Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009

©2016. American Geophysical Union. All Rights Reserved. A significant portion of the large amount of carbon (C) currently stored in soils of the permafrost region in the Northern Hemisphere has the potential to be emitted as the greenhouse gases CO2 and CH4 under a warmer climate. In this study we e...

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Published in:Global Biogeochemical Cycles
Main Authors: McGuire, AD, Koven, C, Lawrence, DM, Clein, JS, Xia, J, Beer, C, Burke, E, Chen, G, Chen, X, Delire, C, Jafarov, E, MacDougall, AH, Marchenko, S, Nicolsky, D, Peng, S, Rinke, A, Saito, K, Zhang, W, Alkama, R, Bohn, TJ, Ciais, P, Decharme, B, Ekici, A, Gouttevin, I, Hajima, T, Hayes, DJ, Ji, D, Krinner, G, Lettenmaier, DP, Luo, Y, Miller, PA, Moore, JC, Romanovsky, V, Schädel, C, Schaefer, K, Schuur, EAG, Smith, B, Sueyoshi, T, Zhuang, Q
Format: Article in Journal/Newspaper
Language:English
Published: eScholarship, University of California 2016
Subjects:
permafrost
Online Access:http://www.escholarship.org/uc/item/6rf0h1w8
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spelling ftcdlib:qt6rf0h1w8 2023-05-15T17:55:32+02:00 Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009 McGuire, AD Koven, C Lawrence, DM Clein, JS Xia, J Beer, C Burke, E Chen, G Chen, X Delire, C Jafarov, E MacDougall, AH Marchenko, S Nicolsky, D Peng, S Rinke, A Saito, K Zhang, W Alkama, R Bohn, TJ Ciais, P Decharme, B Ekici, A Gouttevin, I Hajima, T Hayes, DJ Ji, D Krinner, G Lettenmaier, DP Luo, Y Miller, PA Moore, JC Romanovsky, V Schädel, C Schaefer, K Schuur, EAG Smith, B Sueyoshi, T Zhuang, Q 1015 - 1037 2016-07-01 application/pdf http://www.escholarship.org/uc/item/6rf0h1w8 english eng eScholarship, University of California qt6rf0h1w8 http://www.escholarship.org/uc/item/6rf0h1w8 public McGuire, AD; Koven, C; Lawrence, DM; Clein, JS; Xia, J; Beer, C; et al.(2016). Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009. Global Biogeochemical Cycles, 30(7), 1015 - 1037. doi:10.1002/2016GB005405. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/6rf0h1w8 article 2016 ftcdlib https://doi.org/10.1002/2016GB005405 2018-11-16T23:52:09Z ©2016. American Geophysical Union. All Rights Reserved. A significant portion of the large amount of carbon (C) currently stored in soils of the permafrost region in the Northern Hemisphere has the potential to be emitted as the greenhouse gases CO2 and CH4 under a warmer climate. In this study we evaluated the variability in the sensitivity of permafrost and C in recent decades among land surface model simulations over the permafrost region between 1960 and 2009. The 15 model simulations all predict a loss of near-surface permafrost (within 3 m) area over the region, but there are large differences in the magnitude of the simulated rates of loss among the models (0.2 to 58.8 × 103 km2 yr−1). Sensitivity simulations indicated that changes in air temperature largely explained changes in permafrost area, although interactions among changes in other environmental variables also played a role. All of the models indicate that both vegetation and soil C storage together have increased by 156 to 954 Tg C yr−1 between 1960 and 2009 over the permafrost region even though model analyses indicate that warming alone would decrease soil C storage. Increases in gross primary production (GPP) largely explain the simulated increases in vegetation and soil C. The sensitivity of GPP to increases in atmospheric CO2 was the dominant cause of increases in GPP across the models, but comparison of simulated GPP trends across the 1982–2009 period with that of a global GPP data set indicates that all of the models overestimate the trend in GPP. Disturbance also appears to be an important factor affecting C storage, as models that consider disturbance had lower increases in C storage than models that did not consider disturbance. To improve the modeling of C in the permafrost region, there is the need for the modeling community to standardize structural representation of permafrost and carbon dynamics among models that are used to evaluate the permafrost C feedback and for the modeling and observational communities to jointly develop data sets and methodologies to more effectively benchmark models. Article in Journal/Newspaper permafrost University of California: eScholarship Global Biogeochemical Cycles 30 7 1015 1037
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language English
description ©2016. American Geophysical Union. All Rights Reserved. A significant portion of the large amount of carbon (C) currently stored in soils of the permafrost region in the Northern Hemisphere has the potential to be emitted as the greenhouse gases CO2 and CH4 under a warmer climate. In this study we evaluated the variability in the sensitivity of permafrost and C in recent decades among land surface model simulations over the permafrost region between 1960 and 2009. The 15 model simulations all predict a loss of near-surface permafrost (within 3 m) area over the region, but there are large differences in the magnitude of the simulated rates of loss among the models (0.2 to 58.8 × 103 km2 yr−1). Sensitivity simulations indicated that changes in air temperature largely explained changes in permafrost area, although interactions among changes in other environmental variables also played a role. All of the models indicate that both vegetation and soil C storage together have increased by 156 to 954 Tg C yr−1 between 1960 and 2009 over the permafrost region even though model analyses indicate that warming alone would decrease soil C storage. Increases in gross primary production (GPP) largely explain the simulated increases in vegetation and soil C. The sensitivity of GPP to increases in atmospheric CO2 was the dominant cause of increases in GPP across the models, but comparison of simulated GPP trends across the 1982–2009 period with that of a global GPP data set indicates that all of the models overestimate the trend in GPP. Disturbance also appears to be an important factor affecting C storage, as models that consider disturbance had lower increases in C storage than models that did not consider disturbance. To improve the modeling of C in the permafrost region, there is the need for the modeling community to standardize structural representation of permafrost and carbon dynamics among models that are used to evaluate the permafrost C feedback and for the modeling and observational communities to jointly develop data sets and methodologies to more effectively benchmark models.
format Article in Journal/Newspaper
author McGuire, AD
Koven, C
Lawrence, DM
Clein, JS
Xia, J
Beer, C
Burke, E
Chen, G
Chen, X
Delire, C
Jafarov, E
MacDougall, AH
Marchenko, S
Nicolsky, D
Peng, S
Rinke, A
Saito, K
Zhang, W
Alkama, R
Bohn, TJ
Ciais, P
Decharme, B
Ekici, A
Gouttevin, I
Hajima, T
Hayes, DJ
Ji, D
Krinner, G
Lettenmaier, DP
Luo, Y
Miller, PA
Moore, JC
Romanovsky, V
Schädel, C
Schaefer, K
Schuur, EAG
Smith, B
Sueyoshi, T
Zhuang, Q
spellingShingle McGuire, AD
Koven, C
Lawrence, DM
Clein, JS
Xia, J
Beer, C
Burke, E
Chen, G
Chen, X
Delire, C
Jafarov, E
MacDougall, AH
Marchenko, S
Nicolsky, D
Peng, S
Rinke, A
Saito, K
Zhang, W
Alkama, R
Bohn, TJ
Ciais, P
Decharme, B
Ekici, A
Gouttevin, I
Hajima, T
Hayes, DJ
Ji, D
Krinner, G
Lettenmaier, DP
Luo, Y
Miller, PA
Moore, JC
Romanovsky, V
Schädel, C
Schaefer, K
Schuur, EAG
Smith, B
Sueyoshi, T
Zhuang, Q
Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009
author_facet McGuire, AD
Koven, C
Lawrence, DM
Clein, JS
Xia, J
Beer, C
Burke, E
Chen, G
Chen, X
Delire, C
Jafarov, E
MacDougall, AH
Marchenko, S
Nicolsky, D
Peng, S
Rinke, A
Saito, K
Zhang, W
Alkama, R
Bohn, TJ
Ciais, P
Decharme, B
Ekici, A
Gouttevin, I
Hajima, T
Hayes, DJ
Ji, D
Krinner, G
Lettenmaier, DP
Luo, Y
Miller, PA
Moore, JC
Romanovsky, V
Schädel, C
Schaefer, K
Schuur, EAG
Smith, B
Sueyoshi, T
Zhuang, Q
author_sort McGuire, AD
title Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009
title_short Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009
title_full Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009
title_fullStr Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009
title_full_unstemmed Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009
title_sort variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009
publisher eScholarship, University of California
publishDate 2016
url http://www.escholarship.org/uc/item/6rf0h1w8
op_coverage 1015 - 1037
genre permafrost
genre_facet permafrost
op_source McGuire, AD; Koven, C; Lawrence, DM; Clein, JS; Xia, J; Beer, C; et al.(2016). Variability in the sensitivity among model simulations of permafrost and carbon dynamics in the permafrost region between 1960 and 2009. Global Biogeochemical Cycles, 30(7), 1015 - 1037. doi:10.1002/2016GB005405. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/6rf0h1w8
op_relation qt6rf0h1w8
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op_rights public
op_doi https://doi.org/10.1002/2016GB005405
container_title Global Biogeochemical Cycles
container_volume 30
container_issue 7
container_start_page 1015
op_container_end_page 1037
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