Pesticides may harm soil organisms such as earthworms and enchytraeids, but knowledge is lacking on their relative sensitivity to these chemicals and the consequences on soil functions. The aim of… Click to show full abstract
Pesticides may harm soil organisms such as earthworms and enchytraeids, but knowledge is lacking on their relative sensitivity to these chemicals and the consequences on soil functions. The aim of this study was to assess the impact of exposure to a commercial fungicide formulation (Swing® Gold, containing dimoxystrobin and epoxiconazole) on the function of earthworms (Aporrectodea caliginosa) and enchytraeids (Enchytraeus buchholzi) in soil organic matter (SOM) mineralization. The soil organisms were incubated alone and together in a 26-day laboratory experiment. At the recommended field rate, the fungicide induced a decrease in the SOM mineralization and a delay in the maximum daily CO2 emissions compared to the control soil without fungicide. Soil fauna also influenced SOM mineralization with a higher cumulated CO2 release after 26 days in the control soil with earthworms (by 21%) than without fauna. When both earthworms and enchytraeids were present, SOM mineralization did not increase, and there was a negative effect on earthworm weight gain. Finally, an alteration of fauna influence with treatment was observed from day 19, meaning that the effect of fauna on SOM mineralization changed with fungicide treatment. Earthworms no longer promoted SOM mineralization when fungicide was present at three-fold the recommended field rate. The effects of enchytraeids on SOM mineralization were similar with and without fungicide exposure. This study underlines the importance of considering the relative sensitivity of soil organisms to environmental factors and interactions between them when assessing soil functioning. A currently used fungicide was tested in presence of earthworms and enchytraeids. The fungicide negatively influenced soil organic matter (SOM) mineralization kinetics. The fungicide modified the contribution of soil organisms to SOM mineralization. No positive or synergistic interaction was found between earthworms and enchytraeids. Future research should address realistic scenario of exposure of soil organisms. A currently used fungicide was tested in presence of earthworms and enchytraeids. The fungicide negatively influenced soil organic matter (SOM) mineralization kinetics. The fungicide modified the contribution of soil organisms to SOM mineralization. No positive or synergistic interaction was found between earthworms and enchytraeids. Future research should address realistic scenario of exposure of soil organisms.
               
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