The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons

The Eocene–Oligocene transition (EOT) was a climate shift from a largely ice-free greenhouse world to an icehouse climate, involving the first major glaciation of Antarctica and global cooling occurring ∼34 million years ago (Ma) and lasting ∼790 kyr. The change is marked by a global shift in deep-s...

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Published in:Climate of the Past
Main Authors: Wilson, Paul, Hutchinson, David K., Coxall, Helen K., Lunt, Daniel J., Steinthorsdottir, Margret, de Boer, Agatha M., Baatsen, Michiel L.J., Von Der Heydt, Anna S., Huber, Matthew, Kennedy-Asser, Alan T., Kunzmann, Lutz, Ladant, Jean-baptiste, Lear, Caroline H., Moraweck, Karolin, Pearson, Paul N., Piga, Emanuela, Pound, Matthew J., Salzmann, Ulrich, Scher, Howie D., Sijp, Willem P., Sliwinska, Kasia K., Wilson, Paul A., Zhang, Zhongshi
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Antarc*
Antarctica
Ice Sheet
Online Access:https://eprints.soton.ac.uk/457831/
https://eprints.soton.ac.uk/457831/1/cp_17_269_2021.pdf
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spelling ftsouthampton:oai:eprints.soton.ac.uk:457831 2023-12-03T10:13:25+01:00 The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons Wilson, Paul Hutchinson, David K. Coxall, Helen K. Lunt, Daniel J. Steinthorsdottir, Margret de Boer, Agatha M. Baatsen, Michiel L.J. Von Der Heydt, Anna S. Huber, Matthew Kennedy-Asser, Alan T. Kunzmann, Lutz Ladant, Jean-baptiste Lear, Caroline H. Moraweck, Karolin Pearson, Paul N. Piga, Emanuela Pound, Matthew J. Salzmann, Ulrich Scher, Howie D. Sijp, Willem P. Sliwinska, Kasia K. Wilson, Paul A. Zhang, Zhongshi 2021-01-28 text https://eprints.soton.ac.uk/457831/ https://eprints.soton.ac.uk/457831/1/cp_17_269_2021.pdf en English eng https://eprints.soton.ac.uk/457831/1/cp_17_269_2021.pdf Wilson, Paul, Hutchinson, David K., Coxall, Helen K., Lunt, Daniel J., Steinthorsdottir, Margret, de Boer, Agatha M., Baatsen, Michiel L.J., Von Der Heydt, Anna S., Huber, Matthew, Kennedy-Asser, Alan T., Kunzmann, Lutz, Ladant, Jean-baptiste, Lear, Caroline H., Moraweck, Karolin, Pearson, Paul N., Piga, Emanuela, Pound, Matthew J., Salzmann, Ulrich, Scher, Howie D., Sijp, Willem P., Sliwinska, Kasia K., Wilson, Paul A. and Zhang, Zhongshi (2021) The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons. Climate of the Past, 17, 269 - 315. (doi:10.5194/cp-17-269-2021 <http://dx.doi.org/10.5194/cp-17-269-2021>). cc_by_4 Article PeerReviewed 2021 ftsouthampton https://doi.org/10.5194/cp-17-269-2021 2023-11-03T00:04:52Z The Eocene–Oligocene transition (EOT) was a climate shift from a largely ice-free greenhouse world to an icehouse climate, involving the first major glaciation of Antarctica and global cooling occurring ∼34 million years ago (Ma) and lasting ∼790 kyr. The change is marked by a global shift in deep-sea δ18O representing a combination of deep-ocean cooling and growth in land ice volume. At the same time, multiple independent proxies for ocean temperature indicate sea surface cooling, and major changes in global fauna and flora record a shift toward more cold-climate-adapted species. The two principal suggested explanations of this transition are a decline in atmospheric CO2 and changes to ocean gateways, while orbital forcing likely influenced the precise timing of the glaciation. Here we review and synthesise proxy evidence of palaeogeography, temperature, ice sheets, ocean circulation and CO2 change from the marine and terrestrial realms. Furthermore, we quantitatively compare proxy records of change to an ensemble of climate model simulations of temperature change across the EOT. The simulations compare three forcing mechanisms across the EOT: CO2 decrease, palaeogeographic changes and ice sheet growth. Our model ensemble results demonstrate the need for a global cooling mechanism beyond the imposition of an ice sheet or palaeogeographic changes. We find that CO2 forcing involving a large decrease in CO2 of ca. 40 % (∼325 ppm drop) provides the best fit to the available proxy evidence, with ice sheet and palaeogeographic changes playing a secondary role. While this large decrease is consistent with some CO2 proxy records (the extreme endmember of decrease), the positive feedback mechanisms on ice growth are so strong that a modest CO2 decrease beyond a critical threshold for ice sheet initiation is well capable of triggering rapid ice sheet growth. Thus, the amplitude of CO2 decrease signalled by our data–model comparison should be considered an upper estimate and perhaps artificially large, not least because ... Article in Journal/Newspaper Antarc* Antarctica Ice Sheet University of Southampton: e-Prints Soton Climate of the Past 17 1 269 315
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language English
description The Eocene–Oligocene transition (EOT) was a climate shift from a largely ice-free greenhouse world to an icehouse climate, involving the first major glaciation of Antarctica and global cooling occurring ∼34 million years ago (Ma) and lasting ∼790 kyr. The change is marked by a global shift in deep-sea δ18O representing a combination of deep-ocean cooling and growth in land ice volume. At the same time, multiple independent proxies for ocean temperature indicate sea surface cooling, and major changes in global fauna and flora record a shift toward more cold-climate-adapted species. The two principal suggested explanations of this transition are a decline in atmospheric CO2 and changes to ocean gateways, while orbital forcing likely influenced the precise timing of the glaciation. Here we review and synthesise proxy evidence of palaeogeography, temperature, ice sheets, ocean circulation and CO2 change from the marine and terrestrial realms. Furthermore, we quantitatively compare proxy records of change to an ensemble of climate model simulations of temperature change across the EOT. The simulations compare three forcing mechanisms across the EOT: CO2 decrease, palaeogeographic changes and ice sheet growth. Our model ensemble results demonstrate the need for a global cooling mechanism beyond the imposition of an ice sheet or palaeogeographic changes. We find that CO2 forcing involving a large decrease in CO2 of ca. 40 % (∼325 ppm drop) provides the best fit to the available proxy evidence, with ice sheet and palaeogeographic changes playing a secondary role. While this large decrease is consistent with some CO2 proxy records (the extreme endmember of decrease), the positive feedback mechanisms on ice growth are so strong that a modest CO2 decrease beyond a critical threshold for ice sheet initiation is well capable of triggering rapid ice sheet growth. Thus, the amplitude of CO2 decrease signalled by our data–model comparison should be considered an upper estimate and perhaps artificially large, not least because ...
format Article in Journal/Newspaper
author Wilson, Paul
Hutchinson, David K.
Coxall, Helen K.
Lunt, Daniel J.
Steinthorsdottir, Margret
de Boer, Agatha M.
Baatsen, Michiel L.J.
Von Der Heydt, Anna S.
Huber, Matthew
Kennedy-Asser, Alan T.
Kunzmann, Lutz
Ladant, Jean-baptiste
Lear, Caroline H.
Moraweck, Karolin
Pearson, Paul N.
Piga, Emanuela
Pound, Matthew J.
Salzmann, Ulrich
Scher, Howie D.
Sijp, Willem P.
Sliwinska, Kasia K.
Wilson, Paul A.
Zhang, Zhongshi
spellingShingle Wilson, Paul
Hutchinson, David K.
Coxall, Helen K.
Lunt, Daniel J.
Steinthorsdottir, Margret
de Boer, Agatha M.
Baatsen, Michiel L.J.
Von Der Heydt, Anna S.
Huber, Matthew
Kennedy-Asser, Alan T.
Kunzmann, Lutz
Ladant, Jean-baptiste
Lear, Caroline H.
Moraweck, Karolin
Pearson, Paul N.
Piga, Emanuela
Pound, Matthew J.
Salzmann, Ulrich
Scher, Howie D.
Sijp, Willem P.
Sliwinska, Kasia K.
Wilson, Paul A.
Zhang, Zhongshi
The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons
author_facet Wilson, Paul
Hutchinson, David K.
Coxall, Helen K.
Lunt, Daniel J.
Steinthorsdottir, Margret
de Boer, Agatha M.
Baatsen, Michiel L.J.
Von Der Heydt, Anna S.
Huber, Matthew
Kennedy-Asser, Alan T.
Kunzmann, Lutz
Ladant, Jean-baptiste
Lear, Caroline H.
Moraweck, Karolin
Pearson, Paul N.
Piga, Emanuela
Pound, Matthew J.
Salzmann, Ulrich
Scher, Howie D.
Sijp, Willem P.
Sliwinska, Kasia K.
Wilson, Paul A.
Zhang, Zhongshi
author_sort Wilson, Paul
title The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons
title_short The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons
title_full The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons
title_fullStr The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons
title_full_unstemmed The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons
title_sort eocene–oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons
publishDate 2021
url https://eprints.soton.ac.uk/457831/
https://eprints.soton.ac.uk/457831/1/cp_17_269_2021.pdf
genre Antarc*
Antarctica
Ice Sheet
genre_facet Antarc*
Antarctica
Ice Sheet
op_relation https://eprints.soton.ac.uk/457831/1/cp_17_269_2021.pdf
Wilson, Paul, Hutchinson, David K., Coxall, Helen K., Lunt, Daniel J., Steinthorsdottir, Margret, de Boer, Agatha M., Baatsen, Michiel L.J., Von Der Heydt, Anna S., Huber, Matthew, Kennedy-Asser, Alan T., Kunzmann, Lutz, Ladant, Jean-baptiste, Lear, Caroline H., Moraweck, Karolin, Pearson, Paul N., Piga, Emanuela, Pound, Matthew J., Salzmann, Ulrich, Scher, Howie D., Sijp, Willem P., Sliwinska, Kasia K., Wilson, Paul A. and Zhang, Zhongshi (2021) The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons. Climate of the Past, 17, 269 - 315. (doi:10.5194/cp-17-269-2021 <http://dx.doi.org/10.5194/cp-17-269-2021>).
op_rights cc_by_4
op_doi https://doi.org/10.5194/cp-17-269-2021
container_title Climate of the Past
container_volume 17
container_issue 1
container_start_page 269
op_container_end_page 315
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