Long-Term Trends in Phosphorus Leaching Following Phosphorus Fertilization Drawdown.
Poster Number 1302
Tuesday, November 5, 2013
Tampa Convention Center, East Hall, Third Floor
Annika Svanbäck1, Barbro Ulén2, Lars Bergström2 and Peter J.A. Kleinman3, (1)Soil and Environment, Swedish University of Agricultural Sciences, Uppsala, Sweden (2)Department of Soil and Environment, Swedish University of Agricultural Sciences, Uppsala, Sweden (3)Pasture Systems and Watershed Management Research Unit, USDA-ARS, University Park, PA
The risk of phosphorus (P) leaching from the topsoil has been demonstrated to increase with increasing P content measured as ammonium lactate extractable P (P-AL). Few mitigation strategies are effective for soils with high soil test P and high leaching losses. Extraction of soil P by crop harvesting without P fertilization has been suggested as a method to reduce the risk of P leaching. According to Swedish recommendations, only a limited number of crops should be fertilized with P when grown on soils with high P-AL values (>120 mg kg-1), and then at moderate rates.
The aim of this study was to investigate if absence of P fertilization in combination with crop harvesting, could reduce P-AL over time, and thereby reduce P leaching. Lysimeters (1.18 m deep) representing four different soil types (loamy sand, sandy loam, silty clay loam and clay), with initial P-AL values between 77-431 mg kg-1, were used. The loamy sand, which had the highest P-AL value, received no P during 11 years and the others during 9 years. Phosphorus removal with harvested products declined during the study, although P-AL remained high and nitrogen and potassium were applied to the soil columns during the last years of the study. The reductions in P-AL were 11-37% between start and end of the experiment, with the smallest percentage change in the soil with highest P-AL and longest time without P fertilization. A decreasing trend in DRP concentration in leachate was found for only one soil, the clay soil with the lowest initial P-AL value of 77 mg kg-1.
Mining P reserves in the soil by crop harvesting and absence of P fertilization, to reduce P leaching losses, seems to be a slow process under Swedish conditions. The results highlight the importance of not over-fertilizing, to avoid high P-AL levels.