Evaluating pesticide degradation in artificial wetlands with compound-specific isotope analysis: A case study with the fungicide dimethomorph
Résumé
Pesticide degradation in wetland systems intercepting agricultural runoff is often overlooked and mixed with other dissipation processes when estimated based on pesticide concentrations alone. This study focused on the potential of compound-specific isotope analysis (CSIA) to estimate pesticide degradation in a stormwater wetland receiving pesticide runoff from a vineyard catchment. The fungicide dimethomorph (DIM), with diastereoisomers E and Z, was the prevalent pesticide in the runoff entering the wetland from June to September 2020. DIM Z, the most commonly detected isomer, exhibited a significant change (Δ 13 C>3 ‰) in its carbon isotopic composition in the wetland water compared to the runoff and commercial formulation, indicating degradation. Laboratory DIM degradation assays, including photodegradation and biodegradation in oxic wetland water with and without aquatic plants and in anoxic sediments, indicated that DIM degradation mainly occurred in the wetland sediments. The rapid degradation
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Gilevska_Stoten_2023_HAL.pdf (794.66 Ko)
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Gilevska_Stoten_2023_SI_HAL.pdf (2.75 Mo)
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