Fungicides are an essential component of current agricultural practices, but their extensive use has raised concerns about their effects on non-target soil microorganisms, which carry out essential ecosystem functions. However, despite the complexity of microbial communities, many studies investigating their response to fungicides focus only on bacteria or fungi at one point in time. In this study, we used amplicon sequencing to assess the effect of the fungicide hymexazol on the diversity, composition, and co-occurrence network of soil bacteria, fungi, and protists at 7, 21, and 60 days after application. We found that hymexazol had very little effect on microbial alpha-diversity, but that microbial community composition and OTU differential abundance were altered over the duration of the experiment, even after hymexazol concentrations were undetectable. The co-occurrence patterns within and between microbial kingdoms were affected by hymexazol dose, suggesting that indirect effects may play a role in the microbial community response. Nitrogen cycling was also affected, with a transient hymexazol-associated increase in the abundance of ammonia-oxidizing microorganisms and soil nitrate concentration. These findings highlight that the effects of fungicides on soil microorganisms are dynamic and extensive, spanning several taxonomic kingdoms.
Keywords: Bacteria; Fungi; Fungicide; Nitrification; Nitrogen cycling; Pesticide; Protists.
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