70227 Transformation of Sulfadimethoxine In Soil Mediated by Oxidoreductase Enzymes.

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See more from this Session: Graduate Student Oral – Soils
Monday, February 6, 2012: 8:00 AM
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Rashmi Singh and Qingguo Huang, University of Georgia - Griffin, Griffin, GA
Soil contamination by pharmaceuticals of both human and veterinary use is an emerging problem. Application of manure into agricultural lands is one of the major route through which veterinary antibiotics enter the environment. Sulfadimethoxine (SDM) is one commonly used antibiotic which is largely released into the environment from concentrated animal feeding operations (CAFO-s). Transformation of antibiotics in soil impact the likelihood of their entry to water bodies, uptake by plants, and thus their effect on terrestrial and aquatic organisms. Despite large number of studies related to the occurrence of SDM in the aquatic environment, there are few studies on the environmental transformation of this antibiotic in soil. Previous studies show that extracellular enzymes are capable of transforming persistent chemicals into non-harmful products, indicating that enzymes produced by microorganisms or plants may play an important role in humification, and thus removal of antibiotics. We performed experiments to examine the transformation of SDM in a well characterized sandy loam soil, in the absence and presence of horseradish peroxidase, laccase, and lignin peroxidase at different levels. Significant removal of SDM was observed in samples with enzyme present in comparison to samples to which enzymes were not applied. Efficiency of laccaase in presence of different mediators was also studied. This study serves as a precursor for potential development of an efficient and eco-friendly method to remediate antibiotics in soil thus restricting their movement to water bodies.