Exposure Risk Identification and Priority Control List Development of Pesticides in Agricultural Cultivation Areas DOI
Jiapeng Liu, Yuanyuan Zhao,

Ning Hao

и другие.

Journal of Agricultural and Food Chemistry, Год журнала: 2025, Номер unknown

Опубликована: Март 26, 2025

The adverse effects of 33 typical pesticides in dry and paddy lands cultivation areas China were investigated. First, the resistance cross-resistance (for target organisms), toxicity, joint toxicity nontarget organisms) evaluated, nine with high resistance, three wide cross-resistance, one screened. Second, optimal synergist control schemes developed, under which to organisms (corn aphid, soybean rice water weevil) reduced by 23.46%, 46.06%, 26.36% (maximum), respectively, (neurotoxicity developmental toxicity) (ladybird beetle, parasitic wasp, Chinese mitten crab) 38.83%, 17.76%, 15.94% respectively. Third, multitoxicity (neurotoxicity, metabolic carcinogenicity, reproductive respiratory outcome pathway based on human health risk was constructed, 10 higher composite identified. Finally, total exposure predicted, a priority list proposed. This study provides theoretical guidance for controlling pesticide application achieve green sustainable development agricultural soils.

Язык: Английский

Exposure Risk Identification and Priority Control List Development of Pesticides in Agricultural Cultivation Areas DOI
Jiapeng Liu, Yuanyuan Zhao,

Ning Hao

и другие.

Journal of Agricultural and Food Chemistry, Год журнала: 2025, Номер unknown

Опубликована: Март 26, 2025

The adverse effects of 33 typical pesticides in dry and paddy lands cultivation areas China were investigated. First, the resistance cross-resistance (for target organisms), toxicity, joint toxicity nontarget organisms) evaluated, nine with high resistance, three wide cross-resistance, one screened. Second, optimal synergist control schemes developed, under which to organisms (corn aphid, soybean rice water weevil) reduced by 23.46%, 46.06%, 26.36% (maximum), respectively, (neurotoxicity developmental toxicity) (ladybird beetle, parasitic wasp, Chinese mitten crab) 38.83%, 17.76%, 15.94% respectively. Third, multitoxicity (neurotoxicity, metabolic carcinogenicity, reproductive respiratory outcome pathway based on human health risk was constructed, 10 higher composite identified. Finally, total exposure predicted, a priority list proposed. This study provides theoretical guidance for controlling pesticide application achieve green sustainable development agricultural soils.

Язык: Английский

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