DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data

We present results from an ensemble of eight climate models, each of which has carried out simulations of the early Eocene climate optimum (EECO, ∼ 50 million years ago). These simulations have been carried out in the framework of the Deep-Time Model Intercomparison Project (DeepMIP; http://www.deep...

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Published in:Climate of the Past
Main Authors: Lunt, Daniel J., Bragg, Fran, Chan, Wing-Le, Hutchinson, David K., Ladant, Jean-Baptiste, Morozova, Polina, Niezgodzki, Igor, Steinig, Sebastian, Zhang, Zhongshi, Zhu, Jiang, Abe-Ouchi, Ayako, Anagnostou, Eleni, de Boer, Agatha M., Coxall, Helen K., Donnadieu, Yannick, Foster, Gavin, Inglis, Gordon N., Knorr, Gregor, Langebroek, Petra M., Lear, Caroline H., Lohmann, Gerrit, Poulsen, Christopher J., Sepulchre, Pierre, Tierney, Jessica E., Valdes, Paul J., Volodin, Evgeny M., Dunkley Jones, Tom, Hollis, Christopher J., Huber, Matthew, Otto-Bliesner, Bette L.
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2021
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article
Verlagsveröffentlichung
Antarc*
Antarctic
Ice Sheet
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spelling ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00055274 2024-09-15T17:47:37+00:00 DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data Lunt, Daniel J. Bragg, Fran Chan, Wing-Le Hutchinson, David K. Ladant, Jean-Baptiste Morozova, Polina Niezgodzki, Igor Steinig, Sebastian Zhang, Zhongshi Zhu, Jiang Abe-Ouchi, Ayako Anagnostou, Eleni de Boer, Agatha M. Coxall, Helen K. Donnadieu, Yannick Foster, Gavin Inglis, Gordon N. Knorr, Gregor Langebroek, Petra M. Lear, Caroline H. Lohmann, Gerrit Poulsen, Christopher J. Sepulchre, Pierre Tierney, Jessica E. Valdes, Paul J. Volodin, Evgeny M. Dunkley Jones, Tom Hollis, Christopher J. Huber, Matthew Otto-Bliesner, Bette L. 2021-01 electronic https://doi.org/10.5194/cp-17-203-2021 https://noa.gwlb.de/receive/cop_mods_00055274 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00054925/cp-17-203-2021.pdf https://cp.copernicus.org/articles/17/203/2021/cp-17-203-2021.pdf eng eng Copernicus Publications Climate of the Past -- http://www.copernicus.org/EGU/cp/cp/published_papers.html -- http://www.bibliothek.uni-regensburg.de/ezeit/?2217985 -- 1814-9332 https://doi.org/10.5194/cp-17-203-2021 https://noa.gwlb.de/receive/cop_mods_00055274 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00054925/cp-17-203-2021.pdf https://cp.copernicus.org/articles/17/203/2021/cp-17-203-2021.pdf https://creativecommons.org/licenses/by/4.0/ uneingeschränkt info:eu-repo/semantics/openAccess article Verlagsveröffentlichung article Text doc-type:article 2021 ftnonlinearchiv https://doi.org/10.5194/cp-17-203-2021 2024-06-26T04:41:37Z We present results from an ensemble of eight climate models, each of which has carried out simulations of the early Eocene climate optimum (EECO, ∼ 50 million years ago). These simulations have been carried out in the framework of the Deep-Time Model Intercomparison Project (DeepMIP; http://www.deepmip.org, last access: 10 January 2021); thus, all models have been configured with the same paleogeographic and vegetation boundary conditions. The results indicate that these non-CO2 boundary conditions contribute between 3 and 5 ∘C to Eocene warmth. Compared with results from previous studies, the DeepMIP simulations generally show a reduced spread of the global mean surface temperature response across the ensemble for a given atmospheric CO2 concentration as well as an increased climate sensitivity on average. An energy balance analysis of the model ensemble indicates that global mean warming in the Eocene compared with the preindustrial period mostly arises from decreases in emissivity due to the elevated CO2 concentration (and associated water vapour and long-wave cloud feedbacks), whereas the reduction in the Eocene in terms of the meridional temperature gradient is primarily due to emissivity and albedo changes owing to the non-CO2 boundary conditions (i.e. the removal of the Antarctic ice sheet and changes in vegetation). Three of the models (the Community Earth System Model, CESM; the Geophysical Fluid Dynamics Laboratory, GFDL, model; and the Norwegian Earth System Model, NorESM) show results that are consistent with the proxies in terms of the global mean temperature, meridional SST gradient, and CO2, without prescribing changes to model parameters. In addition, many of the models agree well with the first-order spatial patterns in the SST proxies. However, at a more regional scale, the models lack skill. In particular, the modelled anomalies are substantially lower than those indicated by the proxies in the southwest Pacific; here, modelled continental surface air temperature anomalies are more consistent ... Article in Journal/Newspaper Antarc* Antarctic Ice Sheet Niedersächsisches Online-Archiv NOA Climate of the Past 17 1 203 227
institution Open Polar
collection Niedersächsisches Online-Archiv NOA
op_collection_id ftnonlinearchiv
language English
topic article
Verlagsveröffentlichung
spellingShingle article
Verlagsveröffentlichung
Lunt, Daniel J.
Bragg, Fran
Chan, Wing-Le
Hutchinson, David K.
Ladant, Jean-Baptiste
Morozova, Polina
Niezgodzki, Igor
Steinig, Sebastian
Zhang, Zhongshi
Zhu, Jiang
Abe-Ouchi, Ayako
Anagnostou, Eleni
de Boer, Agatha M.
Coxall, Helen K.
Donnadieu, Yannick
Foster, Gavin
Inglis, Gordon N.
Knorr, Gregor
Langebroek, Petra M.
Lear, Caroline H.
Lohmann, Gerrit
Poulsen, Christopher J.
Sepulchre, Pierre
Tierney, Jessica E.
Valdes, Paul J.
Volodin, Evgeny M.
Dunkley Jones, Tom
Hollis, Christopher J.
Huber, Matthew
Otto-Bliesner, Bette L.
DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data
topic_facet article
Verlagsveröffentlichung
description We present results from an ensemble of eight climate models, each of which has carried out simulations of the early Eocene climate optimum (EECO, ∼ 50 million years ago). These simulations have been carried out in the framework of the Deep-Time Model Intercomparison Project (DeepMIP; http://www.deepmip.org, last access: 10 January 2021); thus, all models have been configured with the same paleogeographic and vegetation boundary conditions. The results indicate that these non-CO2 boundary conditions contribute between 3 and 5 ∘C to Eocene warmth. Compared with results from previous studies, the DeepMIP simulations generally show a reduced spread of the global mean surface temperature response across the ensemble for a given atmospheric CO2 concentration as well as an increased climate sensitivity on average. An energy balance analysis of the model ensemble indicates that global mean warming in the Eocene compared with the preindustrial period mostly arises from decreases in emissivity due to the elevated CO2 concentration (and associated water vapour and long-wave cloud feedbacks), whereas the reduction in the Eocene in terms of the meridional temperature gradient is primarily due to emissivity and albedo changes owing to the non-CO2 boundary conditions (i.e. the removal of the Antarctic ice sheet and changes in vegetation). Three of the models (the Community Earth System Model, CESM; the Geophysical Fluid Dynamics Laboratory, GFDL, model; and the Norwegian Earth System Model, NorESM) show results that are consistent with the proxies in terms of the global mean temperature, meridional SST gradient, and CO2, without prescribing changes to model parameters. In addition, many of the models agree well with the first-order spatial patterns in the SST proxies. However, at a more regional scale, the models lack skill. In particular, the modelled anomalies are substantially lower than those indicated by the proxies in the southwest Pacific; here, modelled continental surface air temperature anomalies are more consistent ...
format Article in Journal/Newspaper
author Lunt, Daniel J.
Bragg, Fran
Chan, Wing-Le
Hutchinson, David K.
Ladant, Jean-Baptiste
Morozova, Polina
Niezgodzki, Igor
Steinig, Sebastian
Zhang, Zhongshi
Zhu, Jiang
Abe-Ouchi, Ayako
Anagnostou, Eleni
de Boer, Agatha M.
Coxall, Helen K.
Donnadieu, Yannick
Foster, Gavin
Inglis, Gordon N.
Knorr, Gregor
Langebroek, Petra M.
Lear, Caroline H.
Lohmann, Gerrit
Poulsen, Christopher J.
Sepulchre, Pierre
Tierney, Jessica E.
Valdes, Paul J.
Volodin, Evgeny M.
Dunkley Jones, Tom
Hollis, Christopher J.
Huber, Matthew
Otto-Bliesner, Bette L.
author_facet Lunt, Daniel J.
Bragg, Fran
Chan, Wing-Le
Hutchinson, David K.
Ladant, Jean-Baptiste
Morozova, Polina
Niezgodzki, Igor
Steinig, Sebastian
Zhang, Zhongshi
Zhu, Jiang
Abe-Ouchi, Ayako
Anagnostou, Eleni
de Boer, Agatha M.
Coxall, Helen K.
Donnadieu, Yannick
Foster, Gavin
Inglis, Gordon N.
Knorr, Gregor
Langebroek, Petra M.
Lear, Caroline H.
Lohmann, Gerrit
Poulsen, Christopher J.
Sepulchre, Pierre
Tierney, Jessica E.
Valdes, Paul J.
Volodin, Evgeny M.
Dunkley Jones, Tom
Hollis, Christopher J.
Huber, Matthew
Otto-Bliesner, Bette L.
author_sort Lunt, Daniel J.
title DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data
title_short DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data
title_full DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data
title_fullStr DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data
title_full_unstemmed DeepMIP: model intercomparison of early Eocene climatic optimum (EECO) large-scale climate features and comparison with proxy data
title_sort deepmip: model intercomparison of early eocene climatic optimum (eeco) large-scale climate features and comparison with proxy data
publisher Copernicus Publications
publishDate 2021
url https://doi.org/10.5194/cp-17-203-2021
https://noa.gwlb.de/receive/cop_mods_00055274
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00054925/cp-17-203-2021.pdf
https://cp.copernicus.org/articles/17/203/2021/cp-17-203-2021.pdf
genre Antarc*
Antarctic
Ice Sheet
genre_facet Antarc*
Antarctic
Ice Sheet
op_relation Climate of the Past -- http://www.copernicus.org/EGU/cp/cp/published_papers.html -- http://www.bibliothek.uni-regensburg.de/ezeit/?2217985 -- 1814-9332
https://doi.org/10.5194/cp-17-203-2021
https://noa.gwlb.de/receive/cop_mods_00055274
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00054925/cp-17-203-2021.pdf
https://cp.copernicus.org/articles/17/203/2021/cp-17-203-2021.pdf
op_rights https://creativecommons.org/licenses/by/4.0/
uneingeschränkt
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.5194/cp-17-203-2021
container_title Climate of the Past
container_volume 17
container_issue 1
container_start_page 203
op_container_end_page 227
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