WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia

It is known that wetlands are the world's largest natural source of methane, a powerful greenhouse gas. The strong sensitivity of methane emissions to environmental factors such as soil temperature and moisture has led to concerns about potential positive feedbacks to climate change. This risk...

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Published in:Biogeosciences
Main Authors: Bohn, T. J., Melton, J. R., Ito, A., Kleinen, T., Spahni, R., Stocker, B. D., Zhang, B., Zhu, X., Schroeder, R., Glagolev, M. V., Maksyutov, S., Brovkin, V., Chen, Guangsheng, Denisov, S. N., Eliseev, A. V., Gallego-Sala, A., McDonald, K. C., Rawlins, M. A., Riley, W. J., Subin, Z. M., Tian, H., Zhuang, Q., Kaplan, J. O.
Language:unknown
Published: 2023
Subjects:
54 ENVIRONMENTAL SCIENCES
58 GEOSCIENCES
permafrost
Siberia
Online Access:http://www.osti.gov/servlets/purl/1265354
https://www.osti.gov/biblio/1265354
https://doi.org/10.5194/bg-12-3321-2015
id ftosti:oai:osti.gov:1265354
record_format openpolar
spelling ftosti:oai:osti.gov:1265354 2023-07-30T04:06:19+02:00 WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia Bohn, T. J. Melton, J. R. Ito, A. Kleinen, T. Spahni, R. Stocker, B. D. Zhang, B. Zhu, X. Schroeder, R. Glagolev, M. V. Maksyutov, S. Brovkin, V. Chen, Guangsheng Denisov, S. N. Eliseev, A. V. Gallego-Sala, A. McDonald, K. C. Rawlins, M. A. Riley, W. J. Subin, Z. M. Tian, H. Zhuang, Q. Kaplan, J. O. 2023-06-26 application/pdf http://www.osti.gov/servlets/purl/1265354 https://www.osti.gov/biblio/1265354 https://doi.org/10.5194/bg-12-3321-2015 unknown http://www.osti.gov/servlets/purl/1265354 https://www.osti.gov/biblio/1265354 https://doi.org/10.5194/bg-12-3321-2015 doi:10.5194/bg-12-3321-2015 54 ENVIRONMENTAL SCIENCES 58 GEOSCIENCES 2023 ftosti https://doi.org/10.5194/bg-12-3321-2015 2023-07-11T09:07:32Z It is known that wetlands are the world's largest natural source of methane, a powerful greenhouse gas. The strong sensitivity of methane emissions to environmental factors such as soil temperature and moisture has led to concerns about potential positive feedbacks to climate change. This risk is particularly relevant at high latitudes, which have experienced pronounced warming and where thawing permafrost could potentially liberate large amounts of labile carbon over the next 100 years. However, global models disagree as to the magnitude and spatial distribution of emissions, due to uncertainties in wetland area and emissions per unit area and a scarcity of in situ observations. Recent intensive field campaigns across the West Siberian Lowland (WSL) make this an ideal region over which to assess the performance of large-scale process-based wetland models in a high-latitude environment. Here we present the results of a follow-up to the Wetland and Wetland CH 4 Intercomparison of Models Project (WETCHIMP), focused on the West Siberian Lowland (WETCHIMP-WSL). We assessed 21 models and 5 inversions over this domain in terms of total CH 4 emissions, simulated wetland areas, and CH 4 fluxes per unit wetland area and compared these results to an intensive in situ CH 4 flux data set, several wetland maps, and two satellite surface water products. We found that (a) despite the large scatter of individual estimates, 12-year mean estimates of annual total emissions over the WSL from forward models (5.34 ± 0.54 Tg CH4 yr -1 ), inversions (6.06 ± 1.22 Tg CH 4 yr -1 ), and in situ observations (3.91 ± 1.29 Tg CH4 yr -1 ) largely agreed; (b) forward models using surface water products alone to estimate wetland areas suffered from severe biases in CH 4 emissions; (c) the interannual time series of models that lacked either soil thermal physics appropriate to the high latitudes or realistic emissions from unsaturated peatlands tended to be dominated by a single environmental driver (inundation or air temperature), unlike those ... Other/Unknown Material permafrost Siberia SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy) Biogeosciences 12 11 3321 3349
institution Open Polar
collection SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy)
op_collection_id ftosti
language unknown
topic 54 ENVIRONMENTAL SCIENCES
58 GEOSCIENCES
spellingShingle 54 ENVIRONMENTAL SCIENCES
58 GEOSCIENCES
Bohn, T. J.
Melton, J. R.
Ito, A.
Kleinen, T.
Spahni, R.
Stocker, B. D.
Zhang, B.
Zhu, X.
Schroeder, R.
Glagolev, M. V.
Maksyutov, S.
Brovkin, V.
Chen, Guangsheng
Denisov, S. N.
Eliseev, A. V.
Gallego-Sala, A.
McDonald, K. C.
Rawlins, M. A.
Riley, W. J.
Subin, Z. M.
Tian, H.
Zhuang, Q.
Kaplan, J. O.
WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia
topic_facet 54 ENVIRONMENTAL SCIENCES
58 GEOSCIENCES
description It is known that wetlands are the world's largest natural source of methane, a powerful greenhouse gas. The strong sensitivity of methane emissions to environmental factors such as soil temperature and moisture has led to concerns about potential positive feedbacks to climate change. This risk is particularly relevant at high latitudes, which have experienced pronounced warming and where thawing permafrost could potentially liberate large amounts of labile carbon over the next 100 years. However, global models disagree as to the magnitude and spatial distribution of emissions, due to uncertainties in wetland area and emissions per unit area and a scarcity of in situ observations. Recent intensive field campaigns across the West Siberian Lowland (WSL) make this an ideal region over which to assess the performance of large-scale process-based wetland models in a high-latitude environment. Here we present the results of a follow-up to the Wetland and Wetland CH 4 Intercomparison of Models Project (WETCHIMP), focused on the West Siberian Lowland (WETCHIMP-WSL). We assessed 21 models and 5 inversions over this domain in terms of total CH 4 emissions, simulated wetland areas, and CH 4 fluxes per unit wetland area and compared these results to an intensive in situ CH 4 flux data set, several wetland maps, and two satellite surface water products. We found that (a) despite the large scatter of individual estimates, 12-year mean estimates of annual total emissions over the WSL from forward models (5.34 ± 0.54 Tg CH4 yr -1 ), inversions (6.06 ± 1.22 Tg CH 4 yr -1 ), and in situ observations (3.91 ± 1.29 Tg CH4 yr -1 ) largely agreed; (b) forward models using surface water products alone to estimate wetland areas suffered from severe biases in CH 4 emissions; (c) the interannual time series of models that lacked either soil thermal physics appropriate to the high latitudes or realistic emissions from unsaturated peatlands tended to be dominated by a single environmental driver (inundation or air temperature), unlike those ...
author Bohn, T. J.
Melton, J. R.
Ito, A.
Kleinen, T.
Spahni, R.
Stocker, B. D.
Zhang, B.
Zhu, X.
Schroeder, R.
Glagolev, M. V.
Maksyutov, S.
Brovkin, V.
Chen, Guangsheng
Denisov, S. N.
Eliseev, A. V.
Gallego-Sala, A.
McDonald, K. C.
Rawlins, M. A.
Riley, W. J.
Subin, Z. M.
Tian, H.
Zhuang, Q.
Kaplan, J. O.
author_facet Bohn, T. J.
Melton, J. R.
Ito, A.
Kleinen, T.
Spahni, R.
Stocker, B. D.
Zhang, B.
Zhu, X.
Schroeder, R.
Glagolev, M. V.
Maksyutov, S.
Brovkin, V.
Chen, Guangsheng
Denisov, S. N.
Eliseev, A. V.
Gallego-Sala, A.
McDonald, K. C.
Rawlins, M. A.
Riley, W. J.
Subin, Z. M.
Tian, H.
Zhuang, Q.
Kaplan, J. O.
author_sort Bohn, T. J.
title WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia
title_short WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia
title_full WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia
title_fullStr WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia
title_full_unstemmed WETCHIMP-WSL: intercomparison of wetland methane emissions models over West Siberia
title_sort wetchimp-wsl: intercomparison of wetland methane emissions models over west siberia
publishDate 2023
url http://www.osti.gov/servlets/purl/1265354
https://www.osti.gov/biblio/1265354
https://doi.org/10.5194/bg-12-3321-2015
genre permafrost
Siberia
genre_facet permafrost
Siberia
op_relation http://www.osti.gov/servlets/purl/1265354
https://www.osti.gov/biblio/1265354
https://doi.org/10.5194/bg-12-3321-2015
doi:10.5194/bg-12-3321-2015
op_doi https://doi.org/10.5194/bg-12-3321-2015
container_title Biogeosciences
container_volume 12
container_issue 11
container_start_page 3321
op_container_end_page 3349
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