Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?

The permafrost region holds vast amounts of carbon which, upon thaw, may be released to the atmosphere as CO2 through enhanced decomposition. While links between soil carbon content and respiration have been shown by, for example, numerous incubation studies, it remains challenging to establish simi...

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Main Authors: Parmentier, F. J. W., Belelli Marchesini, L., Wille, C., Hugelius, G., Siewert, M. B., Aurela, M., Boike, J., Christensen, T. R., Dolman, A. J., Friborg, T., Goeckede, M., Hensgens, G., Holl, D., van Huissteden, K. J., Kutzbach, L., Laurila, T. J. A., Pirk, N., Sachs, T., Shurpali, N. J., Zhao, Y., Kuhry, P.
Other Authors: Parmentier, F.J.W., Siewert, M.B., Christensen, T.R., Dolman, A.J., van Huissteden, K.J., Laurila, T.J.A., Shurpali, N.J.
Format: Conference Object
Language:English
Published: 2024
Subjects:
Settore AGR/05 - ASSESTAMENTO FORESTALE E SELVICOLTURA
Settore AGRI-03/B - Selvicoltura
pianificazione ed ecologia forestale
Arctic
permafrost
Online Access:https://hdl.handle.net/10449/88286
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author Parmentier, F. J. W.
Belelli Marchesini, L.
Wille, C.
Hugelius, G.
Siewert, M. B.
Aurela, M.
Boike, J.
Christensen, T. R.
Dolman, A. J.
Friborg, T.
Goeckede, M.
Hensgens, G.
Holl, D.
van Huissteden, K. J.
Kutzbach, L.
Laurila, T. J. A.
Pirk, N.
Sachs, T.
Shurpali, N. J.
Zhao, Y.
Kuhry, P.
author2 Parmentier, F.J.W.
Belelli Marchesini, L.
Wille, C.
Hugelius, G.
Siewert, M.B.
Aurela, M.
Boike, J.
Christensen, T.R.
Dolman, A.J.
Friborg, T.
Goeckede, M.
Hensgens, G.
Holl, D.
van Huissteden, K.J.
Kutzbach, L.
Laurila, T.J.A.
Pirk, N.
Sachs, T.
Shurpali, N.J.
Zhao, Y.
Kuhry, P.
author_facet Parmentier, F. J. W.
Belelli Marchesini, L.
Wille, C.
Hugelius, G.
Siewert, M. B.
Aurela, M.
Boike, J.
Christensen, T. R.
Dolman, A. J.
Friborg, T.
Goeckede, M.
Hensgens, G.
Holl, D.
van Huissteden, K. J.
Kutzbach, L.
Laurila, T. J. A.
Pirk, N.
Sachs, T.
Shurpali, N. J.
Zhao, Y.
Kuhry, P.
author_sort Parmentier, F. J. W.
collection Fondazione Edmund Mach: IRIS-OpenPub
description The permafrost region holds vast amounts of carbon which, upon thaw, may be released to the atmosphere as CO2 through enhanced decomposition. While links between soil carbon content and respiration have been shown by, for example, numerous incubation studies, it remains challenging to establish similar relationships from in-situ data collected in the field – especially at the large landscape-scale of eddy covariance towers. Part of the reason is the high heterogeneity of Arctic landscapes, combined with frequently shifting footprint distributions, and general lack of detailed soil carbon data that make it difficult to separate the signal from the noise. In this study, therefore, we combine detailed surveys of soil carbon content with high resolution footprint analyses to explore whether inter-site differences in ecosystem respiration across ten different sites in the Arctic can be explained by soil carbon content. Soil carbon data at each site was collected across dominant landforms and analyzed with depth. At 5 sites, these data were further developed into high resolution soil carbon maps. At the remaining sites, spatially weighted estimates of soil carbon content were determined proportionally to dominant landforms. Net CO2 fluxes collected by the towers were processed according to the same pipeline and partitioned into GPP and ecosystem respiration. These fluxes were related to the amount of soil carbon in the active layer at dominant landforms through a spatially explicit footprint analysis. Our preliminary results suggest that active layer soil carbon storage is a major predictor of inter-site differences in ecosystem respiration. This study will further explore the robustness of this relationship and how it relates to differences in climate, growing season length and plant productivity.
format Conference Object
genre Arctic
permafrost
genre_facet Arctic
permafrost
geographic Arctic
geographic_facet Arctic
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institution Open Polar
language English
op_collection_id ftiasma
op_relation ispartofbook:AGU24, Washington D.C. (USA), 9-13 December 2024
AGU24
https://hdl.handle.net/10449/88286
op_rights info:eu-repo/semantics/openAccess
publishDate 2024
record_format openpolar
spelling ftiasma:oai:openpub.fmach.it:10449/88286 2025-03-02T15:22:59+00:00 Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region? Parmentier, F. J. W. Belelli Marchesini, L. Wille, C. Hugelius, G. Siewert, M. B. Aurela, M. Boike, J. Christensen, T. R. Dolman, A. J. Friborg, T. Goeckede, M. Hensgens, G. Holl, D. van Huissteden, K. J. Kutzbach, L. Laurila, T. J. A. Pirk, N. Sachs, T. Shurpali, N. J. Zhao, Y. Kuhry, P. Parmentier, F.J.W. Belelli Marchesini, L. Wille, C. Hugelius, G. Siewert, M.B. Aurela, M. Boike, J. Christensen, T.R. Dolman, A.J. Friborg, T. Goeckede, M. Hensgens, G. Holl, D. van Huissteden, K.J. Kutzbach, L. Laurila, T.J.A. Pirk, N. Sachs, T. Shurpali, N.J. Zhao, Y. Kuhry, P. 2024 https://hdl.handle.net/10449/88286 eng eng ispartofbook:AGU24, Washington D.C. (USA), 9-13 December 2024 AGU24 https://hdl.handle.net/10449/88286 info:eu-repo/semantics/openAccess Settore AGR/05 - ASSESTAMENTO FORESTALE E SELVICOLTURA Settore AGRI-03/B - Selvicoltura pianificazione ed ecologia forestale info:eu-repo/semantics/conferenceObject 2024 ftiasma 2025-02-04T08:00:46Z The permafrost region holds vast amounts of carbon which, upon thaw, may be released to the atmosphere as CO2 through enhanced decomposition. While links between soil carbon content and respiration have been shown by, for example, numerous incubation studies, it remains challenging to establish similar relationships from in-situ data collected in the field – especially at the large landscape-scale of eddy covariance towers. Part of the reason is the high heterogeneity of Arctic landscapes, combined with frequently shifting footprint distributions, and general lack of detailed soil carbon data that make it difficult to separate the signal from the noise. In this study, therefore, we combine detailed surveys of soil carbon content with high resolution footprint analyses to explore whether inter-site differences in ecosystem respiration across ten different sites in the Arctic can be explained by soil carbon content. Soil carbon data at each site was collected across dominant landforms and analyzed with depth. At 5 sites, these data were further developed into high resolution soil carbon maps. At the remaining sites, spatially weighted estimates of soil carbon content were determined proportionally to dominant landforms. Net CO2 fluxes collected by the towers were processed according to the same pipeline and partitioned into GPP and ecosystem respiration. These fluxes were related to the amount of soil carbon in the active layer at dominant landforms through a spatially explicit footprint analysis. Our preliminary results suggest that active layer soil carbon storage is a major predictor of inter-site differences in ecosystem respiration. This study will further explore the robustness of this relationship and how it relates to differences in climate, growing season length and plant productivity. Conference Object Arctic permafrost Fondazione Edmund Mach: IRIS-OpenPub Arctic
spellingShingle Settore AGR/05 - ASSESTAMENTO FORESTALE E SELVICOLTURA
Settore AGRI-03/B - Selvicoltura
pianificazione ed ecologia forestale
Parmentier, F. J. W.
Belelli Marchesini, L.
Wille, C.
Hugelius, G.
Siewert, M. B.
Aurela, M.
Boike, J.
Christensen, T. R.
Dolman, A. J.
Friborg, T.
Goeckede, M.
Hensgens, G.
Holl, D.
van Huissteden, K. J.
Kutzbach, L.
Laurila, T. J. A.
Pirk, N.
Sachs, T.
Shurpali, N. J.
Zhao, Y.
Kuhry, P.
Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?
title Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?
title_full Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?
title_fullStr Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?
title_full_unstemmed Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?
title_short Does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?
title_sort does soil carbon content explain inter-site differences in ecosystem respiration across the permafrost region?
topic Settore AGR/05 - ASSESTAMENTO FORESTALE E SELVICOLTURA
Settore AGRI-03/B - Selvicoltura
pianificazione ed ecologia forestale
topic_facet Settore AGR/05 - ASSESTAMENTO FORESTALE E SELVICOLTURA
Settore AGRI-03/B - Selvicoltura
pianificazione ed ecologia forestale
url https://hdl.handle.net/10449/88286

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