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Biotransformation of Chlorpyrifos Shewanella oneidensis MR-1 in the Presence of Goethite: Experimental Optimization and Degradation Products.

Shen TangYan-Hong LiZongqiang ZhuYaru WangYuqing PengJing ZhangPeijie NongShufen PanYinming FanYinian Zhu
Published in: Toxics (2024)
In this study, the degradation system of Shewanella oneidensis MR-1 and goethite was constructed with chlorpyrifos as the target contaminant. The effects of initial pH, contaminant concentration, and temperature on the removal rate of chlorpyrifos during the degradation process were investigated. The experimental conditions were optimized by response surface methodology with a Box-Behnken design (BBD). The results show that the removal rate of chlorpyrifos is 75.71% at pH = 6.86, an initial concentration of 19.18 mg·L -1 , and a temperature of 30.71 °C. LC-MS/MS analyses showed that the degradation products were C 4 H 11 O 3 PS, C 7 H 7 Cl 3 NO 4 P, C 9 H 11 Cl 2 NO 3 PS, C 7 H 7 Cl 3 NO 3 PS, C 9 H 11 Cl 3 NO 4 P, C 4 H 11 O 2 PS, and C 5 H 2 Cl 3 NO. Presumably, the degradation pathways involved are: enzymatic degradation, hydrolysis, dealkylation, desulfur hydrolysis, and dechlorination. The findings of this study demonstrate the efficacy of the goethite/ S. oneidensis MR-1 complex system in the removal of chlorpyrifos from water. Consequently, this research contributes to the establishment of a theoretical framework for the microbial remediation of organophosphorus pesticides in aqueous environments.
Keyphrases
  • magnetic resonance
  • contrast enhanced
  • magnetic resonance imaging
  • computed tomography
  • mass spectrometry
  • ionic liquid
  • atomic force microscopy
  • gas chromatography