The Drake Passage opening from an experimental fluid dynamics point of view

Pronounced global cooling around the Eocene–Oligocene transition (EOT) was a pivotal event in Earth’s climate history, controversially associated with the opening of the Drake Passage. Using a physical laboratory model we revisit the fluid dynamics of this marked reorganization of ocean circulation....

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Main Authors: Vincze, Miklós, Bozóki, Tamás, Herein, Mátyás, Borcia, Ian Dan, Harlander, Uwe, Horicsányi, Attila, Nyerges, Anita, Rodda, Constanza, Pál, András, Pálfy, József
Format: Article in Journal/Newspaper
Language:Hungarian
Published: Nature Publishing Group 2021
Subjects:
QE04 Meteorology / meteorológia
Drake Passage
Antarc*
Antarctica
Sea ice
Online Access:http://real.mtak.hu/131150/
http://real.mtak.hu/131150/1/41598_2021_99123_Author.pdf
id ftmtak:oai:real.mtak.hu:131150
record_format openpolar
spelling ftmtak:oai:real.mtak.hu:131150 2023-05-15T13:35:50+02:00 The Drake Passage opening from an experimental fluid dynamics point of view Vincze, Miklós Bozóki, Tamás Herein, Mátyás Borcia, Ian Dan Harlander, Uwe Horicsányi, Attila Nyerges, Anita Rodda, Constanza Pál, András Pálfy, József 2021-10 text http://real.mtak.hu/131150/ http://real.mtak.hu/131150/1/41598_2021_99123_Author.pdf hu hun Nature Publishing Group http://real.mtak.hu/131150/1/41598_2021_99123_Author.pdf Vincze, Miklós and Bozóki, Tamás and Herein, Mátyás and Borcia, Ian Dan and Harlander, Uwe and Horicsányi, Attila and Nyerges, Anita and Rodda, Constanza and Pál, András and Pálfy, József (2021) The Drake Passage opening from an experimental fluid dynamics point of view. SCIENTIFIC REPORTS. ISSN 2045-2322 (In Press) info:eu-repo/semantics/openAccess QE04 Meteorology / meteorológia Article PeerReviewed info:eu-repo/semantics/article 2021 ftmtak 2021-09-29T23:14:38Z Pronounced global cooling around the Eocene–Oligocene transition (EOT) was a pivotal event in Earth’s climate history, controversially associated with the opening of the Drake Passage. Using a physical laboratory model we revisit the fluid dynamics of this marked reorganization of ocean circulation. Here we show, seemingly contradicting paleoclimate records, that in our experiments opening the pathway yields higher values of mean water surface temperature than the “closed” configuration. This mismatch points to the importance of the role ice albedo feedback plays in the investigated EOT-like transition, a component that is not captured in the laboratory model. Our conclusion is supported by numerical simulations performed in a global climate model (GCM) of intermediate complexity, where both “closed” and “open” configurations were explored, with and without active sea ice dynamics. The GCM results indicate that sea surface temperatures would change in the opposite direction following an opening event in the two sea ice dynamics settings, and the results are therefore consistent both with the laboratory experiment (slight warming after opening) and the paleoclimatic data (pronounced cooling after opening). It follows that in the hypothetical case of an initially ice-free Antarctica the continent could have become even warmer after the opening, a scenario not indicated by paleotemperature reconstructions. Article in Journal/Newspaper Antarc* Antarctica Drake Passage Sea ice MTAK: REAL (Library and Information Centre of the Hungarian Academy of Sciences Drake Passage
institution Open Polar
collection MTAK: REAL (Library and Information Centre of the Hungarian Academy of Sciences
op_collection_id ftmtak
language Hungarian
topic QE04 Meteorology / meteorológia
spellingShingle QE04 Meteorology / meteorológia
Vincze, Miklós
Bozóki, Tamás
Herein, Mátyás
Borcia, Ian Dan
Harlander, Uwe
Horicsányi, Attila
Nyerges, Anita
Rodda, Constanza
Pál, András
Pálfy, József
The Drake Passage opening from an experimental fluid dynamics point of view
topic_facet QE04 Meteorology / meteorológia
description Pronounced global cooling around the Eocene–Oligocene transition (EOT) was a pivotal event in Earth’s climate history, controversially associated with the opening of the Drake Passage. Using a physical laboratory model we revisit the fluid dynamics of this marked reorganization of ocean circulation. Here we show, seemingly contradicting paleoclimate records, that in our experiments opening the pathway yields higher values of mean water surface temperature than the “closed” configuration. This mismatch points to the importance of the role ice albedo feedback plays in the investigated EOT-like transition, a component that is not captured in the laboratory model. Our conclusion is supported by numerical simulations performed in a global climate model (GCM) of intermediate complexity, where both “closed” and “open” configurations were explored, with and without active sea ice dynamics. The GCM results indicate that sea surface temperatures would change in the opposite direction following an opening event in the two sea ice dynamics settings, and the results are therefore consistent both with the laboratory experiment (slight warming after opening) and the paleoclimatic data (pronounced cooling after opening). It follows that in the hypothetical case of an initially ice-free Antarctica the continent could have become even warmer after the opening, a scenario not indicated by paleotemperature reconstructions.
format Article in Journal/Newspaper
author Vincze, Miklós
Bozóki, Tamás
Herein, Mátyás
Borcia, Ian Dan
Harlander, Uwe
Horicsányi, Attila
Nyerges, Anita
Rodda, Constanza
Pál, András
Pálfy, József
author_facet Vincze, Miklós
Bozóki, Tamás
Herein, Mátyás
Borcia, Ian Dan
Harlander, Uwe
Horicsányi, Attila
Nyerges, Anita
Rodda, Constanza
Pál, András
Pálfy, József
author_sort Vincze, Miklós
title The Drake Passage opening from an experimental fluid dynamics point of view
title_short The Drake Passage opening from an experimental fluid dynamics point of view
title_full The Drake Passage opening from an experimental fluid dynamics point of view
title_fullStr The Drake Passage opening from an experimental fluid dynamics point of view
title_full_unstemmed The Drake Passage opening from an experimental fluid dynamics point of view
title_sort drake passage opening from an experimental fluid dynamics point of view
publisher Nature Publishing Group
publishDate 2021
url http://real.mtak.hu/131150/
http://real.mtak.hu/131150/1/41598_2021_99123_Author.pdf
geographic Drake Passage
geographic_facet Drake Passage
genre Antarc*
Antarctica
Drake Passage
Sea ice
genre_facet Antarc*
Antarctica
Drake Passage
Sea ice
op_relation http://real.mtak.hu/131150/1/41598_2021_99123_Author.pdf
Vincze, Miklós and Bozóki, Tamás and Herein, Mátyás and Borcia, Ian Dan and Harlander, Uwe and Horicsányi, Attila and Nyerges, Anita and Rodda, Constanza and Pál, András and Pálfy, József (2021) The Drake Passage opening from an experimental fluid dynamics point of view. SCIENTIFIC REPORTS. ISSN 2045-2322 (In Press)
op_rights info:eu-repo/semantics/openAccess
_version_ 1766071081567780864

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