Submitted to: Nonpoint Source Water Quality Monitoring Results Workshop
Publication Type: Abstract Only
Publication Acceptance Date: July 7, 2008
Publication Date: September 18, 2008
Citation: Fausey, N.R., Pitts, D., Jaynes, D.B. 2008. Agricultural Drainage Water Management in the Upper Mississippi River Basin: Potential Impact and Implementation Strategies. Nonpoint Source Water Quality Monitoring Results Workshop. Meeting Abstract. Technical Abstract: The unique soil and climate of the Upper Mississippi River Basin area provide the resources for bountiful agricultural production. Agricultural drainage (both surface and subsurface drainage) is essential for achieving economically viable crop production and management. Drainage practices alter the hydrology; shortening the travel distance and travel time for precipitation to move from the landscape into the stream networks, and increasing the volume of water moving to the streams. Consequently the water interacts less with the mineral and organic components of the soil profile and there is less opportunity for biological and chemical interactions to process dissolved nutrients carried with the drainage water to the streams. Historically these drainage systems were managed as free drainage systems allowing all the water that reached the drain to flow freely to the receiving stream. The advent of the concept of drainage water management has provided new management strategies for drainage water that have shown significant beneficial environmental impact in research studies. These benefits are being quantified, tested, and demonstrated at the field scale across the Upper Mississippi River Basin through an NRCS Conservation Innovation Grant. NRCS has developed a tool for assessing where to drainage water management can be implemented. Educational programs are being offered on design of these systems, and cost sharing is available in some states to incentivize both installation and management.