Flooding promotes the coalescence of microbial community in estuarine habitats

Microbial community coalescence describes the mixing of microbial communities and their integration with the surrounding environment, which is common in natural ecosystems and has potential impacts on ecological processes. However, few studies have focused on microbial community coalescence between...

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Published in:Marine environmental research 2024-11, Vol.202, p.106735, Article 106735
Main Authors: Jiajun, Li, Biao, Zhang, Guangshuai, Zhang, Sihui, Shao, Yansong, Li, Jinhui, Zhang, Jiuliang, Wang, Xiangyu, Guan
Format: Article
Language:English
Subjects:
algorithms
Bacteria
Bacterial communities
Biodiversity
brackish water
Community coalescence
Ecosystem
Environmental Monitoring
Estuaries
Estuarine wetlands
eutrophication
filtration
Flood events
Floods
Geologic Sediments - microbiology
homogenization
hydrodynamics
interspecific competition
keystone species
littoral zone
Microbiota
multivariate analysis
rivers
Salinity
salt marshes
species
surface water
Wetlands
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Summary:Microbial community coalescence describes the mixing of microbial communities and their integration with the surrounding environment, which is common in natural ecosystems and has potential impacts on ecological processes. However, few studies have focused on microbial community coalescence between different habitats in estuarine regions. In this study, we comprehensively investigated the environmental characteristics and bacterial community changes of different habitats (water body (Water), subtidal sediments (SS) and intertidal salt marsh sediments (SM)) in Luanhe estuary during flood and normal flow periods. The results showed that flood event significantly reduced the salinity of the estuarine habitats, changed the nutrient structure and intensified the eutrophication of estuarine water. By calculating the proportion of overlapping groups and applying the ‘FEAST’ algorithm, we revealed that flood event facilitated the migration of bacterial communities along alternative pathways across habitats, markedly enhanced the cross-habitat mobility of bacterial communities, which underscores the pivotal role of flood event in driving bacterial community coalescence. Flood-induced community coalescence not only increased the α-diversity of bacterial communities within habitats, but also increased the proportion of overlapped species between habitats, ultimately leading to homogenization between habitats. Canonical correlation analysis combined co-occurrence network analysis revealed that flood event attenuated the role of environmental filtration in microbial assembly, while increased the impact of dispersal processes and intensified interspecific competition among microorganisms, led to the change of keystone species and reduced the complexity and stability of bacterial communities. In conclusion, this study demonstrates the complex effects of flood events on estuarine microbial communities from the perspective of multi-habitat interactions in the estuary, and emphasizes the key role of river hydrodynamic conditions in facilitating the coalescence of estuarine microbial communities. We look forward to further attention and research on estuarine microbial coalescence, which will provide new insights into assessing the stability and resilience of estuarine ecosystems under flood challenges and the sustainable management of estuarine wetlands. [Display omitted] •Flood event changed the nutrient structure and intensified the eutrophication of estuarine water.•Flood
ISSN:0141-1136
1879-0291
1879-0291
DOI:10.1016/j.marenvres.2024.106735