What question did this study set out to answer?

This review aims to explore the various physical, chemical, and biological factors affecting microbial communities in reservoir sediments.

May 22, 2026Open Access

水库沉积物微生物群落的生态学研究进展

Key Points

This review aims to explore the various physical, chemical, and biological factors affecting microbial communities in reservoir sediments.
Collected and analyzed 189 published studies by May 7, 2025
Classified and summarized factors impacting microbial community dynamics under reservoir management
Identified ecological effects resulting from microbial interactions in sediments
Found that most studies treat reservoirs like lakes, with a lack of research on hydrodynamic conditions
Noted limited exploration of the interaction between environment and microbial communities
Emphasized the need for systematic understanding of dam impacts on sediment geochemical cycles

Abstract

筑坝建库影响了全球近2/3超过1000 km的大江大河，改变了它们自然流动的状态。我国是世界上水库数量最多的国家，拥有9万余座水库。大坝截流、水利调度、水文气象等多因素共同塑造了水库沉积物这一独特生境，并显著影响其微生物群落的多样性和功能。微生物是水生态系统中物质循环的基本驱动者，对流域生态系统结构、生源物质循环、全球气候变化等方面具有重要的作用。水库不仅会通过改变各种物理、化学、生物因素等影响沉积物微生物群落，还会引发沉积物及微生物群落的时空动态分布差异，而沉积物中的微生物群落也会对环境变化做出响应，并在一定程度上改变环境条件。现有的研究往往仅关注单一变量，虽各自较为完备，但整体缺少系统性，不利于更为深入地理解“微生物水利生态环境”间的交互关系。因此，本文收集并分析了截至2025年5月7日已发表的189篇相关文献，综述了影响水库沉积物微生物群落的物理、化学、生物因素，分类总结了在水库调度下沉积物微生物群落的时空动态演变，并归纳整理了其产生的生态环境效应。结果发现，现有研究大多将水库看作类似湖泊的生境，考虑水力条件变化及生境特征的研究较少；水库沉积物研究多集中于地理分布规律的探索，对环境与微生物群落耦合作用的研究较少，且尚未系统揭示筑坝对沉积物微生物地球化学循环的内在机理。结合当前的研究不足，建议今后加强跨学科领域融合，并在微生物群落的生态环境效应、微生物生态学技术与理论应用、大数据与人工智能模型开发、全球气候变化与温室气体减排等领域深入开展相关工作。

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Cite This Study

Gao et al. (Thu,) studied this question.

synapsesocial.com/papers/6a0ff42fd674f7c03778d65a https://doi.org/https://doi.org/10.18307/2026.0302

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