Cell-Size-Dependent Responses of Bacterial Communities to Warming in the Alpine Grasslands of the Qinghai-Tibet Plateau
文献类型: 外文期刊
第一作者: Liu, Jie
作者: Liu, Jie;Zhang, Lan;Zou, Hao;Liu, Jie;Liu, Jie;Shi, Hao;Wang, Junqiang;Xia, Fei;Yang, Yunfeng
作者机构:
关键词: alpine grassland; cell size; plant-soil-microbe interaction; soil microbe; warming
期刊名称:GLOBAL CHANGE BIOLOGY ( 影响因子:12.0; 五年影响因子:14.0 )
ISSN: 1354-1013
年卷期: 2025 年 31 卷 6 期
页码:
收录情况: SCI
摘要: Cell size is a fundamental determinant of bacterial ecology, influencing community dynamics, physiological processes, and ecological interactions. However, the impacts of climate change-especially warming-on bacteria of varying cell sizes remain poorly understood, particularly in sensitive ecosystems such as alpine grasslands. In this study, we conducted an open-top chamber warming experiment (+1.3 degrees C) to investigate how warming affects bacterial communities across four distinct cell size categories (< 0.4, 0.4-3.0, 3.0-5.0, and > 5.0 mu m) in the alpine grasslands of the Qinghai-Tibet Plateau. Our results show that warming differentially impacts bacterial communities depending on cell size. Small bacteria (< 0.4 mu m) were more sensitive to warming, with increased richness and diversity, while larger bacteria (3.0-5.0 mu m) experienced a decline in both diversity and richness. These shifts were accompanied by compositional changes, particularly within the < 0.4 mu m fraction, where phyla such as beta-Proteobacteria, delta-Proteobacteria, Bacteroidetes, and Thermotogae decreased, while Actinobacteria increased. Additionally, warming decoupled the interactions between large bacteria and soil or plant components, while enhancing plant-bacterial coupling for small bacteria. Co-occurrence network analysis revealed that warming reduced the complexity and connectivity of small bacterial communities, making them less stable and more influenced by deterministic processes. In contrast, warming promoted drift and heterogeneous selection in large bacterial communities, highlighting divergent ecological responses based on cell size. These findings underscore the critical role of cell size in determining bacterial vulnerability to global warming, offering new insights into microbial community dynamics in response to climate change.
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