2008 Joint Meeting of The Geological Society of America, Soil Science Society of America, American Society of Agronomy, Crop Science Society of America, Gulf Coast Association of Geological Societies with the Gulf Coast Section of SEPM

Paper No. 4
Presentation Time: 8:55 AM

Nutrient Reduction by Year Round Land Application of Secondary Effluent


PARIZEK, Richard R., Department of Geosciences, The Pennsylvania State University, 340 Deike Bldg, University Park, PA 16802, parizek@ems.psu.edu

Penn State conducted its land application research project during 1963-1974 using 20 percent of its secondary effluent and up to15,141 m³/d by 1983 at a design rate of 5.0 cm/wk. Some groundwater nitrate values exceeded the 10 mg/l limit within a 2-to 6-year period. An interdisciplinary committee was appointed to develop a management strategy to bring nitrate into compliance. This required a 2-to 10-year period. Four methods were used to document nitrate removal. 1. Reductions in nitrate concentrations in stormwater runoff. 2. Comparison of applied effluent v nitrate concentrations in up-and down- gradient monitoring wells. 3. Flow and transport simulations. 4. Lysimeter studies in woodlots that showed that 90.72 kg of N could be removed within irrigated woodland given a 4-month rest period. Monitoring well v applied effluent (9.99 mg/l mean) data showed nitrate reduction of 2.47 to 4.17 mg/l for woodlots and 1.70 to 13.5 mg/l for a combination of cropland and woodlots. Nitrate was reduced by 21.4 to 58.7 percent and phosphorous (3.25 mg/l mean) by 14.8 to 99.3 percent. Transport model simulations predicted nitrate concentrations of 4 to 16 mg/l depending upon input values assumed.

Multiple lines of evidence indicate that groundwater nitrate concentration can be maintained at < 10 mg/l under the current management strategy provided that total N in applied effluent does not exceed 20 mg/l, the 5.0 cm/wk application rate is maintained on a year around basis, biomass is removed, and physical-chemical soil properties are maintained.