生态系统
生物多样性
生态演替
微生物种群生物学
生态学
生物
植物群落
土壤水分
生态稳定性
群落结构
草原
环境科学
土壤微生物学
生态系统服务
环境变化
社区
土壤生物多样性
农学
草地生态系统
气候变化
β多样性
农林复合经营
作者
Sihang Deng,Yunfeng Yang,X S Guo,Mengting Yuan,Ya Zhang,Linwei Wu,Weiling Shi,Xishu Zhou,Carolyn R. Cornell,Colin T. Bates,X. Liu,Qiuting Zhang,Renmao Tian,Siyang Jian,Suo Liu,Zhengxiong Liang,Jiesi Lei,Qun Gao,Zheng Shi,Liyou Wu
标识
DOI:10.1073/pnas.2537753123
摘要
As droughts become increasingly severe and prolonged worldwide, understanding how belowground biodiversity changes over time under water limitation is critical for assessing ecosystem resilience. However, long-term and continuous observations of soil microbial responses to drought remain rare. Here, using a 6-y experimental drought in a tallgrass prairie ecosystem, we showed that experimental drought reshaped the community compositions of soil bacteria, fungi, and protists, accompanied by progressive declines in microbial diversity and biomass. Analyses of time-decay relationships and paired community differences between drought and ambient conditions revealed increasingly divergent successional trajectories of soil microbiota under drought. Although stochastic processes dominated community assembly overall, their relative importance declined over time, particularly for bacteria in drought-treated soils, suggesting increasingly strong deterministic environmental filtering imposed by drought. In addition, drought reduced microbial network size but increased the complexity and stability of bacterial networks by favoring drought-tolerant taxa. Furthermore, drought-driven shifts in microbial community compositions significantly altered functional genes and associated ecosystem functioning. These findings suggest that microbial communities may become less variable but more vulnerable, and the detrimental effects of biodiversity loss on ecosystems could be more severe in an increasingly drought-prone world.
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