TY - JOUR T1 - Transport of dissolved trace elements in surface runoff and leachate from a Coastal Plain soil after poultry litter application JF - Journal of Soil and Water Conservation SP - 212 LP - 220 DO - 10.2489/jswc.68.3.212 VL - 68 IS - 3 AU - L.C. Kibet AU - A.L. Allen AU - C. Church AU - P.J.A. Kleinman AU - G.W. Feyereisen AU - L.S. Saporito AU - F. Hashem AU - E.B. May AU - T.R. Way Y1 - 2013/05/01 UR - http://www.jswconline.org/content/68/3/212.abstract N2 - The application of poultry (Gallus gallus domesticus) litter to agricultural soils may exacerbate losses of trace elements in runoff water, an emerging concern to water quality. We evaluated trace elements (arsenic [As], mercury [Hg], selenium [Se], and zinc [Zn]) in surface runoff and leachate from an agricultural soil with and without poultry litter application. Litter from a commercial operation was applied by three methods—broadcast application, subsurface placement, and broadcast application followed by disking—to no-till soils with a history of receiving litter. Soil monolith lysimeters (61 by 61 by 61 cm)(24 by 24 by 24 in) were extracted from each of the treatments and subjected to rainfall simulation (1 hour, 61 mm h−1 [2.4 in hr−1]) 15 and 42 days after litter application. Broadcasting poultry litter significantly increased concentrations (mg L−1) and loads (g ha−1) of As and Zn in runoff during the first event relative to other application methods. Notably, incorporating litter, either by disking after broadcasting or by subsurface placement, lowered As and Zn in runoff to near background levels by the second event, and there were no significant differences in As and Zn between any of the treatments. While Hg and Se were detected in runoff, they likely derived from edaphic sources as they were not detected in the litter nor did they differ significantly between treatments. Results point to poultry litter as a temporary source of some trace elements to runoff. This source can be readily controlled by adjusting application method. ER -