Back to papers
0
Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Gut & Microbiome Marine & Wildlife Sign in to save

Contribution of stochastic processes to the microbial community assembly on field‐collected microplastics

Environmental Microbiology 2021 120 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.
Jie Wang Jie Wang Jie Wang Jie Wang Jie Wang Yuanze Sun, Yuanze Sun, Jie Wang Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yi Huang, Weiqian Jia, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Weiqian Jia, Zelong Zhao, Mengjun Zhang, Jie Wang Jie Wang Jie Wang Jie Wang Yi Huang, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Jie Wang Yuanze Sun, Jie Wang Yuanze Sun, Yuanze Sun, Yuanze Sun, Chongxue Duan, Chongxue Duan, Weiqian Jia, Yuanze Sun, Weiqian Jia, Chongxue Duan, Chongxue Duan, Weiqian Jia, Weiqian Jia, Yuanze Sun, Yuanze Sun, Mengjun Zhang, Zelong Zhao, Mengjun Zhang, Jie Wang Yuanze Sun, Mengjun Zhang, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Jie Wang Mengjun Zhang, Mengjun Zhang, Weiqian Jia, Weiqian Jia, Weiqian Jia, Changfeng Ding, Na Cao, Na Cao, Na Cao, Chongxue Duan, Chongxue Duan, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Yuanze Sun, Weiqian Jia, Weiqian Jia, Weiqian Jia, Na Cao, Na Cao, Na Cao, Chongxue Duan, Chongxue Duan, Jie Wang Na Cao, Mengjun Zhang, Changfeng Ding, Changfeng Ding, Yuanze Sun, Weiqian Jia, Chongxue Duan, Weiqian Jia, Mengjun Zhang, Changfeng Ding, Jie Wang Mengjun Zhang, Yuanze Sun, Weiqian Jia, Chongxue Duan, Weiqian Jia, Yuanze Sun, Jie Wang Yuanze Sun, Na Cao, Jie Wang Yuanze Sun, Zelong Zhao, Jie Wang Yuanze Sun, Jie Wang Yuanze Sun, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Mengjun Zhang, Weiqian Jia, Yi Huang, Weiqian Jia, Weiqian Jia, Changfeng Ding, Weiqian Jia, Changfeng Ding, Weiqian Jia, Yuanze Sun, Yi Huang, Yi Huang, Weiqian Jia, Yi Huang, Jie Wang Jie Wang Jie Wang Jie Wang Jie Wang Jie Wang Yi Huang, Yi Huang, Yi Huang, Zelong Zhao, Jie Wang Mengjun Zhang, Mengjun Zhang, Jie Wang Jie Wang Yi Huang, Mengjun Zhang, Jie Wang Yi Huang, Yi Huang, Jie Wang Yi Huang, Yi Huang, Yi Huang, Yi Huang, Yi Huang, Yi Huang, Jie Wang Jie Wang Mengjun Zhang, Jie Wang Changfeng Ding, Jie Wang Yi Huang, Yi Huang, Yi Huang, Yi Huang, Yi Huang, Yi Huang, Jie Wang Yi Huang, Jie Wang Jie Wang Jie Wang Jie Wang Jie Wang Jie Wang Jie Wang Yi Huang, Jie Wang Yi Huang, Jie Wang Jie Wang Jie Wang

Summary

Researchers found that stochastic processes played a greater role than deterministic factors in shaping bacterial community assembly on field-collected microplastics in the Hangzhou Bay estuary, challenging assumptions about the distinctiveness of the plastisphere.

A growing body of evidence suggests that microplastics may be colonized with a unique microbiome, termed 'plastisphere', in aquatic environments. However, the deep mechanisms (deterministic and/or stochastic processes) underlying the community assembly on microplastics are still poorly understood. Here, we took the estuary of Hangzhou Bay (Zhejiang, China) as an example and examined the assembly mechanisms of bacterial communities in water and microplastic samples. Results from high-throughput sequencing showed that Proteobacteria, Firmicutes, and Actinobacteria were the dominant phyla across all samples. Additionally, microorganisms from plastisphere and planktonic communities exhibited contrasting taxonomic compositions, with greater within-group variation for microplastic samples. The null model analysis indicated the plastisphere bacterial communities were dominantly driven by the stochastic process of drift (58.34%) and dispersal limitation (23.41%). The normalized stochasticity ratio (NST) also showed that the community assembly on microplastics was more stochastic (NST > 50%). Based on the Sloan neutral community model, the migration rate for plastisphere communities (0.015) was significantly lower than that for planktonic communities (0.936), potentially suggesting that it is the stochastic balance between loss and gain of bacteria (e.g., stochastic births and deaths) critically shaping the community assembly on microplastics and generating the specific niches. This study greatly enhanced our understanding of the ecological patterns of microplastic-associated microbial communities in aquatic environments.

Read via DOI PubMed

Sign in to start a discussion.

Share this paper

Post Share Share Pin Email