206-4 Using a Spreadsheet Model to Predict Annual, Field-Scale Phosphorus Loss and to Evaluate P Indexes.



Tuesday, October 18, 2011: 9:55 AM
Henry Gonzalez Convention Center, Room 217A, Concourse Level

Peter Vadas, USDA-ARS Dairy Forage Research Center, Madison, WI and Carl Bolster, Animal Waste Management Research Unit, USDA-ARS, Bowling Green, KY
Non-point source pollution of fresh waters by P is a concern because it contributes to accelerated eutrophication. Given the state of the science concerning agricultural P transport, a simple tool to quantify annual, field-scale P loss is a realistic goal. We developed new methods to predict annual dissolved P loss in runoff from surface-applied manures and fertilizers and validated the methods with data from 21 published field studies. We incorporated these manure and fertilizer P runoff loss methods into an annual, field-scale P loss quantification tool that estimates dissolved and particulate P loss in runoff from soil, manure, fertilizer and eroded sediment. We validated the P loss tool using independent data from 28 studies that monitored P loss in runoff from a variety of agricultural land uses for at least one year. Results demonstrated i) that our new methods to estimate P loss from surface manure and fertilizer are an improvement over methods used in existing Indexes, and ii) that it was possible to reliably quantify annual dissolved, sediment, and total P loss in runoff using relatively simple methods and readily available inputs. Thus, a P loss quantification tool that does not require greater degrees of complexity or input data than existing P Indexes could accurately predict P loss across a variety of management and fertilization practices, soil types, climates, and geographic locations. 
See more from this Division: ASA Section: Environmental Quality
See more from this Session: Symposium--Evaluation and Validation of Phosphorus Indices: Part I