Disentangling Large- and Small-Scale Abiotic and Biotic Factors Shaping Soil Microbial Communities in an Alpine Cushion Plant System

Disentangling Large- and Small-Scale Abiotic and Biotic Factors Shaping Soil Microbial Communities in an Alpine Cushion Plant System

Microorganisms play a crucial role in biogeochemical cycles and ecosystem processes, but the key factors driving microbial community structure are poorly understood, particularly in alpine environments. In this study, we aim to disentangle the relative contribution of abiotic and biotic factors shap...

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Published in:Frontiers in microbiology Vol. 11; p. 925
Main Authors: Wang, Chenyue, Michalet, Richard, Liu, Ziyang, Jiang, Xingpei, Wang, Xiangtai, Zhang, Gaosen, An, Lizhe, Chen, Shuyan, Xiao, Sa
Format: Journal Article
Language:English
Published: Frontiers Media S.A 25-05-2020
Subjects:
cushion plant
facilitation
high-throughput sequencing
Microbiology
phenotypes
scale
soil microbial community
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Summary:Microorganisms play a crucial role in biogeochemical cycles and ecosystem processes, but the key factors driving microbial community structure are poorly understood, particularly in alpine environments. In this study, we aim to disentangle the relative contribution of abiotic and biotic factors shaping bacterial and fungal community structure at large and small spatial and integration scales in an alpine system dominated by a stress-tolerant cushion species Thylacospermum ceaspitosum . These effects were assessed in two mountain ranges of northwest China and for two contrasting phenotypes of the cushion species inhabiting two different microtopographic positions. The large- and small-scale abiotic effects include the site and microhabitat effects, respectively, while the large- and small-scale biotic effects include the effects of cushion presence and cushion phenotype, respectively. Soil microbial communities were characterized by Illumina Miseq sequencing. Uni- and multivariate statistics were used to test the effects of abiotic and biotic factors at both scales. Results indicated that the site effect representing the soil pH and abiotic hydrothermal conditions mainly affected bacterial community structure, whereas fungal community structure was mainly affected by biotic factors with an equal contribution of cushion presence and cushion phenotype effects. Future studies should analyze the direct factors contributing to shaping microbial community structure in particular of the cushion phenotypes.
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Edited by: Saskia Bindschedler, Université de Neuchâtel, Switzerland
Reviewed by: Kezia Goldmann, Helmholtz Centre for Environmental Research (UFZ), Germany; Julien Roy, Freie Universität Berlin, Germany
This article was submitted to Terrestrial Microbiology, a section of the journal Frontiers in Microbiology
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2020.00925