Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model

It is widely accepted that orbital variations are responsible for the generation of glacial cycles during the late Pleistocene. However, the relative contributions of the orbital forcing compared to CO2 variations and other feedback mechanisms causing the waxing and waning of ice sheets have not bee...

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Published in:Climate of the Past
Main Authors: Choudhury, D, Timmermann, A, Schloesser, F, Heinemann, M, Pollard, D
Format: Article in Journal/Newspaper
Language:unknown
Published: Copernicus Publications 2020
Subjects:
13 Climate Action
anzsrc-for: 0406 Physical Geography and Environmental Geoscience
Ice Sheet
Online Access:http://hdl.handle.net/1959.4/unsworks_73897
https://unsworks.unsw.edu.au/bitstreams/b2feb4fe-7a34-40c5-90cb-ef5882acb2e5/download
https://doi.org/10.5194/cp-16-2183-2020
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spelling ftunswworks:oai:unsworks.library.unsw.edu.au:1959.4/unsworks_73897 2024-05-19T07:42:05+00:00 Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model Choudhury, D Timmermann, A Schloesser, F Heinemann, M Pollard, D 2020-11-13 application/pdf http://hdl.handle.net/1959.4/unsworks_73897 https://unsworks.unsw.edu.au/bitstreams/b2feb4fe-7a34-40c5-90cb-ef5882acb2e5/download https://doi.org/10.5194/cp-16-2183-2020 unknown Copernicus Publications http://hdl.handle.net/1959.4/unsworks_73897 https://unsworks.unsw.edu.au/bitstreams/b2feb4fe-7a34-40c5-90cb-ef5882acb2e5/download https://doi.org/10.5194/cp-16-2183-2020 open access https://purl.org/coar/access_right/c_abf2 CC-BY-NC-ND https://creativecommons.org/licenses/by-nc-nd/4.0/ free_to_read urn:ISSN:1814-9324 urn:ISSN:1814-9332 Climate of the Past, 16, 6, 2183-2201 13 Climate Action anzsrc-for: 0406 Physical Geography and Environmental Geoscience journal article http://purl.org/coar/resource_type/c_6501 2020 ftunswworks https://doi.org/10.5194/cp-16-2183-2020 2024-04-24T00:49:22Z It is widely accepted that orbital variations are responsible for the generation of glacial cycles during the late Pleistocene. However, the relative contributions of the orbital forcing compared to CO2 variations and other feedback mechanisms causing the waxing and waning of ice sheets have not been fully understood. Testing theories of ice ages beyond statistical inferences, requires numerical modeling experiments that capture key features of glacial transitions. Here, we focus on the glacial buildup from Marine Isotope Stage (MIS) 7 to 6 covering the period from 240 to 170 ka (ka: thousand years before present). This transition from interglacial to glacial conditions includes one of the fastest Pleistocene glaciation-deglaciation events, which occurred during MIS 7e-7d-7c (236-218 ka). Using a newly developed three-dimensional coupled atmosphere-ocean-vegetation-ice sheet model (LOVECLIP), we simulate the transient evolution of Northern Hemisphere and Southern Hemisphere ice sheets during the MIS 7-6 period in response to orbital and greenhouse gas forcing. For a range of model parameters, the simulations capture the evolution of global ice volume well within the range of reconstructions. Over the MIS 7-6 period, it is demonstrated that glacial inceptions are more sensitive to orbital variations, whereas terminations from deep glacial conditions need both orbital and greenhouse gas forcings to work in unison. For some parameter values, the coupled model also exhibits a critical North American ice sheet configuration, beyond which a stationary-wave-ice-sheet topography feedback can trigger an unabated and unrealistic ice sheet growth. The strong parameter sensitivity found in this study originates from the fact that delicate mass imbalances, as well as errors, are integrated during a transient simulation for thousands of years. This poses a general challenge for transient coupled climate-ice sheet modeling, with such coupled paleo-simulations providing opportunities to constrain such parameters. Article in Journal/Newspaper Ice Sheet UNSW Sydney (The University of New South Wales): UNSWorks Climate of the Past 16 6 2183 2201
institution Open Polar
collection UNSW Sydney (The University of New South Wales): UNSWorks
op_collection_id ftunswworks
language unknown
topic 13 Climate Action
anzsrc-for: 0406 Physical Geography and Environmental Geoscience
spellingShingle 13 Climate Action
anzsrc-for: 0406 Physical Geography and Environmental Geoscience
Choudhury, D
Timmermann, A
Schloesser, F
Heinemann, M
Pollard, D
Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model
topic_facet 13 Climate Action
anzsrc-for: 0406 Physical Geography and Environmental Geoscience
description It is widely accepted that orbital variations are responsible for the generation of glacial cycles during the late Pleistocene. However, the relative contributions of the orbital forcing compared to CO2 variations and other feedback mechanisms causing the waxing and waning of ice sheets have not been fully understood. Testing theories of ice ages beyond statistical inferences, requires numerical modeling experiments that capture key features of glacial transitions. Here, we focus on the glacial buildup from Marine Isotope Stage (MIS) 7 to 6 covering the period from 240 to 170 ka (ka: thousand years before present). This transition from interglacial to glacial conditions includes one of the fastest Pleistocene glaciation-deglaciation events, which occurred during MIS 7e-7d-7c (236-218 ka). Using a newly developed three-dimensional coupled atmosphere-ocean-vegetation-ice sheet model (LOVECLIP), we simulate the transient evolution of Northern Hemisphere and Southern Hemisphere ice sheets during the MIS 7-6 period in response to orbital and greenhouse gas forcing. For a range of model parameters, the simulations capture the evolution of global ice volume well within the range of reconstructions. Over the MIS 7-6 period, it is demonstrated that glacial inceptions are more sensitive to orbital variations, whereas terminations from deep glacial conditions need both orbital and greenhouse gas forcings to work in unison. For some parameter values, the coupled model also exhibits a critical North American ice sheet configuration, beyond which a stationary-wave-ice-sheet topography feedback can trigger an unabated and unrealistic ice sheet growth. The strong parameter sensitivity found in this study originates from the fact that delicate mass imbalances, as well as errors, are integrated during a transient simulation for thousands of years. This poses a general challenge for transient coupled climate-ice sheet modeling, with such coupled paleo-simulations providing opportunities to constrain such parameters.
format Article in Journal/Newspaper
author Choudhury, D
Timmermann, A
Schloesser, F
Heinemann, M
Pollard, D
author_facet Choudhury, D
Timmermann, A
Schloesser, F
Heinemann, M
Pollard, D
author_sort Choudhury, D
title Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model
title_short Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model
title_full Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model
title_fullStr Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model
title_full_unstemmed Simulating Marine Isotope Stage 7 with a coupled climate-ice sheet model
title_sort simulating marine isotope stage 7 with a coupled climate-ice sheet model
publisher Copernicus Publications
publishDate 2020
url http://hdl.handle.net/1959.4/unsworks_73897
https://unsworks.unsw.edu.au/bitstreams/b2feb4fe-7a34-40c5-90cb-ef5882acb2e5/download
https://doi.org/10.5194/cp-16-2183-2020
genre Ice Sheet
genre_facet Ice Sheet
op_source urn:ISSN:1814-9324
urn:ISSN:1814-9332
Climate of the Past, 16, 6, 2183-2201
op_relation http://hdl.handle.net/1959.4/unsworks_73897
https://unsworks.unsw.edu.au/bitstreams/b2feb4fe-7a34-40c5-90cb-ef5882acb2e5/download
https://doi.org/10.5194/cp-16-2183-2020
op_rights open access
https://purl.org/coar/access_right/c_abf2
CC-BY-NC-ND
https://creativecommons.org/licenses/by-nc-nd/4.0/
free_to_read
op_doi https://doi.org/10.5194/cp-16-2183-2020
container_title Climate of the Past
container_volume 16
container_issue 6
container_start_page 2183
op_container_end_page 2201
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