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Pesticides used extensively in agriculture are leaching out to the environment posing a threat to human and animal life. Very high levels of pesticides in air, water, soil, foods and biological materials have been reported in India. More recently microbial metabolism has evolved as the basis for bioremediation. Carbendazim, an officially registered fungicide used to control broad range of fungal diseases in agricultural crops. Consistent research efforts are needed to bio-remediate this compound from the environment. Keeping in view of the above facts the present study was planned to investigate the role of microbes isolated from the field soils for the bioremediation of Carbendazim. For isolating carbendazim degrading microorganisms, soil samples were collected from wheat fields of Punjab and Haryana districts and U.T Chandigarh, India. Selection was done using enrichment culture technique and efficiency was tested using spot on lawn assay. Morphological, biochemical and physiological analysis of strain RID II was done at MTCC, IMTECH, Chandigarh. For Identification of metabolites, culture samples were collected at 10 hrs, 24 hrs and 48 hrs growth in Jensen’s medium containing pesticide carbendazim (30µg/ml) at 37oC in shaking conditions. LCMS-MS analysis of the samples to assess the metabolites and degradation products was carried. Isolated bacterium [RID-II] was found to be growing at higher concentrations of carbendazim up to 500 µg/ml. RIDII was identified as Brevibacillus borstelensis and is a gram positive, motile, spore forming bacterium. There was a timedependent degradation of Carbendazim from 30ppm to 4.51ppm in 10hrs to 58.15ppb and 16.57ppb in 24hrs and 48hrs respectively. Metabolites detected by LCMS-MS were 2-aminobenzimidazole and 2-hydroxybenzimidazole in 10 hrs growth which vanished completely after 24hrs indicating these metabolites to be very unstable consistent with the data reported earlier in literature. The strain Brevibacillus borstelensis was found to be an efficient Carbendazim bioremediation agent which could be potentially utilized to remove carbendazim from contaminated sites in near future.