Progressive Cenozoic cooling and the demise of Antarctica's last refugium

The Antarctic Peninsula is considered to be the last region of Antarctica to have been fully glaciated as a result of Cenozoic climatic cooling. As such, it was likely the last refugium for plants and animals that had inhabited the continent since it separated from the Gondwana supercontinent. Drill...

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Published in:Proceedings of the National Academy of Sciences
Main Authors: Anderson, J.B., Warny, S., Askin, R.A., Wellner, J.S., Bohaty, S.M., Kirshner, A.E., Livsey, D.N., Simms, A.R., Smith, T.R., Ehrmann, W., Lawver, L.A., Barbeau, D., Wise, S.W., Kulhenek, D.K., Weaver, F.M., Majewski, W.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2011
Subjects:
Antarctic
Antarctic Peninsula
The Antarctic
Antarc*
Antarctica
Ice Sheet
Tundra
Online Access:https://eprints.soton.ac.uk/194927/
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spelling ftsouthampton:oai:eprints.soton.ac.uk:194927 2023-07-30T03:59:23+02:00 Progressive Cenozoic cooling and the demise of Antarctica's last refugium Anderson, J.B. Warny, S. Askin, R.A. Wellner, J.S. Bohaty, S.M. Kirshner, A.E. Livsey, D.N. Simms, A.R. Smith, T.R. Ehrmann, W. Lawver, L.A. Barbeau, D. Wise, S.W. Kulhenek, D.K. Weaver, F.M. Majewski, W. 2011-07-12 https://eprints.soton.ac.uk/194927/ unknown Anderson, J.B., Warny, S., Askin, R.A., Wellner, J.S., Bohaty, S.M., Kirshner, A.E., Livsey, D.N., Simms, A.R., Smith, T.R., Ehrmann, W., Lawver, L.A., Barbeau, D., Wise, S.W., Kulhenek, D.K., Weaver, F.M. and Majewski, W. (2011) Progressive Cenozoic cooling and the demise of Antarctica's last refugium. Proceedings of the National Academy of Sciences, 108 (28), 11356-11360. (doi:10.1073/pnas.1014885108 <http://dx.doi.org/10.1073/pnas.1014885108>). Article PeerReviewed 2011 ftsouthampton https://doi.org/10.1073/pnas.1014885108 2023-07-09T21:23:21Z The Antarctic Peninsula is considered to be the last region of Antarctica to have been fully glaciated as a result of Cenozoic climatic cooling. As such, it was likely the last refugium for plants and animals that had inhabited the continent since it separated from the Gondwana supercontinent. Drill cores and seismic data acquired during two cruises (SHALDRIL I and II) in the northernmost Peninsula region yield a record that, when combined with existing data, indicates progressive cooling and associated changes in terrestrial vegetation over the course of the past 37 million years. Mountain glaciation began in the latest Eocene (approximately 37–34 Ma), contemporaneous with glaciation elsewhere on the continent and a reduction in atmospheric CO2 concentrations. This climate cooling was accompanied by a decrease in diversity of the angiosperm-dominated vegetation that inhabited the northern peninsula during the Eocene. A mosaic of southern beech and conifer-dominated woodlands and tundra continued to occupy the region during the Oligocene (approximately 34–23 Ma). By the middle Miocene (approximately 16–11.6 Ma), localized pockets of limited tundra still existed at least until 12.8 Ma. The transition from temperate, alpine glaciation to a dynamic, polythermal ice sheet took place during the middle Miocene. The northernmost Peninsula was overridden by an ice sheet in the early Pliocene (approximately 5.3–3.6 Ma). The long cooling history of the peninsula is consistent with the extended timescales of tectonic evolution of the Antarctic margin, involving the opening of ocean passageways and associated establishment of circumpolar circulation. Article in Journal/Newspaper Antarc* Antarctic Antarctic Peninsula Antarctica Ice Sheet Tundra University of Southampton: e-Prints Soton Antarctic Antarctic Peninsula The Antarctic Proceedings of the National Academy of Sciences 108 28 11356 11360
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language unknown
description The Antarctic Peninsula is considered to be the last region of Antarctica to have been fully glaciated as a result of Cenozoic climatic cooling. As such, it was likely the last refugium for plants and animals that had inhabited the continent since it separated from the Gondwana supercontinent. Drill cores and seismic data acquired during two cruises (SHALDRIL I and II) in the northernmost Peninsula region yield a record that, when combined with existing data, indicates progressive cooling and associated changes in terrestrial vegetation over the course of the past 37 million years. Mountain glaciation began in the latest Eocene (approximately 37–34 Ma), contemporaneous with glaciation elsewhere on the continent and a reduction in atmospheric CO2 concentrations. This climate cooling was accompanied by a decrease in diversity of the angiosperm-dominated vegetation that inhabited the northern peninsula during the Eocene. A mosaic of southern beech and conifer-dominated woodlands and tundra continued to occupy the region during the Oligocene (approximately 34–23 Ma). By the middle Miocene (approximately 16–11.6 Ma), localized pockets of limited tundra still existed at least until 12.8 Ma. The transition from temperate, alpine glaciation to a dynamic, polythermal ice sheet took place during the middle Miocene. The northernmost Peninsula was overridden by an ice sheet in the early Pliocene (approximately 5.3–3.6 Ma). The long cooling history of the peninsula is consistent with the extended timescales of tectonic evolution of the Antarctic margin, involving the opening of ocean passageways and associated establishment of circumpolar circulation.
format Article in Journal/Newspaper
author Anderson, J.B.
Warny, S.
Askin, R.A.
Wellner, J.S.
Bohaty, S.M.
Kirshner, A.E.
Livsey, D.N.
Simms, A.R.
Smith, T.R.
Ehrmann, W.
Lawver, L.A.
Barbeau, D.
Wise, S.W.
Kulhenek, D.K.
Weaver, F.M.
Majewski, W.
spellingShingle Anderson, J.B.
Warny, S.
Askin, R.A.
Wellner, J.S.
Bohaty, S.M.
Kirshner, A.E.
Livsey, D.N.
Simms, A.R.
Smith, T.R.
Ehrmann, W.
Lawver, L.A.
Barbeau, D.
Wise, S.W.
Kulhenek, D.K.
Weaver, F.M.
Majewski, W.
Progressive Cenozoic cooling and the demise of Antarctica's last refugium
author_facet Anderson, J.B.
Warny, S.
Askin, R.A.
Wellner, J.S.
Bohaty, S.M.
Kirshner, A.E.
Livsey, D.N.
Simms, A.R.
Smith, T.R.
Ehrmann, W.
Lawver, L.A.
Barbeau, D.
Wise, S.W.
Kulhenek, D.K.
Weaver, F.M.
Majewski, W.
author_sort Anderson, J.B.
title Progressive Cenozoic cooling and the demise of Antarctica's last refugium
title_short Progressive Cenozoic cooling and the demise of Antarctica's last refugium
title_full Progressive Cenozoic cooling and the demise of Antarctica's last refugium
title_fullStr Progressive Cenozoic cooling and the demise of Antarctica's last refugium
title_full_unstemmed Progressive Cenozoic cooling and the demise of Antarctica's last refugium
title_sort progressive cenozoic cooling and the demise of antarctica's last refugium
publishDate 2011
url https://eprints.soton.ac.uk/194927/
geographic Antarctic
Antarctic Peninsula
The Antarctic
geographic_facet Antarctic
Antarctic Peninsula
The Antarctic
genre Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Ice Sheet
Tundra
genre_facet Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Ice Sheet
Tundra
op_relation Anderson, J.B., Warny, S., Askin, R.A., Wellner, J.S., Bohaty, S.M., Kirshner, A.E., Livsey, D.N., Simms, A.R., Smith, T.R., Ehrmann, W., Lawver, L.A., Barbeau, D., Wise, S.W., Kulhenek, D.K., Weaver, F.M. and Majewski, W. (2011) Progressive Cenozoic cooling and the demise of Antarctica's last refugium. Proceedings of the National Academy of Sciences, 108 (28), 11356-11360. (doi:10.1073/pnas.1014885108 <http://dx.doi.org/10.1073/pnas.1014885108>).
op_doi https://doi.org/10.1073/pnas.1014885108
container_title Proceedings of the National Academy of Sciences
container_volume 108
container_issue 28
container_start_page 11356
op_container_end_page 11360
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