Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions

Climate warming and summer droughts alter soil microbial activity, affecting greenhouse gas (GHG) emissions in Arctic and alpine regions. However, the long-term effects of warming, and implications for future microbial resilience, are poorly understood. Using one alpine and three Arctic soils subjec...

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Published in:FEMS Microbiology Ecology
Main Authors: Fry, E.L., Ashworth, D., Allen, K.A.J., Chardon, N.I., Rixen, C., Björkman, M.P., Björk, R.G., Stålhandske, T., Molau, M., Locke-King, B., Cantillon, I., McDonald, C., Liu, H., De Vries, F.T., Ostle, N.J., Singh, B.K., Bardgett, R.D.
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
Arctic
Online Access:https://dare.uva.nl/personal/pure/en/publications/vegetation-type-not-the-legacy-of-warming-modifies-the-response-of-microbial-functional-genes-and-greenhouse-gas-fluxes-to-drought-in-oroarctic-and-alpine-regions(55fb064b-2f42-4c2e-bdd3-fb7b80c64222).html
https://doi.org/10.1093/femsec/fiad145
https://hdl.handle.net/11245.1/55fb064b-2f42-4c2e-bdd3-fb7b80c64222
https://pure.uva.nl/ws/files/153195038/fiad145.pdf
http://www.scopus.com/inward/record.url?scp=85178496240&partnerID=8YFLogxK
id ftunivamstpubl:oai:dare.uva.nl:openaire_cris_publications/55fb064b-2f42-4c2e-bdd3-fb7b80c64222
record_format openpolar
spelling ftunivamstpubl:oai:dare.uva.nl:openaire_cris_publications/55fb064b-2f42-4c2e-bdd3-fb7b80c64222 2024-10-06T13:45:01+00:00 Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions Fry, E.L. Ashworth, D. Allen, K.A.J. Chardon, N.I. Rixen, C. Björkman, M.P. Björk, R.G. Stålhandske, T. Molau, M. Locke-King, B. Cantillon, I. McDonald, C. Liu, H. De Vries, F.T. Ostle, N.J. Singh, B.K. Bardgett, R.D. 2023-12-01 application/pdf https://dare.uva.nl/personal/pure/en/publications/vegetation-type-not-the-legacy-of-warming-modifies-the-response-of-microbial-functional-genes-and-greenhouse-gas-fluxes-to-drought-in-oroarctic-and-alpine-regions(55fb064b-2f42-4c2e-bdd3-fb7b80c64222).html https://doi.org/10.1093/femsec/fiad145 https://hdl.handle.net/11245.1/55fb064b-2f42-4c2e-bdd3-fb7b80c64222 https://pure.uva.nl/ws/files/153195038/fiad145.pdf http://www.scopus.com/inward/record.url?scp=85178496240&partnerID=8YFLogxK eng eng https://dare.uva.nl/personal/pure/en/publications/vegetation-type-not-the-legacy-of-warming-modifies-the-response-of-microbial-functional-genes-and-greenhouse-gas-fluxes-to-drought-in-oroarctic-and-alpine-regions(55fb064b-2f42-4c2e-bdd3-fb7b80c64222).html info:eu-repo/semantics/openAccess Fry , E L , Ashworth , D , Allen , K A J , Chardon , N I , Rixen , C , Björkman , M P , Björk , R G , Stålhandske , T , Molau , M , Locke-King , B , Cantillon , I , McDonald , C , Liu , H , De Vries , F T , Ostle , N J , Singh , B K & Bardgett , R D 2023 , ' Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions ' , FEMS Microbiology Ecology , vol. 99 , no. 12 , fiad145 , pp. 1-13 . https://doi.org/10.1093/femsec/fiad145 article 2023 ftunivamstpubl https://doi.org/10.1093/femsec/fiad145 2024-09-12T16:38:42Z Climate warming and summer droughts alter soil microbial activity, affecting greenhouse gas (GHG) emissions in Arctic and alpine regions. However, the long-term effects of warming, and implications for future microbial resilience, are poorly understood. Using one alpine and three Arctic soils subjected to in situ long-term experimental warming, we simulated drought in laboratory incubations to test how microbial functional-gene abundance affects fluxes in three GHGs: carbon dioxide, methane, and nitrous oxide. We found that responses of functional gene abundances to drought and warming are strongly associated with vegetation type and soil carbon. Our sites ranged from a wet, forb dominated, soil carbon-rich systems to a drier, soil carbon-poor alpine site. Resilience of functional gene abundances, and in turn methane and carbon dioxide fluxes, was lower in the wetter, carbon-rich systems. However, we did not detect an effect of drought or warming on nitrous oxide fluxes. All gene-GHG relationships were modified by vegetation type, with stronger effects being observed in wetter, forb-rich soils. These results suggest that impacts of warming and drought on GHG emissions are linked to a complex set of microbial gene abundances and may be habitat-specific. Article in Journal/Newspaper Arctic Arctic Universiteit van Amsterdam: Digital Academic Repository (UvA DARE) Arctic FEMS Microbiology Ecology 99 12
institution Open Polar
collection Universiteit van Amsterdam: Digital Academic Repository (UvA DARE)
op_collection_id ftunivamstpubl
language English
description Climate warming and summer droughts alter soil microbial activity, affecting greenhouse gas (GHG) emissions in Arctic and alpine regions. However, the long-term effects of warming, and implications for future microbial resilience, are poorly understood. Using one alpine and three Arctic soils subjected to in situ long-term experimental warming, we simulated drought in laboratory incubations to test how microbial functional-gene abundance affects fluxes in three GHGs: carbon dioxide, methane, and nitrous oxide. We found that responses of functional gene abundances to drought and warming are strongly associated with vegetation type and soil carbon. Our sites ranged from a wet, forb dominated, soil carbon-rich systems to a drier, soil carbon-poor alpine site. Resilience of functional gene abundances, and in turn methane and carbon dioxide fluxes, was lower in the wetter, carbon-rich systems. However, we did not detect an effect of drought or warming on nitrous oxide fluxes. All gene-GHG relationships were modified by vegetation type, with stronger effects being observed in wetter, forb-rich soils. These results suggest that impacts of warming and drought on GHG emissions are linked to a complex set of microbial gene abundances and may be habitat-specific.
format Article in Journal/Newspaper
author Fry, E.L.
Ashworth, D.
Allen, K.A.J.
Chardon, N.I.
Rixen, C.
Björkman, M.P.
Björk, R.G.
Stålhandske, T.
Molau, M.
Locke-King, B.
Cantillon, I.
McDonald, C.
Liu, H.
De Vries, F.T.
Ostle, N.J.
Singh, B.K.
Bardgett, R.D.
spellingShingle Fry, E.L.
Ashworth, D.
Allen, K.A.J.
Chardon, N.I.
Rixen, C.
Björkman, M.P.
Björk, R.G.
Stålhandske, T.
Molau, M.
Locke-King, B.
Cantillon, I.
McDonald, C.
Liu, H.
De Vries, F.T.
Ostle, N.J.
Singh, B.K.
Bardgett, R.D.
Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions
author_facet Fry, E.L.
Ashworth, D.
Allen, K.A.J.
Chardon, N.I.
Rixen, C.
Björkman, M.P.
Björk, R.G.
Stålhandske, T.
Molau, M.
Locke-King, B.
Cantillon, I.
McDonald, C.
Liu, H.
De Vries, F.T.
Ostle, N.J.
Singh, B.K.
Bardgett, R.D.
author_sort Fry, E.L.
title Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions
title_short Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions
title_full Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions
title_fullStr Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions
title_full_unstemmed Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions
title_sort vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in oro-arctic and alpine regions
publishDate 2023
url https://dare.uva.nl/personal/pure/en/publications/vegetation-type-not-the-legacy-of-warming-modifies-the-response-of-microbial-functional-genes-and-greenhouse-gas-fluxes-to-drought-in-oroarctic-and-alpine-regions(55fb064b-2f42-4c2e-bdd3-fb7b80c64222).html
https://doi.org/10.1093/femsec/fiad145
https://hdl.handle.net/11245.1/55fb064b-2f42-4c2e-bdd3-fb7b80c64222
https://pure.uva.nl/ws/files/153195038/fiad145.pdf
http://www.scopus.com/inward/record.url?scp=85178496240&partnerID=8YFLogxK
geographic Arctic
geographic_facet Arctic
genre Arctic
Arctic
genre_facet Arctic
Arctic
op_source Fry , E L , Ashworth , D , Allen , K A J , Chardon , N I , Rixen , C , Björkman , M P , Björk , R G , Stålhandske , T , Molau , M , Locke-King , B , Cantillon , I , McDonald , C , Liu , H , De Vries , F T , Ostle , N J , Singh , B K & Bardgett , R D 2023 , ' Vegetation type, not the legacy of warming, modifies the response of microbial functional genes and greenhouse gas fluxes to drought in Oro-Arctic and alpine regions ' , FEMS Microbiology Ecology , vol. 99 , no. 12 , fiad145 , pp. 1-13 . https://doi.org/10.1093/femsec/fiad145
op_relation https://dare.uva.nl/personal/pure/en/publications/vegetation-type-not-the-legacy-of-warming-modifies-the-response-of-microbial-functional-genes-and-greenhouse-gas-fluxes-to-drought-in-oroarctic-and-alpine-regions(55fb064b-2f42-4c2e-bdd3-fb7b80c64222).html
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1093/femsec/fiad145
container_title FEMS Microbiology Ecology
container_volume 99
container_issue 12
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