This dataset contains animations of particle tracking of the July 1, 2019, larval drift experiment on the Upper Missouri River near Wolf Point, MT. 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 9 animations are included with each corresponding to the combination of 1 of 3 vertical movement methods (active60pct, active75pct, or passive) and 1 of 3 lateral eddy viscosity scenarios (LEVx0p5, LEVx1, or LEVx2).

This dataset contains animations of particle tracking of the July 1, 2019, larval drift experiment on the Upper Missouri River near Wolf Point, MT. 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 9 animations are included with each corresponding to the combination of 1 of 3 vertical movement methods (active60pct, active75pct, or passive) and 1 of 3 lateral eddy viscosity scenarios (LEVx0p5, LEVx1, or LEVx2).

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 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 Center. https://usace.contentdm.oclc.org/utils/getfile/collection/p16021coll7/id/8074. Fischenich, J.C., Sara A. Reynolds, and Philip Halteman. 2021. Fort Peck EIS Alternative effects on pallid sturgeon: Model documentation and study report. U.S. Army Corps of Engineers, Omaha District. https://usace.contentdm.oclc.org/utils/getfile/collection/p16021coll7/id/8074.

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 Center. https://usace.contentdm.oclc.org/utils/getfile/collection/p16021coll7/id/8074. Fischenich, J.C., Sara A. Reynolds, and Philip Halteman. 2021. Fort Peck EIS Alternative effects on pallid sturgeon: Model documentation and study report. U.S. Army Corps of Engineers, Omaha District. https://usace.contentdm.oclc.org/utils/getfile/collection/p16021coll7/id/8074.

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 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 two subsets of animations corresponding to particle tracking simulations of the Upper Missouri River near Wolf Point, MT. 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). The first subset are animations from simulations of a July 1, 2019, larval drift experiment. A total of 9 animations are included with each corresponding to the combination of 1 of 3 vertical movement methods (active60pct, active75pct, or passive) and 1 of 3 lateral eddy viscosity scenarios (LEVx0p5, LEVx1, or LEVx2). The second subset contains animations corresponding to particle simulations for the upper and lower sub-reaches of the larger model reach. 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 supporting files for particle tracking simulations of the Upper Missouri River near Wolf Point, MT.

This dataset contains supporting files for particle tracking simulations of the Upper Missouri River near Wolf Point, MT.