Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions

Soils in Arctic and boreal ecosystems store twice as much carbon as the atmosphere, a portion of which may be released as high-latitude soils warm. Some of the uncertainty in the timing and magnitude of the permafrost–climate feedback stems from complex interactions between ecosystem properties and...

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Main Authors: Loranty, M.M., Abbott, B.W., Blok, D., Douglas, T.A., Epstein, H.E., Forbes, B.C., Jones, B.M., Kholodov, A.L., Kropp, H., Malhotra, A., Mamet, S.D., Myers-Smith, I.H., Natali, S.M., O'Donnell, J.A., Phoenix, G.K., Rocha, A.V., Sonnentag, O., Tape, K.D., Walker, D.A.
Format: Article in Journal/Newspaper
Language:English
Published: European Geosciences Union (EGU) 2018
Subjects:
Arctic
Climate change
permafrost
Online Access:https://eprints.whiterose.ac.uk/145523/
https://eprints.whiterose.ac.uk/145523/1/Loranty%20et%20al%20Biogeosci%202018%20Reviews%20and%20syntheses%20Changing%20ecosystem%20influenc.pdf
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spelling ftleedsuniv:oai:eprints.whiterose.ac.uk:145523 2023-05-15T14:59:22+02:00 Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions Loranty, M.M. Abbott, B.W. Blok, D. Douglas, T.A. Epstein, H.E. Forbes, B.C. Jones, B.M. Kholodov, A.L. Kropp, H. Malhotra, A. Mamet, S.D. Myers-Smith, I.H. Natali, S.M. O'Donnell, J.A. Phoenix, G.K. Rocha, A.V. Sonnentag, O. Tape, K.D. Walker, D.A. 2018-08-31 text https://eprints.whiterose.ac.uk/145523/ https://eprints.whiterose.ac.uk/145523/1/Loranty%20et%20al%20Biogeosci%202018%20Reviews%20and%20syntheses%20Changing%20ecosystem%20influenc.pdf en eng European Geosciences Union (EGU) https://eprints.whiterose.ac.uk/145523/1/Loranty%20et%20al%20Biogeosci%202018%20Reviews%20and%20syntheses%20Changing%20ecosystem%20influenc.pdf Loranty, M.M., Abbott, B.W., Blok, D. et al. (16 more authors) (2018) Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions. Biogeosciences, 15 (17). pp. 5287-5313. ISSN 1726-4170 cc_by_4 CC-BY Article PeerReviewed 2018 ftleedsuniv 2023-01-30T22:18:23Z Soils in Arctic and boreal ecosystems store twice as much carbon as the atmosphere, a portion of which may be released as high-latitude soils warm. Some of the uncertainty in the timing and magnitude of the permafrost–climate feedback stems from complex interactions between ecosystem properties and soil thermal dynamics. Terrestrial ecosystems fundamentally regulate the response of permafrost to climate change by influencing surface energy partitioning and the thermal properties of soil itself. Here we review how Arctic and boreal ecosystem processes influence thermal dynamics in permafrost soil and how these linkages may evolve in response to climate change. While many of the ecosystem characteristics and processes affecting soil thermal dynamics have been examined individually (e.g., vegetation, soil moisture, and soil structure), interactions among these processes are less understood. Changes in ecosystem type and vegetation characteristics will alter spatial patterns of interactions between climate and permafrost. In addition to shrub expansion, other vegetation responses to changes in climate and rapidly changing disturbance regimes will affect ecosystem surface energy partitioning in ways that are important for permafrost. Lastly, changes in vegetation and ecosystem distribution will lead to regional and global biophysical and biogeochemical climate feedbacks that may compound or offset local impacts on permafrost soils. Consequently, accurate prediction of the permafrost carbon climate feedback will require detailed understanding of changes in terrestrial ecosystem distribution and function, which depend on the net effects of multiple feedback processes operating across scales in space and time. Article in Journal/Newspaper Arctic Climate change permafrost White Rose Research Online (Universities of Leeds, Sheffield & York) Arctic
institution Open Polar
collection White Rose Research Online (Universities of Leeds, Sheffield & York)
op_collection_id ftleedsuniv
language English
description Soils in Arctic and boreal ecosystems store twice as much carbon as the atmosphere, a portion of which may be released as high-latitude soils warm. Some of the uncertainty in the timing and magnitude of the permafrost–climate feedback stems from complex interactions between ecosystem properties and soil thermal dynamics. Terrestrial ecosystems fundamentally regulate the response of permafrost to climate change by influencing surface energy partitioning and the thermal properties of soil itself. Here we review how Arctic and boreal ecosystem processes influence thermal dynamics in permafrost soil and how these linkages may evolve in response to climate change. While many of the ecosystem characteristics and processes affecting soil thermal dynamics have been examined individually (e.g., vegetation, soil moisture, and soil structure), interactions among these processes are less understood. Changes in ecosystem type and vegetation characteristics will alter spatial patterns of interactions between climate and permafrost. In addition to shrub expansion, other vegetation responses to changes in climate and rapidly changing disturbance regimes will affect ecosystem surface energy partitioning in ways that are important for permafrost. Lastly, changes in vegetation and ecosystem distribution will lead to regional and global biophysical and biogeochemical climate feedbacks that may compound or offset local impacts on permafrost soils. Consequently, accurate prediction of the permafrost carbon climate feedback will require detailed understanding of changes in terrestrial ecosystem distribution and function, which depend on the net effects of multiple feedback processes operating across scales in space and time.
format Article in Journal/Newspaper
author Loranty, M.M.
Abbott, B.W.
Blok, D.
Douglas, T.A.
Epstein, H.E.
Forbes, B.C.
Jones, B.M.
Kholodov, A.L.
Kropp, H.
Malhotra, A.
Mamet, S.D.
Myers-Smith, I.H.
Natali, S.M.
O'Donnell, J.A.
Phoenix, G.K.
Rocha, A.V.
Sonnentag, O.
Tape, K.D.
Walker, D.A.
spellingShingle Loranty, M.M.
Abbott, B.W.
Blok, D.
Douglas, T.A.
Epstein, H.E.
Forbes, B.C.
Jones, B.M.
Kholodov, A.L.
Kropp, H.
Malhotra, A.
Mamet, S.D.
Myers-Smith, I.H.
Natali, S.M.
O'Donnell, J.A.
Phoenix, G.K.
Rocha, A.V.
Sonnentag, O.
Tape, K.D.
Walker, D.A.
Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions
author_facet Loranty, M.M.
Abbott, B.W.
Blok, D.
Douglas, T.A.
Epstein, H.E.
Forbes, B.C.
Jones, B.M.
Kholodov, A.L.
Kropp, H.
Malhotra, A.
Mamet, S.D.
Myers-Smith, I.H.
Natali, S.M.
O'Donnell, J.A.
Phoenix, G.K.
Rocha, A.V.
Sonnentag, O.
Tape, K.D.
Walker, D.A.
author_sort Loranty, M.M.
title Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions
title_short Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions
title_full Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions
title_fullStr Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions
title_full_unstemmed Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions
title_sort reviews and syntheses: changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions
publisher European Geosciences Union (EGU)
publishDate 2018
url https://eprints.whiterose.ac.uk/145523/
https://eprints.whiterose.ac.uk/145523/1/Loranty%20et%20al%20Biogeosci%202018%20Reviews%20and%20syntheses%20Changing%20ecosystem%20influenc.pdf
geographic Arctic
geographic_facet Arctic
genre Arctic
Climate change
permafrost
genre_facet Arctic
Climate change
permafrost
op_relation https://eprints.whiterose.ac.uk/145523/1/Loranty%20et%20al%20Biogeosci%202018%20Reviews%20and%20syntheses%20Changing%20ecosystem%20influenc.pdf
Loranty, M.M., Abbott, B.W., Blok, D. et al. (16 more authors) (2018) Reviews and syntheses: Changing ecosystem influences on soil thermal regimes in northern high-latitude permafrost regions. Biogeosciences, 15 (17). pp. 5287-5313. ISSN 1726-4170
op_rights cc_by_4
op_rightsnorm CC-BY
_version_ 1766331475755532288

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