Pesticide fate at watershed scale: A new framework integrating multimedia behavior with hydrological processes
Pesticide pollution has been one serious ecological and environmental issue due to its wide application, high toxicity, and complex environmental behavior. The fugacity model has been widely used to quantify biogeochemical cycles of pesticides due to its clear compartments, simple structure, and eas...
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Veröffentlicht in: | Journal of environmental management 2022-10, Vol.319, p.115758-115758, Article 115758 |
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Sprache: | eng |
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Zusammenfassung: | Pesticide pollution has been one serious ecological and environmental issue due to its wide application, high toxicity, and complex environmental behavior. The fugacity model has been widely used to quantify biogeochemical cycles of pesticides due to its clear compartments, simple structure, and easy-accessible data. However, the lack of detailed hydrological processes limits its application for large and heterogeneous watershed. In present study, a new framework was proposed through integration of hydrological processes of SWAT and pesticide fate of fugacity model, and was applied into a typical watershed in the Three Gorges Reservoir Area, China. The results showed that surface runoff, soil erosion, and percolation varied spatiotemporally, which highlighted the importance of considering regional and seasonal heterogeneity of pesticide transport variables in the fugacity model. The amount of dichlorvos (DDV) and chlorpyrifos (CHP) in air, water, soil, and sediment phase were estimated as 0.26 kg, 19.77 kg, 1.06 × 104 kg, and 0.55 kg, respectively. Spatiotemporally, pesticide concentrations in water phase peaked in summer, while the middle and southwest regions of the watershed were identified as the hotspots for pesticide pollution. Compared with the classical model, the new framework provided technical support for the pesticide assessment at watershed scale with heterogeneous hydrological conditions, which can be easily extended to other watersheds, and integrated with other models for comprehensive agricultural management.
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•New framework was proposed for simulating the pesticide fate at watershed scale.•Hydrological processes of SWAT and multimedia fate of fugacity model were integrated.•Spatiotemporal loads of pesticides varied with hydrological transport processes.•Hotspots and hot-periods of pesticide pollution were identified at watershed scale.•New framework can be applied to larger and more heterogeneous watersheds. |
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ISSN: | 0301-4797 1095-8630 |
DOI: | 10.1016/j.jenvman.2022.115758 |