Sediment bacterial biogeography across reservoirs in the Hanjiang river basin, southern China: the predominant influence of eutrophication-induced carbon enrichment
Haokun Yang, Xueling Xiong, Yiping Tai, Li-Juan Xiao, Dan He, Liqin Wu, Lijun Zhou, Lijuan Ren, Qinglong L. Wu, Bo-Ping Han

TL;DR
This study shows how eutrophication affects sediment bacteria in reservoirs by changing carbon levels, altering community structures and interactions.
Contribution
The study reveals that eutrophication-induced carbon enrichment significantly alters bacterial biogeography in subtropical reservoirs.
Findings
Eutrophication-driven carbon changes weaken distance-decay relationships in bacterial communities.
High carbon levels promote copiotrophic bacteria like Syntrophales and Clostridiaceae.
Elevated carbon increases regional heterogeneity and complex bacterial interactions.
Abstract
A fundamental goal of reservoir ecosystem management is to understand bacterial biogeographic patterns and the mechanisms shaping them at a regional scale. However, little is known about how eutrophication, a major water quality challenge in reservoirs, influences sediment bacterial biogeographic patterns in subtropical regions. In this study, sediment bacterial communities were sampled from 21 subtropical reservoirs in the Hanjiang river basin, southern China, and spanning trophic states from oligotrophic to eutrophic. Our findings demonstrated that eutrophication-driven changes in total carbon (TC) significantly shaped the regional biogeographic patterns of sediment bacterial communities, weakening the “distance-decay” relationships that typically link bacterial community similarity to geographical distance. TC content exceeding a threshold of 13.2 g·kg−1 resulted in substantial…
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Taxonomy
TopicsMicrobial Community Ecology and Physiology · Marine and coastal ecosystems · Genomics and Phylogenetic Studies
