Collaborations

The National Sedimentation Laboratory has a long and productive history of collaborative research involving stakeholders.

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Current collaborators and projects:

CLEMSON UNIVERSITY, CLEMSON, SC

RUSLE2 Execution Parameters Database Updates

GEOLOGICAL SURVEY, UNITED STATES DEPARTMENT O, NASHVILLE

Strategic Investigations to Improve Water Quality and Ecosystem Sustainability in Agricultural Landscapes

LOUISIANA STATE UNIVERSITY, BATON ROUGE, LA

Analyses and Tools for Sonar-Derived Data of River Flow and River Bottom Geomorphology

Analyses of USDA Flood Control Reservoir Sedimentation

MIDDLE TENNESSEE STATE UNIVERSITY, MURFREESBORO, TN

RUSLE2 c~Climate Database Updates

Assessment of Conservation Practice Impacts on Water and Sediment Loads Using Enhanced USDA Field and Watershed Management Planning Technology

Development and Enhancement of USDA-ARS AnnAGNPS Watershed Technology

MISSISSIPPI STATE UNIVERSITY, MISSISSIPPI STATE, MS

Autonomous Irrigation of Cover-Crop-Production Systems Reduces Pollutant Loss from Farm Fields, Transport of Agrochemicals in Streams, and Aquifer

Sensible Agronomics and Shrewd Conversations Support the Adoption of Environmentally Sustainable and Economically Sound Production Systems

Long-Term Agroecosystem Research Network Common Experiment

Characterization of Existing Soil Conservation Practices Using Remote Sensing and Machine Learning

NATURAL RESOURCES CONSERVATION SERVICE, WASHINGTON, NE

RUSLE2 Development

Watershed Legacy Sediment Assessment

Assessing Conservation Practice Impacts on Reducing Soil Loss from Ephemeral Gullies within CEAP Watersheds

Assessing Conservation Practice Impacts on Freshwater Nutrient Cycling within CEAP Watersheds in Mississippi

Contribution of Legacy Phosphorus to Watershed Outcomes Phase 3- Stream Sediments

OHIO STATE UNIVERSITY, THE, COLUMBUS, OH

Eddy Covariance Assessments in the Lower Mississippi Basin Long-Term Agroecosystem Research site

SOUTH DAKOTA STATE UNIVERSITY, BROOKINGS, SD

Development of Novel Sensor System for Water Quality Analysis in Agricultural Watersheds

THE UNIVERSITY OF MISSISSIPPI, UNIVERSITY, MS

Computational Tools & Decision Support System Technologies for Agricultural Watershed Physical Processes, Water Quality and Ground Water Management

Measurement and Modeling of Groundwater Recharge in Agroecosystems

Wave Erosion Measurements for an Irrigation Reservoir Embankment

Investigating Groundwater Flow and Provenance Induced by Managed Aquifer Recharge Using Injection Wells

Experiments on Earthen Levee Breach by Overtopping

Groundwater and Soil Water Dynamics Modeling to Advance Erosion Prediction in Agricultural Fields

Laboratory Experiments and Numerical Simulations on Earthen Levee and Dam Breach

Computational Tools and Decision Support System Technologies for Agricultural Watershed Physical Processes

Utilizing Acoustic and Geophysics Technology to Assess and Monitor Watersheds in the United States

Utilizing Acoustic and Geophysics Technology to Assess and Monitor Watersheds in the United States

U.S. ENVIRONMENTAL PROTECTION AGENCY, WASHINGTON, DC

Assess Agricultural Conservation Practices to Reduce Nutrient Losses

UNIVERSITY OF ARKANSAS SYSTEM, PINE BLUFF, AR

Using Phytoremediation and Other Ecosystem Services to Address Emerging Contaminants in Agroecosystems

UNIVERSITY OF ILLINOIS, URBANA, IL

Mapping Erosion Risk of Legacy Sediments Stored in and near Streams

UNIVERSITY OF TEXAS AT ARLINGTON, ARLINGTON

Hydrological Modeling in Support of Lower Mississippi River Basin Long-Term Agroecosystem (LTAR) Research Studies

UNIVERSITY OF VERMONT & STATE AGRICULTURAL CO, BURLINGTON, VT

Assessment of Conservation Practice Impacts on Water, Phosphorus, and Sediment Loads in Vermont Using Enhanced Field and Watershed Management

USDA, NRCS, PR

RUSLE2 Development and Maintenance