Meta Analysis ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 1 ? Systematic review or meta-analysis. Synthesizes findings across many studies. Strongest evidence. Environmental Sources Sign in to save

Nonbiodegradable microplastic types determine the diversity and structure of soil microbial communities: A meta-analysis

Environmental Research 2024 19 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 70 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Yongxiang Yu, Yanyan Zhang, Binoy Sarkar, Yanyan Zhang, Xinhui Liu, Yuyi Yang Xinhui Liu, Xinhui Liu, Yuyi Yang Yongxiang Yu, Yongxiang Yu, Binoy Sarkar, Binoy Sarkar, Yongxiang Yu, Yuyi Yang Yongxiang Yu, Yongxiang Yu, Yuyi Yang Haiyang Yu, Yanyan Zhang, Yanyan Zhang, Yuyi Yang Yongxiang Yu, Haiyang Yu, Haiyang Yu, Xinhui Liu, Xinhui Liu, Xinhui Liu, Haiyang Yu, Yongxiang Yu, Yongxiang Yu, Yongxiang Yu, Yongxiang Yu, Yongxiang Yu, Yuyi Yang Yongxiang Yu, Yanyan Zhang, Yanyan Zhang, Binoy Sarkar, Binoy Sarkar, Binoy Sarkar, Binoy Sarkar, Binoy Sarkar, Binoy Sarkar, Haiyang Yu, Haiyang Yu, Xinhui Liu, Xinhui Liu, Haiyang Yu, Yanyan Zhang, Binoy Sarkar, Yuyi Yang Binoy Sarkar, Yanyan Zhang, Yuyi Yang Yanyan Zhang, Haiyang Yu, Yanyan Zhang, Yongxiang Yu, Yanyan Zhang, Haiyang Yu, Yongxiang Yu, Haiyang Yu, Haiyang Yu, Binoy Sarkar, Binoy Sarkar, Xinhui Liu, Binoy Sarkar, Yongxiang Yu, Shuping Qin, Yuyi Yang Shuping Qin, Yuyi Yang Yongxiang Yu, Yuyi Yang Yuyi Yang Yuyi Yang Xinhui Liu, Yuyi Yang Yongxiang Yu, Yanyan Zhang, Yongxiang Yu, Yanyan Zhang, Yuyi Yang Yongxiang Yu, Yongxiang Yu, Yuyi Yang Binoy Sarkar, Yuyi Yang Yuyi Yang Yuyi Yang Yuyi Yang Yuyi Yang Yanyan Zhang, Haiyang Yu, Binoy Sarkar, Binoy Sarkar, Haiyang Yu, Yuyi Yang Yuyi Yang Yongxiang Yu, Yuyi Yang Yongxiang Yu, Yuyi Yang Yuyi Yang Yuyi Yang Yuyi Yang Yongxiang Yu, Yuyi Yang Yuyi Yang Yuyi Yang Yongxiang Yu, Yongxiang Yu, Binoy Sarkar, Shuping Qin, Yuyi Yang Binoy Sarkar, Yuyi Yang Yanyan Zhang, Yongxiang Yu, Yanyan Zhang, Yuyi Yang Binoy Sarkar, Yuyi Yang Yuyi Yang Binoy Sarkar, Yanyan Zhang, Binoy Sarkar, Yuyi Yang

Summary

A global meta-analysis of 95 studies found that nonbiodegradable microplastics increased soil active microbial biomass by 42% while simultaneously decreasing bacterial Shannon and Chao1 diversity indices by 2-3%. This paradox suggests microplastics promote the growth of specific microbial taxa while suppressing overall diversity, potentially disrupting soil biogeochemical cycles.

Study Type Review

As an emerging contaminant, microplastics (MPs) have received considerable attention for their potential threat to the soil environment. However, the response of soil bacterial and fungal communities to MPs exposure remains unclear. In this study, we conducted a global meta-analysis of 95 publications and 2317 observations to assess the effects of nonbiodegradable MP properties and exposure conditions on soil microbial biomass, alpha and beta diversity, and community structure. Our results indicate that MPs increased (p < 0.05) soil active microbial biomass by 42%, with the effect varying with MPs type, exposure concentration, exposure time and soil pH. MPs concentration was identified as the most important factor controlling the response of soil microbial biomass to MPs. MPs addition decreased (p < 0.05) the soil bacterial Shannon and Chao1 indices by 2% and 3%, respectively, but had limited effects (p > 0.05) on soil fungal Shannon and Chao1 indices. The type of MPs and exposure time determined the effects of MPs on bacterial Shannon and Chao1 indices, while the type of MPs and soil pH controlled the response ratios of fungal Shannon and Chao1 indices to MPs. Specifically, soil organic carbon (SOC) was the major factor regulating the response ratio of bacterial alpha diversity index to MPs. The presence of MPs did not affect soil bacterial community structure and beta diversity. Our results highlight that MPs reduced bacterial diversity and richness but increased the soil active microbial biomass, suggesting that MPs could disrupt biogeochemical cycles by promoting the growth of specific microorganisms.

Read via DOI PubMed

Share this paper

Post Share Share Pin Email