EPIC/APEX Literature Database for Peer-Reviewed Journal Articles

Title:Nutrient delivery from the Mississippi River to the Gulf of Mexico and effects of cropland conservation 
Authors:White, M.J., C. Santhi, N. Kannan, J.G. Arnold, D. Harmel, L. Norfleet, P. Allen, M. DiLuzio, X. Wang, J. Atwood, E. Haney and M. Vaughn Johnson 
Year:2014 
Journal:Journal of Soil and Water Conservation 
Volume:69(1) 
Pages:26-40 
DOI:10.2489/jswc.69.1.26 
URL (non-DOI journals): 
Model:APEX & SWAT 
Broad Application Category:hydrologic & pollutant 
Primary Application Category:model interfaces 
Secondary Application Category:nutrient cycling and transport 
Watershed Description:3,220,000 Mississippi River Basin, which drains a small portion of Canada and much of the central U.S. 
Calibration Summary: 
Validation Summary: 
General Comments: 
Abstract:Excessive nutrients transported from the Mississippi River Basin (MRB) have created a hypoxic zone within the Gulf of Mexico, with numerous negative ecological effects. Furthermore, federal expenditures on agricultural conservation practices have received intense scrutiny in recent years. Partly driven by these factors, the USDA Conservation Effects Assessment Project (CEAP) recently completed a comprehensive evaluation of nutrient sources and delivery to the Gulf. The modeling framework used in the CEAP Cropland National Assessment, or Cropland CEAP, consists of the Agricultural Policy/Environmental eXtender (APEX) and Soil and Water Assessment Tool (SWAT) models. This CEAP modeling framework was successfully calibrated for flow, sediment, and nutrients at 38 sites and validated at an additional 17. Simulation results indicated that cultivated cropland was the dominant source of nitrogen (N) and phosphorus (P) to both local waters and the Gulf, but this was not true for each water resource region within the MRB. In addition, the results showed that point sources remain significant contributors of P loads, especially in the Tennessee and Arkansas/Red River basins where point source P loads exceeded those from cultivated cropland. Similarly, urban nonpoint sources were significant nutrient sources. The Upper Mississippi, Lower Mississippi, and Ohio basins contributed the largest amounts of nutrients delivered to the Gulf. The high delivery areas near the Mississippi River main stem, from which 87% of N and 90% of P was predicted to reach the Gulf, also coincided with elevated nutrient yields to local waters. Conservation practices established on agricultural lands within the MRB were predicted to have reduced nutrient loads to the Gulf by 20% as compared with a no conservation condition. The results indicate the importance of targeted implementation of conservation practices and consideration of local water and/or Gulf impacts depending on program goal(s). The present application illustrates the value of the Cropland CEAP modeling framework as a useful, science-based tool to evaluate pollutant sources and delivery and effects of agricultural conservation practices. 
Language:English 
Keywords:conservation, Conservation Effects Assessment Project, Gulf of Mexico, Soil and Water Assessment Tool, Mississippi, nutrient