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Systematic Underestimation of Pesticide Burden for Invertebrates under Field Conditions: Comparing the Influence of Dietary Uptake and Aquatic Exposure Dynamics

Benedikt B. Lauper, Eva Anthamatten, Johannes Raths, Maricor J. Arlos, Juliane Hollender

2021ACS Environmental Au28 citationsDOIOpen Access PDF

Abstract

. Toxicokinetic modeling using laboratory-derived uptake and depuration rate constants for azoxystrobin, cyprodinil, and fluopyram showed that despite the highly resolved water concentrations measured, the pesticide burden on gammarids remains underestimated by a factor of 1.9 ± 0.1 to 31 ± 3.0, with the highest underestimations occurring after rain events. Including dietary uptake from polluted detritus leaves and sediment in the model explained this underestimation only to a minor proportion. However, suspended solids analyzed during rain events had high pesticide concentrations, and uptake from them could partially explain the underestimation after rain events. Additional comparison between the measured and modeled data showed that the pesticide depuration in gammarids is slower in the field. This observation suggests that several unknown mechanisms may play a role, including lowered enzyme expression and mixture effects. Thus, it is important to conduct such retrospective risk assessments based on field investigations and adapt the registration accordingly.

Topics & Concepts

PesticideInvertebrateEnvironmental scienceAquatic ecosystemToxicologyEnvironmental chemistryBiologyEcologyChemistryEnvironmental Toxicology and EcotoxicologyPesticide and Herbicide Environmental StudiesAquatic Invertebrate Ecology and Behavior
Systematic Underestimation of Pesticide Burden for Invertebrates under Field Conditions: Comparing the Influence of Dietary Uptake and Aquatic Exposure Dynamics | Litcius