missouri on May 5, 2021, during a dye release experiment at the site. The data presented here have been processed with the Velocity Mapping Toolbox (VMT) and combined into a single shapefile using ArcGIS. The dataset was collected to validate a multidimensional hydrodynamic model.
This project contains data and supporting files from hydrodynamic and particle tracking models of the Missouri River at Searcys Bend developed in conjunction with an experimental dye release at the study site on March 5, 2021. The main objectives of this effort were to develop a hydrodynamic model using topographic and flow data collected in the field for subsequent use in a particle tracking model to simulate dye dispersion during the experiment.
The dataset contains data collected with an acoustic Doppler current profiler (ADCP) for a reach of the Missouri River at Sheepnose Bend downstream from Lexington, Missouri. Velocity data was collected using a TeleDyne Marine RD Instruments (Poway, California) Rio Grande Workhorse 600 kilohertz ADCP on June 4, 2020. Positioning used a Trimble Real-Time-Kinematic Global Navigation Satellite System. This data release consists of one shapefile with depth-averaged velocity magnitude and direction data and 40 text files that contain processed ascii velocity data exported from WinRIver II, Teledyne Marine RD Insturments (Poway, California) ADCP software.
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/).
These two datasets contain metrics from hydrodynamic and particle tracking simulations for two sub-reaches of the Upper Missouri River near Wolf Point, MT. The upstream reach is referred to as the “upper” reach while the downstream reach is referred to as the “lower” reach. Simulations were performed for 16 flows in the range of 185-635 cms at increments of 30 cms.
This dataset contains four animations of particles generated for each of the particle tracking simulations of the Searcys dye release experiment corresponding to multiples of 0.5, 1, 2, and 4 of the calculated lateral eddy viscosity (LEV) parameter value. Animations were generated for both the entire reach and for a smaller spatial extent around fluorometer station 3.
These three datasets are derived outputs from Lagrangian particle-tracking (LPT) simulations developed for Searcys Bend. The dataset "LPT_Animations" contains animations of particle tracking simulations, the dataset "LPT_Breakthrough_Curves" contains breakthrough curves of particle tracking simulations at various sampling locations, and the dataset "LPT_Gridded_Outputs" contains raster grids of particle counts corresponding to times that aerial imagery was collected during the dye release experiment.
This dataset contains particle starting location files for particle tracking simulations of the Upper Missouri River near Wolf Point, MT using the “Fluvial Particle” particle tracking model (https://doi.org/10.5066/P9K1U4O0). The file “DriftExperiment_StartLocations_n30000.csv” corresponds to particle simulations of a July 1, 2019, larval drift experiment. This file is configured to simulate 30,000 particles run in serial (i.e., 30,000 particles run on a single CPU). The files “ReachComparison_StartLocations_Lower_n250.csv” and “ReachComparison_StartLocations_Upper_n250.csv” correspond to particle simulations comparing the upper and lower sub-reaches of the larger model reach. Each of these simulations also used...
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...
This dataset contains shapefiles for three longitudinal water surface elevation profiles collected by boat on the Upper Missouri River near Wolf Point, MT between June 2018 and July 2019. The dataset was collected to calibrate a multidimensional hydrodynamic model.
This project includes field data and data supporting models of the Missouri River at Sheepnose (SN) bend, near Lexington, Missouri. Field datasets include a topobathymetric digital elevation model (DEM) for a 10-km reach of the Missouri River, repeat surveys of channel bathymetry from 2019-2021, water surface elevation profiles, velocity data collected with acoustic Dopper current profiler (ADCP). Channel topography was generated from data collected by USGS staff from the Columbia Environmental Research Center during multibeam sonar surveys of the channel bed using a multibeam echosounder and high-resolution Global Navigation Satellite Systems for positioning. Field data was used to generate and validate both 2-dimensional...
The dataset contains a hybrid bathymetric-topographic digital elevation model (DEM) of the Upper Missouri River near Wolf Point, MT. The DEM was generated within ArcGIS by compositing bathymetric data from multiple single beam sonar surveys collected between June 2018 and July 2019 with previously existing topographic data collected from airborne LiDAR into a triangulated irregular network (TIN). The resulting TIN was then manually edited and exported as a raster for use in developing a hydrodynamic model.
This dataset contains two-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...
This dataset contains two subsets of animations corresponding to particle tracking simulations of the Upper Missouri River near Wolf Point, MT comparing larval transport through the upper and lower sub-reaches of the larger model reach. Animations do not contain audio and depict particles moving from the top of the reach (left side) to the bottom of the reach (right side). A total of 96 animations are included corresponding to a combination of 1 of both reaches (upper or lower), 1 of 16 discharges (185-635 cms, at increments of 30 cms), and 1 of 3 vertical movement methods (active60pct, active75pct, or passive).
This dataset contains breakthrough curves calculated from particle tracking simulations of a July 1, 2019, larval drift experiment conducted on the Upper Missouri River near Wolf Point, MT. Breakthrough curves were generated using a custom script written in the Python programming language that counts the number of particles per time step passing through sampling locations. Breakthrough curves were generated for particles using passive, active75pct, and active60pct vertical movement methods at the first two sampling stations downstream of the release location.
This dataset contains a series of processed acoustic Doppler current profiler (ADCP) measurements collected by boat on the Upper Missouri River near Wolf Point, Montana between 2018 and 2019. The data presented here have been processed with the Velocity Mapping Toolbox (VMT) and combined into a single shapefile using ArcGIS. The dataset was collected to validate a multidimensional hydrodynamic model.
These two datasets each contain the two-dimensional and 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.
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