Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)

The decadal evolution of Arctic and Antarctic sea ice following strong volcanic eruptions is investigated in four climate simulation ensembles performed with the COSMOS-Mill version of the Max Planck Institute Earth System Model. The ensembles differ in the magnitude of the imposed volcanic perturba...

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Main Authors:	Zanchettin, D., Bothe, O., Timmreck, C., Bader, J., Beitsch, A., Graf, H.-F., Notz, D., Jungclaus, J.H.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Göttingen : Copernicus 2014
Subjects:	arcitc sea ice antarctic sea ice volcanic eruption 550 Antarctic Arctic The Antarctic Antarc* Sea ice
Online Access:	https://doi.org/10.34657/4311 https://oa.tib.eu/renate/handle/123456789/5682

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spelling	ftleibnizopen:oai:oai.leibnizopen.de:6jA974cBdbrxVwz6MMWM 2023-06-11T04:07:01+02:00 Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill) Zanchettin, D. Bothe, O. Timmreck, C. Bader, J. Beitsch, A. Graf, H.-F. Notz, D. Jungclaus, J.H. 2014 application/pdf https://doi.org/10.34657/4311 https://oa.tib.eu/renate/handle/123456789/5682 eng eng Göttingen : Copernicus CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/ Earth System Dynamics 5 (2014), Nr. 1 arcitc sea ice antarctic sea ice volcanic eruption 550 article Text 2014 ftleibnizopen https://doi.org/10.34657/4311 2023-05-07T23:28:11Z The decadal evolution of Arctic and Antarctic sea ice following strong volcanic eruptions is investigated in four climate simulation ensembles performed with the COSMOS-Mill version of the Max Planck Institute Earth System Model. The ensembles differ in the magnitude of the imposed volcanic perturbations, with sizes representative of historical tropical eruptions (1991 Pinatubo and 1815 Tambora) and of tropical and extra-tropical "supervolcano" eruptions. A post-eruption Arctic sea-ice expansion is robustly detected in all ensembles, while Antarctic sea ice responds only to supervolcano eruptions, undergoing an initial short-lived expansion and a subsequent prolonged contraction phase. Strong volcanic forcing therefore emerges as a potential source of inter-hemispheric interannual-to-decadal climate variability, although the inter-hemispheric signature is weak in the case of eruptions comparable to historical eruptions. The post-eruption inter-hemispheric decadal asymmetry in sea ice is interpreted as a consequence mainly of the different exposure of Arctic and Antarctic regional climates to induced meridional heat transport changes and of dominating local feedbacks that set in within the Antarctic region. Supervolcano experiments help to clarify differences in simulated hemispheric internal dynamics related to imposed negative net radiative imbalances, including the relative importance of the thermal and dynamical components of the sea-ice response. Supervolcano experiments could therefore serve the assessment of climate models' behavior under strong external forcing conditions and, consequently, favor advancements in our understanding of simulated sea-ice dynamics. publishedVersion Article in Journal/Newspaper Antarc* Antarctic Arctic Sea ice LeibnizOpen (The Leibniz Association) Antarctic Arctic The Antarctic
institution	Open Polar
collection	LeibnizOpen (The Leibniz Association)
op_collection_id	ftleibnizopen
language	English
topic	arcitc sea ice antarctic sea ice volcanic eruption 550
spellingShingle	arcitc sea ice antarctic sea ice volcanic eruption 550 Zanchettin, D. Bothe, O. Timmreck, C. Bader, J. Beitsch, A. Graf, H.-F. Notz, D. Jungclaus, J.H. Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)
topic_facet	arcitc sea ice antarctic sea ice volcanic eruption 550
description	The decadal evolution of Arctic and Antarctic sea ice following strong volcanic eruptions is investigated in four climate simulation ensembles performed with the COSMOS-Mill version of the Max Planck Institute Earth System Model. The ensembles differ in the magnitude of the imposed volcanic perturbations, with sizes representative of historical tropical eruptions (1991 Pinatubo and 1815 Tambora) and of tropical and extra-tropical "supervolcano" eruptions. A post-eruption Arctic sea-ice expansion is robustly detected in all ensembles, while Antarctic sea ice responds only to supervolcano eruptions, undergoing an initial short-lived expansion and a subsequent prolonged contraction phase. Strong volcanic forcing therefore emerges as a potential source of inter-hemispheric interannual-to-decadal climate variability, although the inter-hemispheric signature is weak in the case of eruptions comparable to historical eruptions. The post-eruption inter-hemispheric decadal asymmetry in sea ice is interpreted as a consequence mainly of the different exposure of Arctic and Antarctic regional climates to induced meridional heat transport changes and of dominating local feedbacks that set in within the Antarctic region. Supervolcano experiments help to clarify differences in simulated hemispheric internal dynamics related to imposed negative net radiative imbalances, including the relative importance of the thermal and dynamical components of the sea-ice response. Supervolcano experiments could therefore serve the assessment of climate models' behavior under strong external forcing conditions and, consequently, favor advancements in our understanding of simulated sea-ice dynamics. publishedVersion
format	Article in Journal/Newspaper
author	Zanchettin, D. Bothe, O. Timmreck, C. Bader, J. Beitsch, A. Graf, H.-F. Notz, D. Jungclaus, J.H.
author_facet	Zanchettin, D. Bothe, O. Timmreck, C. Bader, J. Beitsch, A. Graf, H.-F. Notz, D. Jungclaus, J.H.
author_sort	Zanchettin, D.
title	Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)
title_short	Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)
title_full	Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)
title_fullStr	Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)
title_full_unstemmed	Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)
title_sort	inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by mpi-esm (cosmos-mill)
publisher	Göttingen : Copernicus
publishDate	2014
url	https://doi.org/10.34657/4311 https://oa.tib.eu/renate/handle/123456789/5682
geographic	Antarctic Arctic The Antarctic
geographic_facet	Antarctic Arctic The Antarctic
genre	Antarc* Antarctic Arctic Sea ice
genre_facet	Antarc* Antarctic Arctic Sea ice
op_source	Earth System Dynamics 5 (2014), Nr. 1
op_rights	CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/
op_doi	https://doi.org/10.34657/4311
_version_	1768379425552859136

Inter-hemispheric asymmetry in the sea-ice response to volcanic forcing simulated by MPI-ESM (COSMOS-Mill)

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