Location: Southeast Watershed Research2011 Annual Report
1a. Objectives (from AD-416)
Evaluate FGD gypsum influences soil physical properties and losses of P from poultry litter on pastures (Watkinsville and Auburn) and crop land (Oxford). The research would help establish proper combinations of rates of FGD gypsum and poultry litter to reduce losses of P in runoff and improve soil productivity and provide documentation of water quality improvements associated with FGD gypsum needed to help qualify practices for use as a BMP and water quality improvement credits.
1b. Approach (from AD-416)
Watkinsville and Auburn– FGD gypsum and poultry litter will be applied at four rates (0, 2, 4, 6 Mg ha-1) to bermudagrass pasture to evaluate changes in available soil P over three years. Use of similar treatments at Auburn and Watkinsville is to evaluate differences in treatment effects associated with differences in soil and climate at the two locations. FGD gypsum and poultry litter would be applied annually and measurements of soil P fractions (Total P, water soluble P, Mehlich P, and organic P) would be made at 6 month intervals. Soil aggregate stability would be measured yearly to evaluate impacts of FGD gypsum on soil structural stability. In addition we would evaluate FGD gypsum and poultry litter effects on forage production and quality along with the potential for nutrient removal by grazing and haying which is important for management of high P soils. Forage would be harvested at regular intervals to simulate haying and evaluated for P content (P removal) and forage quality. Results would establish potential for using FGD gypsum as an amendment to increase poultry litter application rates and improve water use efficiency on pasture and hay land. Oxford - Two studies will be conducted at the Northeast Mississippi Experiment Station at Verona. In one study, we will evaluate the effects of FGD gypsum on an existing set of no-till cotton plots. FGD gypsum application rates of 0, 1, 1.5, 2, and 3 tons/acre would be applied on a replicated plot experiment. The other study will evaluate the effects of tillage-gypsum interactions on soybean yields. The three tillage treatments are no-till, fall chisel-harrow, and conventional. Plot sizes, gypsum application rates, and replications are identical to those for no-till cotton. Crop yields will be measured by the experiment station personnel responsible for all agronomic practices. Following harvest each growing season, soil cores will be collected to a depth of 36 inches from each plot and characterized for water dispersible clay as a measure of erodibility, particle size distribution, organic carbon content, pH, exchangeable Al, exchangeable bases, total calcium, sulfur, nitrogen, and phosphorus.
3. Progress Report
This project contributes to research objective 1 of this in-house project: Develop and document crop and animal production practices that improve productivity and benefit natural resources by improving soil and water management and nutrient cycling. This cooperative project with the Tennessee Valley Authority investigates the effects of flue gas desulfurized gypsum (FGD-gypsum) on forage production, soil properties, and movement of phosphorus in association with land applications of poultry litter as a source of nutrients for piedmont soils. The overall project involves three Agricultural Research Service (ARS) locations (Auburn, Alabama, Oxford, Mississippi, and Watkinsville, Georgia). The United States Environmental Protection Agency’s (USEPA) Office of Resource Conservation and Recovery is cooperating in the project for risk assessment In 2011 we contributed to a risk assessment for FGD-gypsum in cooperation with USEPA. We also conducted the 3rd year rainfall simulations and are in the process of analyzing samples and data from the simulation. We continue to cooperate with ARS’ Environmental Management and Byproducts Utilization Laboratory. Annual reports were given to participating utilities and USEPA.