| Abstract: | Soil samples were collected from a field with a long‐term (10 yr) oily wastewater application history, containing 70 mg g–1 of oil and grease and an accumulation of heavy metals, and also from a short‐term (1 yr) wastewater application involving different rates of waste, tillage, and nitrogen (N) fertilization. Prior to ATP extraction, the soils were incubated at 22 °C and a water potential of –60 kPa for 21 d and 2 d for the long‐ and short‐term trials, respectively. The light emitted from the bioluminescence reaction was partly quenched in the extract of steam‐sterilized long‐term waste‐treated soil, and curvilinearly responded to the addition of ATP at concentrations higher than 4 ng ATP per assay in contrast to the linear response from the pure extractant and the extract of control soil. Calibration curves developed from the extracts of steam‐sterilized soils were used for calculating ATP in that given soil. ATP determined in the long‐term treated soil was as high as 3201 ng (g soil)–1. Still, residual oil to ATP concentration ratio was about an order of magnitude higher in the long‐ than in the short‐term waste‐treated soil, reflecting the accumulation of recalcitrant material. In the short‐term treated soils, ATP ranged from 355 to 760 ng (g soil)–1 and responded to the rate of waste application, tillage, and fertilization. The use of ATP measurement has potential for assessing land management effects and developing tillage and fertilization recommendations for enhanced biodegradation of the oil waste. |
