Vegetation as a key driver of the distribution of microbial generalists that in turn shapes the overall microbial community structure in the low Arctic tundra

Shu-Kuan Wong; Yingshun Cui; Seong-Jun Chun; Ryo Kaneko; Shota Masumoto; Ryo Kitagawa; Akira S. Mori; An Suk Lim; Masaki Uchida

doi:10.1186/s40793-023-00498-6

Environmental Microbiome (May 2023)

Vegetation as a key driver of the distribution of microbial generalists that in turn shapes the overall microbial community structure in the low Arctic tundra

Shu-Kuan Wong,
Yingshun Cui,
Seong-Jun Chun,
Ryo Kaneko,
Shota Masumoto,
Ryo Kitagawa,
Akira S. Mori,
An Suk Lim,
Masaki Uchida

Affiliations

Shu-Kuan Wong: Research Organization of Information and Systems, National Institute of Polar Research
Yingshun Cui: Division of Life Science and Plant Molecular Biology and Biotechnology Research Center, Gyeongsang National University
Seong-Jun Chun: LMO Team, National Institute of Ecology
Ryo Kaneko: Research Organization of Information and Systems, National Institute of Polar Research
Shota Masumoto: Graduate School of Environment and Information Sciences, Yokohama National University
Ryo Kitagawa: Kansai Research Center, Forestry and Forest Products Research Institute
Akira S. Mori: Graduate School of Environment and Information Sciences, Yokohama National University
An Suk Lim: Division of Life Science and Plant Molecular Biology and Biotechnology Research Center, Gyeongsang National University
Masaki Uchida: Research Organization of Information and Systems, National Institute of Polar Research

DOI: https://doi.org/10.1186/s40793-023-00498-6
Journal volume & issue: Vol. 18, no. 1
pp. 1 – 18

Abstract

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Abstract Understanding the variability of microbial niches and their interaction with abiotic and biotic factors in the Arctic can provide valuable insights into microbial adaptations to extreme environments. This study investigates the structure and diversity of soil bacterial communities obtained from sites with varying vegetation coverage and soil biogeochemical properties in the low Arctic tundra and explores how bacteria interact under different environmental parameters. Our findings reveal differences in bacterial composition and abundance among three bacterial niche breadths (specialists, common taxa, and generalists). Co-occurrence network analysis revealed Rhizobiales and Ktedonobacterales as keystone taxa that connect and support other microbes in the habitat. Low-elevation indicators, such as vascular plants and moisture content, were correlated with two out of three generalist modular hubs and were linked to a large proportion of generalists’ distribution (18%). Structural equation modeling revealed that generalists’ distribution, which influenced the remaining microbial communities, was mainly regulated by vegetation coverage as well as other abiotic and biotic factors. These results suggest that elevation-dependent environmental factors directly influence microbial community structure and module formation through the regulation of generalists’ distribution. Furthermore, the distribution of generalists was mainly affected by macroenvironment filtering, whereas the distribution of specialists was mainly affected by microenvironment filtering (species-engineered microbial niche construction). In summary, our findings highlight the strong top–down control exerted by vegetation on generalists’ distribution, which in turn shapes the overall microbial community structure in the low Arctic tundra.

Published in Environmental Microbiome

ISSN: 2524-6372 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences; Science: Microbiology
Website: https://environmentalmicrobiome.biomedcentral.com/

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