Abstract
Among the conventional disposal methods for livestock mortalities, on-farm burial is a preferred method, but the potential water quality impacts of animal carcass burial are not well understood. Typically, on-farm burial pits are constructed without liners and any leachate produced may infiltrate into soil and groundwater. To date, no information is available on temporal trends for contaminants in leachate produced from livestock mortality pits. In our study, we examined the concentrations of conventional contaminants including electrical conductivity, COD, TOC, TKN, TP, and solids, as well as veterinary antimicrobials and steroid hormones in leachate over a period of 20months. Most of the contaminants were detected in leachate after 50days of decomposition, reaching a peak concentration at approximately 200days and declined to baseline levels by 400days. The estrogen 17β-estradiol and a veterinary antimicrobial, monensin, were observed at maximum concentrations of 20,069ng/L and 11,980ng/L, respectively. Estimated mass loading of total steroid hormone and veterinary pharmaceuticals were determined to be 1.84 and 1.01μg/kg of buried cattle carcass materials, respectively. These data indicate that leachate from carcass burial sites represents a potential source of nutrients, organics, and residues of biologically active micro-contaminants to soil and groundwater.
•We investigated water quality impacts of buried cattle carcass leachate.•Cattle carcass burial produced leachate containing a variety of organic and inorganic contaminants, including nutrients.•Steroids and pharmaceuticals were also detected in the leachate at high concentrations relative to other wastewaters.