Invasion by Cordgrass Increases Microbial Diversity and Alters Community Composition in a Mangrove Nature Reserve

Overview

Journal Front Microbiol

Specialty Microbiology

Date 2018 Jan 13

PMID 29326666

Citations 16

Authors

Min Liu

Zheng Yu

Xiaoqing Yu

Yuanyuan Xue

Bangqin Huang

Jun Yang

Affiliations

Soon will be listed here.

Abstract

Invasion by exotic plant species can alter ecosystem function and reduce native plant diversity, but relatively little is known about their effects on belowground microbial communities. Here we investigated the effects of exotic cordgrass () invasion on the distribution of soil bacterial communities in a mangrove nature reserve of the Jiulong River Estuary, southeast China using high-throughput sequencing of 16S rRNA gene and multivariate statistical analysis. Our results showed that invasion altered soil properties, and significantly increased soil bacterial taxa richness, primarily by stimulating an increase in conditionally rare or rare taxa, and changes in community composition and function. Abundant, conditionally rare and rare subcommunities exhibited similar response patterns to environment changes, with both conditionally rare and rare taxa showing a stronger response than abundant ones. Habitat generalists were detected among abundant, conditionally rare and rare taxa, whereas habitat specialists were only identified among conditionally rare taxa and rare taxa. In addition, we found that vegetation was the key factor driving these patterns. However, our comparative analysis indicated that both environmental selection, and neutral process, significantly contributed to soil bacterial community assembly. These results could improve the understanding of the microbial processes and mechanisms of cordgrass invasion, and offer empirical data of use in the restoration and management of the mangrove wetlands.

Citing Articles

Mangrove afforestation as an ecological control of invasive affects rhizosphere soil physicochemical properties and bacterial community in a subtropical tidal estuarine wetland.

Wang J, Lin X, An X, Liu S, Wei X, Zhou T PeerJ. 2024; 12:e18291.

PMID: 39421423 PMC: 11485052. DOI: 10.7717/peerj.18291.

Epiphytic bacterial community composition on four submerged macrophytes in different regions of Taihu Lake.

Fang H, Zhen Z, Yang F, Su H, Wei Y Front Plant Sci. 2024; 15:1404718.

PMID: 39119501 PMC: 11306141. DOI: 10.3389/fpls.2024.1404718.

Plant Growth-Promoting Bacteria of Soil: Designing of Consortia Beneficial for Crop Production.

Timofeeva A, Galyamova M, Sedykh S Microorganisms. 2023; 11(12).

PMID: 38138008 PMC: 10745983. DOI: 10.3390/microorganisms11122864.

Factors driving the halophyte rhizosphere bacterial communities in coastal salt marshes.

Wang R, Cui L, Li J, Li W Front Microbiol. 2023; 14:1127958.

PMID: 36910212 PMC: 9992437. DOI: 10.3389/fmicb.2023.1127958.

Effects of invasion on the community structure and diversity of wetland soil bacteria in the Yellow River Delta.

Shang S, Hu S, Liu X, Zang Y, Chen J, Gao N Ecol Evol. 2022; 12(5):e8905.

PMID: 35571753 PMC: 9077829. DOI: 10.1002/ece3.8905.

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