Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2

We present the Alfred Wegener Institute's contribution to the Pliocene Model Intercomparison Project Phase 2 (PlioMIP2) wherein we employ the Community Earth System Models (COSMOS) that include a dynamic vegetation scheme. This work builds on our contribution to Phase 1 of the Pliocene Model In...

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Published in:Climate of the Past
Main Authors: Stepanek, Christian, Samakinwa, Eric, Knorr, Gregor, Lohmann, Gerrit
Format: Article in Journal/Newspaper
Language:unknown
Published: Copernicus 2020
Subjects:
Arctic Ocean
Sea ice
Online Access:https://epic.awi.de/id/eprint/53320/
https://doi.org/10.5194/cp-16-2275-2020
https://hdl.handle.net/10013/epic.ef0dd844-d3f9-4483-b2fc-743b81ba1ce8
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spelling ftawi:oai:epic.awi.de:53320 2024-09-15T17:54:15+00:00 Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2 Stepanek, Christian Samakinwa, Eric Knorr, Gregor Lohmann, Gerrit 2020 https://epic.awi.de/id/eprint/53320/ https://doi.org/10.5194/cp-16-2275-2020 https://hdl.handle.net/10013/epic.ef0dd844-d3f9-4483-b2fc-743b81ba1ce8 unknown Copernicus Stepanek, C. orcid:0000-0002-3912-6271 , Samakinwa, E. , Knorr, G. orcid:0000-0002-8317-5046 and Lohmann, G. orcid:0000-0003-2089-733X (2020) Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2 , Climate of the Past, 16 (6), pp. 2275-2323 . doi:10.5194/cp-16-2275-2020 <https://doi.org/10.5194/cp-16-2275-2020> , hdl:10013/epic.ef0dd844-d3f9-4483-b2fc-743b81ba1ce8 EPIC3Climate of the Past, Copernicus, 16(6), pp. 2275-2323, ISSN: 1814-9332 Article isiRev 2020 ftawi https://doi.org/10.5194/cp-16-2275-2020 2024-06-24T04:26:11Z We present the Alfred Wegener Institute's contribution to the Pliocene Model Intercomparison Project Phase 2 (PlioMIP2) wherein we employ the Community Earth System Models (COSMOS) that include a dynamic vegetation scheme. This work builds on our contribution to Phase 1 of the Pliocene Model Intercomparison Project (PlioMIP1) wherein we employed the same model without dynamic vegetation. Our input to the PlioMIP2 special issue of Climate of the Past is twofold. In an accompanying paper we compare results derived with COSMOS in the framework of PlioMIP2 and PlioMIP1. With this paper we present details of our contribution with COSMOS to PlioMIP2. We provide a description of the model and of methods employed to transfer reconstructed mid-Pliocene geography, as provided by the Pliocene Reconstruction and Synoptic Mapping Initiative Phase 4 (PRISM4), to model boundary conditions. We describe the spin-up procedure for creating the COSMOS PlioMIP2 simulation ensemble and present large-scale climate patterns of the COSMOS PlioMIP2 mid-Pliocene core simulation. Furthermore, we quantify the contribution of individual components of PRISM4 boundary conditions to characteristics of simulated mid-Pliocene climate and discuss implications for anthropogenic warming. When exposed to PRISM4 boundary conditions, COSMOS provides insight into a mid-Pliocene climate that is characterised by increased rainfall (+0.17 mm d−1) and elevated surface temperature (+3.37 ∘C) in comparison to the pre-industrial (PI). About two-thirds of the mid-Pliocene core temperature anomaly can be directly attributed to carbon dioxide that is elevated with respect to PI. The contribution of topography and ice sheets to mid-Pliocene warmth is much smaller in contrast – about one-quarter and one-eighth, respectively, and nonlinearities are negligible. The simulated mid-Pliocene climate comprises pronounced polar amplification, a reduced meridional temperature gradient, a northwards-shifted tropical rain belt, an Arctic Ocean that is nearly free of sea ice ... Article in Journal/Newspaper Arctic Ocean Sea ice Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Climate of the Past 16 6 2275 2323
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description We present the Alfred Wegener Institute's contribution to the Pliocene Model Intercomparison Project Phase 2 (PlioMIP2) wherein we employ the Community Earth System Models (COSMOS) that include a dynamic vegetation scheme. This work builds on our contribution to Phase 1 of the Pliocene Model Intercomparison Project (PlioMIP1) wherein we employed the same model without dynamic vegetation. Our input to the PlioMIP2 special issue of Climate of the Past is twofold. In an accompanying paper we compare results derived with COSMOS in the framework of PlioMIP2 and PlioMIP1. With this paper we present details of our contribution with COSMOS to PlioMIP2. We provide a description of the model and of methods employed to transfer reconstructed mid-Pliocene geography, as provided by the Pliocene Reconstruction and Synoptic Mapping Initiative Phase 4 (PRISM4), to model boundary conditions. We describe the spin-up procedure for creating the COSMOS PlioMIP2 simulation ensemble and present large-scale climate patterns of the COSMOS PlioMIP2 mid-Pliocene core simulation. Furthermore, we quantify the contribution of individual components of PRISM4 boundary conditions to characteristics of simulated mid-Pliocene climate and discuss implications for anthropogenic warming. When exposed to PRISM4 boundary conditions, COSMOS provides insight into a mid-Pliocene climate that is characterised by increased rainfall (+0.17 mm d−1) and elevated surface temperature (+3.37 ∘C) in comparison to the pre-industrial (PI). About two-thirds of the mid-Pliocene core temperature anomaly can be directly attributed to carbon dioxide that is elevated with respect to PI. The contribution of topography and ice sheets to mid-Pliocene warmth is much smaller in contrast – about one-quarter and one-eighth, respectively, and nonlinearities are negligible. The simulated mid-Pliocene climate comprises pronounced polar amplification, a reduced meridional temperature gradient, a northwards-shifted tropical rain belt, an Arctic Ocean that is nearly free of sea ice ...
format Article in Journal/Newspaper
author Stepanek, Christian
Samakinwa, Eric
Knorr, Gregor
Lohmann, Gerrit
spellingShingle Stepanek, Christian
Samakinwa, Eric
Knorr, Gregor
Lohmann, Gerrit
Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2
author_facet Stepanek, Christian
Samakinwa, Eric
Knorr, Gregor
Lohmann, Gerrit
author_sort Stepanek, Christian
title Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2
title_short Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2
title_full Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2
title_fullStr Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2
title_full_unstemmed Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2
title_sort contribution of the coupled atmosphere–ocean–sea ice–vegetation model cosmos to the pliomip2
publisher Copernicus
publishDate 2020
url https://epic.awi.de/id/eprint/53320/
https://doi.org/10.5194/cp-16-2275-2020
https://hdl.handle.net/10013/epic.ef0dd844-d3f9-4483-b2fc-743b81ba1ce8
genre Arctic Ocean
Sea ice
genre_facet Arctic Ocean
Sea ice
op_source EPIC3Climate of the Past, Copernicus, 16(6), pp. 2275-2323, ISSN: 1814-9332
op_relation Stepanek, C. orcid:0000-0002-3912-6271 , Samakinwa, E. , Knorr, G. orcid:0000-0002-8317-5046 and Lohmann, G. orcid:0000-0003-2089-733X (2020) Contribution of the coupled atmosphere–ocean–sea ice–vegetation model COSMOS to the PlioMIP2 , Climate of the Past, 16 (6), pp. 2275-2323 . doi:10.5194/cp-16-2275-2020 <https://doi.org/10.5194/cp-16-2275-2020> , hdl:10013/epic.ef0dd844-d3f9-4483-b2fc-743b81ba1ce8
op_doi https://doi.org/10.5194/cp-16-2275-2020
container_title Climate of the Past
container_volume 16
container_issue 6
container_start_page 2275
op_container_end_page 2323
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