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Intra-species variation in a widely distributed tree species regulates the responses of soil microbiome to different temperature regimes.

Author
Abstract
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Plant characteristics in different provenances within a single species may vary in response to climate change, which might alter soil microbial communities and ecosystem functions. We conducted a glasshouse experiment and grew seedlings of three provenances (temperate, subtropical and tropical origins) of a tree species (i.e. Eucalyptus tereticornis) at different growth temperatures (18, 21.5, 25, 28.5, 32 and 35.5°C) for 54 days. At the end of the experiment, bacterial and fungal community composition, diversity and abundance were characterized. Measured soil functions included surrogates of microbial respiration, enzyme activities and nutrient cycling. Using Permutation multivariate analysis of variance (PerMANOVA) and network analysis, we found that the identity of tree provenances regulated both structure and function of soil microbiomes. In some cases, tree provenances substantially affected the response of microbial communities to the temperature treatments. For example, we found significant interactions of temperature and tree provenance on bacterial community and relative abundances of Chloroflexi and Zygomycota, and inorganic nitrogen. Microbial abundance was altered in response to increasing temperature, but was not affected by tree provenances. Our study provides novel evidence that even a small variation in biotic components (i.e. intra-species tree variation) can significantly influence the response of soil microbial community composition and specific soil functions to global warming. This article is protected by copyright. All rights reserved.

Year of Publication
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2018
Journal
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Environmental microbiology reports
Date Published
:
2018
DOI
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10.1111/1758-2229.12613
Short Title
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Environ Microbiol Rep
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