Untangling microbial diversity and assembly patterns in rare earth element mine drainage in South China

生态学 生物 乳糜菌纲 酸杆菌 微生物种群生物学 古细菌 生态系统 群落结构 酸性矿井排水 蛋白质细菌 操作分类学单元 子囊菌纲 环境化学 16S核糖体RNA 细菌 生物化学 化学 遗传学 基因
作者
Ziwu Chen,Ying‐heng Fei,Wen‐Shen Liu,Kengbo Ding,Jianan Lu,Xuan Cai,Tuantuan Cui,Yetao Tang,Shizhong Wang,Yuanqing Chao,Rongliang Qiu
出处
期刊:Water Research [Elsevier BV]
卷期号:225: 119172-119172 被引量:31
标识
DOI:10.1016/j.watres.2022.119172
摘要

Ion-adsorption rare earth element (REE) deposits are the main reservoirs of REEs worldwide, and are widely exploited in South China. Microbial diversity is essential for maintaining the performance and function of mining ecosystems. Investigating the ecological patterns underlying the REE mine microbiome is essential to understand ecosystem responses to environmental changes and to improve the bioremediation of mining areas. We applied 16S rRNA and ITS gene sequence analyses to investigate the composition characteristics of prokaryotic (bacteria, archaea) and fungal communities in a river impacted by REE acid mine drainage (REE-AMD). The river formed a unique micro-ecosystem, including the main prokaryotic taxa of Proteobacteria, Acidobacteria, Crenarchaeota, and Euryarchaeota, as well as the main fungal taxa of Ascomycota, Basidiomycota, and Chytridiomycota. Analysis of microbial diversity showed that, unlike prokaryotic communities that responded drastically to pollution disturbances, fungal communities were less affected by REE-AMD, but fluctuated significantly in different seasons. Ecological network analysis revealed that fungal communities have lower connectivity and centrality, and higher modularity than prokaryotic networks, indicating that fungal communities have more stable network structures. The introduction of REE-AMD mainly reduced the complexity of the community network and the number of keystone species, while the proportion of negative prokaryotic–fungal associations in the network increased. Ecological process analysis revealed that, compared to the importance of environmental selection for prokaryotes, stochastic processes might have contributed primarily to fungal communities in REE mining areas. These findings confirm that the different assembly mechanisms of prokaryotic and fungal communities are key to the differences in their responses to environmental perturbations. The findings also provide the first insights into microbiota assembly patterns in REE-AMD and important ecological knowledge for the formation and development of microbial communities in REE mining areas.
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