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Microplastic diversity increases the abundance of antibiotic resistance genes in soil
Nature Communications2024
130 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 75
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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
Yanmei Fu,
Matthias C. Rillig
Matthias C. Rillig
Yanmei Fu,
Matthias C. Rillig
Yanmei Fu,
Yanmei Fu,
Matthias C. Rillig
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Jiayang Xu,
Dong Zhu,
Jiayang Xu,
Yong‐Guan Zhu,
Dong Zhu,
Yifei Wang,
Dong Zhu,
Yanmei Fu,
Yanmei Fu,
Yanmei Fu,
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yanmei Fu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Yanjie Liu,
Dong Zhu,
Matthias C. Rillig
Jiayang Xu,
Matthias C. Rillig
Matthias C. Rillig
Yanmei Fu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Jiayang Xu,
Matthias C. Rillig
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
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
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,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Min Qiao,
Yifei Wang,
Yifei Wang,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yanmei Fu,
Yanmei Fu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yanjie Liu,
Matthias C. Rillig
Matthias C. Rillig
Yanjie Liu,
Matthias C. Rillig
Yanjie Liu,
Yanjie Liu,
Yanjie Liu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Jiayang Xu,
Matthias C. Rillig
Tian-Lun Zhang,
Dong Zhu,
Tian-Lun Zhang,
Matthias C. Rillig
Jiayang Xu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Tian-Lun Zhang,
Matthias C. Rillig
Tian-Lun Zhang,
Matthias C. Rillig
Yanjie Liu,
Matthias C. Rillig
Yanjie Liu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yanjie Liu,
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,
Yanmei Fu,
Yanmei Fu,
Tian-Lun Zhang,
Yanjie Liu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Min Qiao,
Tian-Lun Zhang,
Yong‐Guan Zhu,
Dong Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Jiayang Xu,
Matthias C. Rillig
Matthias C. Rillig
Min Qiao,
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Hui-Ling Cui,
Hui-Ling Cui,
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Dong Zhu,
Yanjie Liu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Jiayang Xu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Dong Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Yanjie Liu,
Matthias C. Rillig
Dong Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Min Qiao,
Matthias C. Rillig
Matthias C. Rillig
Dong Zhu,
Yong‐Guan Zhu,
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
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Dong Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Dong Zhu,
Dong Zhu,
Dong Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Dong Zhu,
Dong Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Matthias C. Rillig
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
Matthias C. Rillig
Yong‐Guan Zhu,
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
When different types of microplastics accumulate together in soil, they increase the spread of antibiotic resistance genes in bacteria. The more diverse the mix of microplastic shapes, colors, and types, the greater the increase in these resistance genes. This is concerning for human health because antibiotic-resistant bacteria in soil can potentially transfer to people through food and water.
The impact of microplastics on antibiotic resistance has attracted widespread attention. However, previous studies primarily focused on the effects of individual microplastics. In reality, diverse microplastic types accumulate in soil, and it remains less well studied whether microplastic diversity (i.e., variations in color, shape or polymer type) can be an important driver of increased antibiotic resistance gene (ARG) abundance. Here, we employed microcosm studies to investigate the effects of microplastic diversity on soil ARG dynamics through metagenomic analysis. Additionally, we evaluated the associated potential health risks by profiling virulence factor genes (VFGs) and mobile genetic elements (MGEs). Our findings reveal that as microplastic diversity increases, there is a corresponding rise in the abundance of soil ARGs, VFGs and MGEs. We further identified microbial adaptive strategies involving genes (changed genetic diversity), community (increased specific microbes), and functions (enriched metabolic pathways) that correlate with increased ARG abundance and may thus contribute to ARG dissemination. Additional global change factors, including fungicide application and plant diversity reduction, also contributed to elevated ARG abundance. Our findings suggest that, in addition to considering contamination levels, it is crucial to monitor microplastic diversity in ecosystems due to their potential role in driving the dissemination of antibiotic resistance through multiple pathways.