To comprehensively evaluate the efficiency and risk of the chiral pesticide fenobucarb, the bioactivity, toxicity, and environmental behavior of fenobucarb (FNC) enantiomers were investigated. The results showed that R-FNC possesses… Click to show full abstract
To comprehensively evaluate the efficiency and risk of the chiral pesticide fenobucarb, the bioactivity, toxicity, and environmental behavior of fenobucarb (FNC) enantiomers were investigated. The results showed that R-FNC possesses 1.8-2.7 times more bioactivity than S-FNC but 1.3-3.0 times lower toxicity than S-FNC against four nontarget organisms: Chlorella pyrenoidosa, HepG2, and Danio rerio and its embryos. The corresponding enzyme inhibitory activity showed consistent results; the acetylcholinesterase inhibitory activity of target organisms was ordered as R-FNC > rac-FNC > S-FNC, while the reduction in catalase activity after exposure to R-FNC was 2.5 times that after exposure to S-FNC in zebrafish. The enantioselective bioactivity mechanism of FNC enantiomers was further explored in silico. No significant enantioselective degradation was found in soils or rat liver microsomes. In sum, R-FNC possesses higher insecticidal activity and lower toxicity. The development of R-FNC as a commercial agrochemical is beneficial for reducing pesticide inputs.
               
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