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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 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 cross-sectionally averaged flow metrics from measurements made with acoustic Doppler current profilers (ADCP) on the Missouri River near Wolf Point, MT during 2018 and 2019. Each data point represents a single-pass measurement with a boat-mounted ADCP driven from bank-to-bank along lateral transects spaced ~15 meters apart along a 33 kilometer reach. The measurements were collected as part of a bathymetric survey in which two USGS survey boats were each mounted with an ADCP and single beam echosounder that were deployed simultaneously. Cross-sectionally averaged flow metrics such as velocity, depth, and temperature along with the total measured discharge and starting coordinate of the measurement...
Categories: Data;
Types: Downloadable,
Map Service,
OGC WFS Layer,
OGC WMS Layer,
Shapefile;
Tags: Geomorphology,
Hydrology,
Missouri River,
Missouri river basin,
Montana,
This dataset contains processed simulation results and field data of a larval drift experiment conducted on July 1, 2019, on the Upper Missouri River.
This dataset contains hydrodynamic metrics from 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 outputs from the simulation of a larval drift experiment conducted on July 1, 2019, on the Upper Missouri River near Wolf Point, MT using a one-dimensional advection-dispersion model. The model used to perform simulations was developed by the US Army Corps of Engineers (USACE) for the Upper Missouri River and several major tributaries in HecRAS (Fischenich, Reynolds, and Halteman 2021; Fischenich et al. 2018). Fischenich, J.C., Robert McComas, Donald Meier, Jeffery Tripe, Daniel Pridal, Paul Boyd, Standford Gibson, John Hickey, Thomas Econopouly, and Larry Strong. 2018. Habitat Analyses for the Missouri River Effects Analysis. U.S. Army Corps of Engineers, Engineer Research and Development...
This dataset contains retention and transport time metrics from 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 cubic meters per second (cms) at increments of 30 cms. Simulations were performed in each reach for all 16 flows for a combination of 1 of 3 vertical movement methods (passive, active60pct, and active75pct)* and 1 of 3 lateral eddy viscosity (LEV) scenarios (0.5, 1, and 2 times the base value, referred to as LEVx0p5, LEVx1, or LEVx2, respectively), resulting in 288 total simulations....
This dataset includes 3 velocity measurements in 3 locations collected with a Nortek Aquadopp mounted near the bed of the Missouri River in three different locations at Searcys Bend (SB) near Huntsdale, Missouri. The measurements contain near-bed measurements of water velocity. The discharge at the U.S. Geological Survey Streamflow gaging station 06909000 fifteen miles upstream at Boonville, Missouri on September 16, 2021 was 1,291 cubic meters per second.
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/).
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