Persistence of metribuzin in aridisols as affected by various abiotic factors and its effect on soil enzymes

Herbicide degradation is one of the key processes determining whether the use of herbicide will have any impact on environmental quality, and it is dependent on various biotic and abiotic factors. The present study evaluates the impact of various abiotic factors such as soil type, application rate, incubation temperature, soil pH, soil microorganisms and sunlight on persistence of metribuzin and its effect on soil enzymes. Half-lives (DT50) varied significantly with application rate of metribuzin and physicochemical properties of soil and ranged from 15.17 to 46.59 days. Metribuzin degraded 2.2 to 6.5 times slower in sterilised soil (DT50 = 35.21 to 115.60 days) as compared to unsterilised soil, indicating microbial degradation is one the most predominant contributors towards degradation of metribuzin in soil. Increase in degradation rate on exposure to sunlight indicated photodegradation also contributes significantly to the degradation of metribuzin. Deaminometribuzin, diketometribuzin and deaminodiketometribuzin metabolites of metribuzin were detected in all treatments. Dehydrogenase and alkaline phosphatase activities were significantly affected by application of metribuzin while urease activity remained unaffected. The physicochemical properties viz. pH, organic matter content and temperature should be considered along with application rate of metribuzin in order to achieve satisfactory weed control and reduce environmental risk associated with the use of metribuzin in different crops.