Biosurfactant Facilitated Biodegradation of Quinalphos at High Concentrations by Pseudomonas aeruginosa Q10

Abstract

Previous studies indicate that high concentration of pesticides and their associated toxic effects are high at their point source of application. Use of pesticide-degrading bacteria at point sources could augment degradation and thereby reduce toxic effects associated with pesticide persistence in soil. Quinalphos, an organophosphorus insecticide, though ranked “moderately hazardous” in the WHO's acute hazard ranking, still continues to be used extensively in developing countries. The presence of a chloride radical usually makes this pesticide sparingly soluble in water and hence difficult to degrade. The present study aimed to isolate autochthonous bacterial strains capable of utilizing quinalphos as a carbon source. Primary screening of pesticide-contaminated soil by enrichment culture and degradation analysis by UV-VIS spectrophotometry led to the isolation of 12 different bacterial isolates, of which three efficient isolates of Pseudomonas sp, Serratia sp, and Pseudomonas aeruginosa with degradation rate 86%, 82%, 94%, respectively, were selected. GC-MS studies with P.aeruginosa confirmed the formation of 2-hydroxy quinoxaline and phosphorothioic acid as a result of biodegradation. The present study succeeded in isolating autochthonous bacterial strains capable of utilizing high concentrations of quinalphos as a carbon source in a shorter incubation period. This strain also possessed biosurfactant-production ability, which makes quinalphos available to cells at higher concentrations.