Chlorothalonil drives the antibiotic resistome in earthworm guts

Abstract

Earthworms are recognized as carriers of pollutants; however, how fungicide residues affect microbiota and antibiotic resistance genes (ARGs) in earthworm guts has remained unclear. In this work, changes in the earthworm gut microbiome and resistome were investigated after chlorothalonil (CTL) application. Earthworm activity accelerated the dissipation of CTL in soil, while metagenomic analysis revealed that CTL altered the ARG profile, leading to an increased abundance of ARGs in earthworm guts, particularly with respect to ARG subtypes CRP and OXA-427. CTL also reduced bacterial diversity and elevated the relative abundance of the phylum Proteobacteria, including a potential ARG host, Aeromonas, which is a known pathogen. Various bacterial genera from the Actinobacteria and Proteobacteria phyla were identified as broad-spectrum hosts for ARGs in earthworm guts. CTL could increase the abundance of multidrug efflux pump genes and enhance the abundance of mobile genetic elements, especially plasmids. Various co-occurrence patterns between plasmids and ARGs were also found after CTL treatments. It is concluded that CTL may act as a selective stress for ARGs and lead to an increase in their abundance by facilitating the proliferation of potential ARG hosts and enhancing plasmid-mediated horizontal transfer frequency of ARGs in earthworm guts.