/PlasticDaphnia-ISMEJ

Effects of microplastics on Daphnia-associated microbiomes in situ and in vitro

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PlasticDaphnia-ISMEJ

Effects of microplastics on Daphnia-associated microbiomes in situ and in vitro

Microplastics (MP) pollution in aquatic environments is a growing global concern. MP, defined as plastic fragments smaller than 5mm, accumulate in freshwater reservoirs, especially those located in urban areas, impacting the resident biota. This study investigated the effects of MP on the performance and microbiome of Daphnia, a keystone organism in freshwater ecosystems, through both in situ sampling of freshwater ponds and a controlled 23-day in vitro exposure experiment. Using 16S rRNA gene sequencing and whole-genome shotgun sequencing, the microbiome community composition and functional capacity was analysed and correlated with MP pollution levels. Urban ponds showed higher MP concentrations in both water and sediment than natural ponds with significant differences in MP composition. Bacterioplankton communities defined as an assemblage of bacterial species living in the water column of aquatic ecosystems were more diverse and richer than the Daphnia-associated microbiomes. Overall, the in situ study showed that the composition of the Daphnia-associated community was influenced by high MP levels but also with temperature and redox potential. Moreover, the functional analysis showed increased relative abundances of PET degradation enzymes and antibiotic resistance genes (ARGs) in microbiomes from high-MP ponds. In the in vitro experiment, the bacterioplankton inoculum source significantly influenced Daphnia survival and microbiome composition. Network analysis identified specific taxa associated with MP within the Daphnia microbiome. Our study suggests responsive changes of freshwater host-associated microbiomes to MP pollution including biodegradation with potential benefits for the host

BioRxiv: https://doi.org/10.1101/2024.06.28.601137