Coupled Southern Ocean cooling and Antarctic ice sheet expansion during the middle Miocene
Coupled Southern Ocean cooling and Antarctic ice sheet expansion during the middle Miocene
The middle Miocene climate transition (~14 million years ago) was characterized by a dramatic increase in the volume of the Antarctic ice sheet. The driving mechanism of this transition remains under discussion, with hypotheses including circulation changes, declining carbon dioxide in the atmosphere and orbital forcing. Southern Ocean records of planktic foraminiferal Mg/Ca have previously been interpreted to indicate a cooling of 6–7 °C and a decrease in salinity that preceded Antarctic cryosphere expansion by up to ~300,000 years. This interpretation has led to the hypothesis that changes in meridional heat and vapour transport along with an early thermal isolation of Antarctica from extrapolar climates played a fundamental role in triggering ice growth. Here we revisit the middle Miocene Southern Ocean temperature evolution using clumped isotope and lipid biomarker temperature proxies. Our records indicate that the Southern Ocean cooling and the associated salinity decrease occurred in phase with the expansion of the Antarctic ice sheet. We demonstrate that the timing and magnitude of the Southern Ocean temperature change seen in previous reconstructions can be explained if we consider pH as an additional, non-thermal, control on foraminiferal Mg/Ca ratios. Therefore, our new dataset challenges the view of a thermal isolation of Antarctica preceding ice sheet expansion, and suggests a strong coupling between Southern Ocean conditions and Antarctic ice volume in times of declining atmospheric carbon dioxide
634–639
Leutert, Thomas J.
9612f683-ea72-41b1-9f8e-8b1d4c6c5e30
Auderset, Alexandra
a6054a25-7c59-49fe-a2cd-62c1d3f3c8b3
Martínez-García, Alfredo
29c2896b-3a8c-4457-b640-5c3ac1b9d272
Modestou, Sevasti
1aeb86d6-9644-4fb2-abc4-8d5a860536e8
Nele Meckler, A.
67c70d8e-f94a-4e11-9209-1b8a4a0d76fd
31 August 2020
Leutert, Thomas J.
9612f683-ea72-41b1-9f8e-8b1d4c6c5e30
Auderset, Alexandra
a6054a25-7c59-49fe-a2cd-62c1d3f3c8b3
Martínez-García, Alfredo
29c2896b-3a8c-4457-b640-5c3ac1b9d272
Modestou, Sevasti
1aeb86d6-9644-4fb2-abc4-8d5a860536e8
Nele Meckler, A.
67c70d8e-f94a-4e11-9209-1b8a4a0d76fd
Leutert, Thomas J., Auderset, Alexandra, Martínez-García, Alfredo, Modestou, Sevasti and Nele Meckler, A.
(2020)
Coupled Southern Ocean cooling and Antarctic ice sheet expansion during the middle Miocene.
Nature Geoscience, 13 (8), .
(doi:10.1038/s41561-020-0623-0).
Abstract
The middle Miocene climate transition (~14 million years ago) was characterized by a dramatic increase in the volume of the Antarctic ice sheet. The driving mechanism of this transition remains under discussion, with hypotheses including circulation changes, declining carbon dioxide in the atmosphere and orbital forcing. Southern Ocean records of planktic foraminiferal Mg/Ca have previously been interpreted to indicate a cooling of 6–7 °C and a decrease in salinity that preceded Antarctic cryosphere expansion by up to ~300,000 years. This interpretation has led to the hypothesis that changes in meridional heat and vapour transport along with an early thermal isolation of Antarctica from extrapolar climates played a fundamental role in triggering ice growth. Here we revisit the middle Miocene Southern Ocean temperature evolution using clumped isotope and lipid biomarker temperature proxies. Our records indicate that the Southern Ocean cooling and the associated salinity decrease occurred in phase with the expansion of the Antarctic ice sheet. We demonstrate that the timing and magnitude of the Southern Ocean temperature change seen in previous reconstructions can be explained if we consider pH as an additional, non-thermal, control on foraminiferal Mg/Ca ratios. Therefore, our new dataset challenges the view of a thermal isolation of Antarctica preceding ice sheet expansion, and suggests a strong coupling between Southern Ocean conditions and Antarctic ice volume in times of declining atmospheric carbon dioxide
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Accepted/In Press date: 9 July 2020
Published date: 31 August 2020
Identifiers
Local EPrints ID: 473702
URI: http://eprints.soton.ac.uk/id/eprint/473702
ISSN: 1752-0894
PURE UUID: c097d491-374a-4274-9617-a0d5a4f38b0b
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Date deposited: 27 Jan 2023 17:53
Last modified: 17 Mar 2024 04:18
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Author:
Thomas J. Leutert
Author:
Alexandra Auderset
Author:
Alfredo Martínez-García
Author:
Sevasti Modestou
Author:
A. Nele Meckler
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