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Rewiring of peatland plant–microbe networks outpaces species turnover

Rewiring of peatland plant–microbe networks outpaces species turnover
Rewiring of peatland plant–microbe networks outpaces species turnover
Interactions between plant and microbial communities in peatlands are complex, yet pivotal for the functioning of these carbon-dense ecosystems. Our understanding of how climate change affects important peatland processes such as carbon dynamics is often based on assumed fixed relationships between above-and belowground communities. Our work shows that the turnover in plant–microbial interactions along enviro–climatic gradients is faster than species turnover within both communities, resulting in a mismatch in alpha diversity between plant and microbial communities. Notably, warming and increased nutrient deposition weakens plant–microbe linkages, which may consequentially decrease the overall robustness of peatland ecosystem processes to future anthropogenic pressures.
EASY
Robroek, BJM
06dcb269-687c-41db-ab73-f61899617f92
Robroek, BJM
06dcb269-687c-41db-ab73-f61899617f92

(2021) Rewiring of peatland plant–microbe networks outpaces species turnover. EASY doi:10.17026/dans-z4a-k5jy [Dataset]

Record type: Dataset

Abstract

Interactions between plant and microbial communities in peatlands are complex, yet pivotal for the functioning of these carbon-dense ecosystems. Our understanding of how climate change affects important peatland processes such as carbon dynamics is often based on assumed fixed relationships between above-and belowground communities. Our work shows that the turnover in plant–microbial interactions along enviro–climatic gradients is faster than species turnover within both communities, resulting in a mismatch in alpha diversity between plant and microbial communities. Notably, warming and increased nutrient deposition weakens plant–microbe linkages, which may consequentially decrease the overall robustness of peatland ecosystem processes to future anthropogenic pressures.

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Published date: 1 January 2021
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Identifiers

Local EPrints ID: 448588
URI: http://eprints.soton.ac.uk/id/eprint/448588
DOI: doi:10.17026/dans-z4a-k5jy
PURE UUID: 9c79a34f-3cc6-42d3-a3c1-d12b6a38111f
ORCID for BJM Robroek: ORCID iD orcid.org/0000-0002-6714-0652

Catalogue record

Date deposited: 27 Apr 2021 16:43
Last modified: 17 Nov 2023 18:19

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Contributors

Contributor: BJM Robroek ORCID iD

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