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Environmental Sources
Gut & Microbiome
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Soil plastispheres as hotspots of antibiotic resistance genes and potential pathogens
The ISME Journal2021
387 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Jun Ma,
Jun Ma,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Gang Li,
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Dong Zhu,
Gang Li,
Dong Zhu,
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Jun Ma,
Jun Ma,
Jun Ma,
Jun Ma,
Yong‐Guan Zhu,
Gang Li,
Gang Li,
Dong Zhu,
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Dong Zhu,
Dong Zhu,
Gang Li,
Matthias C. Rillig
Gang Li,
Matthias C. Rillig
Matthias C. Rillig
Jun Ma,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Dong Zhu,
Dong Zhu,
Dong Zhu,
Dong Zhu,
Dong Zhu,
Gang Li,
Gang Li,
Gang Li,
Gang Li,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Gang Li,
Gang Li,
Matthias C. Rillig
Gang Li,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Gang Li,
Gang Li,
Dong Zhu,
Gang Li,
Dong Zhu,
Gang Li,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Gang Li,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Gang Li,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Gang Li,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Dong Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Dong Zhu,
Dong Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Summary
Researchers investigated microbial communities and antibiotic resistance genes on microplastic surfaces (the plastisphere) in soil environments. They found that plastispheres harbor enriched levels of potential pathogens and antibiotic resistance genes compared to surrounding soil, and that adding manure or increasing temperature and moisture further amplified these concerning microbial communities.
In the Anthropocene, increasing pervasive plastic pollution is creating a new environmental compartment, the plastisphere. How the plastisphere affects microbial communities and antibiotic resistance genes (ARGs) is an issue of global concern. Although this has been studied in aquatic ecosystems, our understanding of plastisphere microbiota in soil ecosystems remains poor. Here, we investigated plastisphere microbiota and ARGs of four types of microplastics (MPs) from diverse soil environments, and revealed effects of manure, temperature, and moisture on them. Our results showed that the MPs select for microbial communities in the plastisphere, and that these plastisphere communities are involved in diverse metabolic pathways, indicating that they could drive diverse ecological processes in the soil ecosystem. The relationship within plastisphere bacterial zero-radius operational taxonomic units (zOTUs) was predominantly positive, and neutral processes appeared to dominate community assembly. However, deterministic processes were more important in explaining the variance in ARGs in plastispheres. A range of potential pathogens and ARGs were detected in the plastisphere, which were enriched compared to the soil but varied across MPs and soil types. We further found that the addition of manure and elevation of soil temperature and moisture all enhance ARGs in plastispheres, and potential pathogens increase with soil moisture. These results suggested that plastispheres are habitats in which an increased potential pathogen abundance is spatially co-located with an increased abundance of ARGs under global change. Our findings provided new insights into the community ecology of the microbiome and antibiotic resistome of the soil plastisphere.