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Microplastics from mulching film is a distinct habitat for bacteria in farmland soil

The Science of The Total Environment 2019 540 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Yi Huang Mengjun Zhang, Weiqian Jia, Weiqian Jia, Yi Huang Weiqian Jia, Mengjun Zhang, Yanran Zhao, Yanran Zhao, Muke Huang, Weiqian Jia, Xiao Qin, Muke Huang, Yanran Zhao, Mengjun Zhang, Mengjun Zhang, Yanran Zhao, Weiqian Jia, Weiqian Jia, Weiqian Jia, Mengjun Zhang, Weiqian Jia, Weiqian Jia, Mengjun Zhang, Weiqian Jia, Weiqian Jia, Xiao Qin, Weiqian Jia, Weiqian Jia, Mengjun Zhang, Weiqian Jia, Mengjun Zhang, Mengjun Zhang, Weiqian Jia, Weiqian Jia, Yanran Zhao, Mengjun Zhang, Yi Huang Yi Huang Yi Huang Yi Huang Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Weiqian Jia, Weiqian Jia, Weiqian Jia, Muke Huang, Yanran Zhao, Liwei Chai, Weiqian Jia, Weiqian Jia, Weiqian Jia, Muke Huang, Muke Huang, Muke Huang, Mengjun Zhang, Yi Huang Xiao Qin, Yi Huang Yi Huang Yi Huang Mengjun Zhang, Mengjun Zhang, Yi Huang Muke Huang, Muke Huang, Mengjun Zhang, Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang Yi Huang

Summary

Microplastics collected from cotton field mulch films in Xinjiang, China were analyzed by electron microscopy and 16S rRNA sequencing, revealing bacterial communities on plastic surfaces that were structurally distinct from surrounding soil, plant litter, and macroplastics. The study identifies microplastics from agricultural mulch films as novel microbial habitats with a distinct plastisphere community structure.

Polymers

Microplastics, as an emerging pollutant of global importance, have been well documented in aquatic ecosystems. However, little is known about the effects of microplastics on agroecosystems, particularly for soil microbial communities. Herein, microplastics collected from cotton fields in Xinjiang, China, were analysed with a scanning electron microscope (SEM) and high-throughput sequencing to investigate the attached bacterial communities. Microplastic surfaces, especially pits and flakes, were colonized by various microorganisms, suggesting active hydrolysis of plastic debris. The bacterial communities colonizing microplastics were significantly different in structure from those in the surrounding soil, plant litter and macroplastics. In addition, statistical analysis of differentially abundant OTUs showed that microplastics serve as a "special microbial accumulator" in farmland soil, enriching some taxa that degrade polyethylene, such as Actinobacteria, Bacteroidetes and Proteobacteria. Co-occurrence network analysis revealed that the biotic interactions between microorganisms on microplastics are as complex as those in soil, and Acidobacteria, Chloroflexi, Gemmatimonadetes, and Bacteroidetes are considered keystone species in bacterial communities. Collectively, the findings imply that microplastics acted as a distinct habitat for bacteria in farmland soil, which increases our understanding of microplastic pollution.

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