土壤中细菌质粒群落的同质化:大陆尺度微观世界研究

IF 5.1 Q1 ECOLOGY ISME communications Pub Date : 2024-01-10 DOI:10.1093/ismeco/ycad012
Yuanze Sun, Mochen Wu, Siyuan Xie, Jingxi Zang, Xiang Wang, Yuyi Yang, Changchao Li, Jie Wang
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摘要

微塑料通过提供数以万亿计的人造微生境(称为 "塑界"),改变了土壤微生物群的生态位。由于微塑料在生态系统中的积累不断增加,因此迫切需要了解与塑界相关的微生物生态学。在此,我们通过微观世界实验,对中国 99 个采集点的聚乙烯微塑料上的细菌质球与邻近土壤群落进行了大陆尺度的比较研究。与土壤细菌群落相比,我们发现质球中放线菌群(Actinomycetota)和芽孢杆菌群(Bacillota)的比例较高,而假单胞菌群(Pseudomonadota)、酸性杆菌群(Acidobacteriota)、革马拉菌群(Gemmatimonadota)和类杆菌群(Bacteroidota)的比例较低。与土壤细菌群落相比,质体群落之间的空间分散性和差异性较小,这表明微塑料上的细菌群落高度同质化。与土壤样本相比,塑球中同质选择的相对重要性更大,这可能是因为与周围土壤相比,聚乙烯微塑料具有更均匀的特性。重要的是,我们发现塑球和土壤细菌群落的差异程度与土壤的酸碱度和碳含量呈负相关,而与采样点的年平均温度呈正相关。我们的研究从更全面的大陆尺度透视了塑界中形成的微生物群落,并强调了微塑料对维持微生物生物多样性和生态系统功能的潜在影响。
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Homogenization of bacterial plastisphere community in soil: a continental-scale microcosm study
Microplastics alter niches of soil microbiota by providing trillions of artificial microhabitats, termed the “plastisphere”. Due to the ever-increasing accumulation of microplastics in ecosystems, it is urgent to understand the ecology of microbes associated with the plastisphere. Here, we present a continental-scale study of the bacterial plastisphere on polyethylene microplastics compared with adjacent soil communities across 99 sites collected from across China through microcosm experiments. In comparison with the soil bacterial communities, we found that plastispheres had a greater proportion of Actinomycetota and Bacillota, but lower proportions of Pseudomonadota, Acidobacteriota, Gemmatimonadota, and Bacteroidota. The spatial dispersion and the dissimilarity among plastisphere communities were less variable than those among the soil bacterial communities, suggesting highly homogenized bacterial communities on microplastics. The relative importance of homogeneous selection in plastispheres was greater than that in soil samples, possibly because of the more uniform properties of PE microplastics compared to the surrounding soil. Importantly, we found that the degree to which plastisphere and soil bacterial communities differed was negatively correlated with the soil pH and carbon content and positively related to the mean annual temperature of sampling sites. Our work provides a more comprehensive continental-scale perspective on the microbial communities that form in the plastisphere and highlights the potential impacts of microplastics on the maintenance of microbial biodiversity and ecosystem functioning.
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