Eccentricity pacing and rapid termination of the early Antarctic ice ages
Eccentricity pacing and rapid termination of the early Antarctic ice ages
Earth’s obliquity and eccentricity cycles are strongly imprinted on Earth’s climate and widely used to measure geological time. However, the record of these imprints on the oxygen isotope record in deep-sea benthic foraminifera (δ18Ob) shows contradictory signals that violate isotopic principles and cause controversy over climate-ice sheet interactions. Here, we present a δ18Ob record of high fidelity from International Ocean Drilling Program (IODP) Site U1406 in the northwest Atlantic Ocean. We compare our record to other records for the time interval between 28 and 20 million years ago, when Earth was warmer than today, and only Antarctic ice sheets existed. The imprint of eccentricity on δ18Ob is remarkably consistent globally whereas the obliquity signal is inconsistent between sites, indicating that eccentricity was the primary pacemaker of land ice volume. The larger eccentricity-paced early Antarctic ice ages were vulnerable to rapid termination. These findings imply that the self-stabilizing hysteresis effects of large land-based early Antarctic ice sheets were strong enough to maintain ice growth despite consecutive insolation-induced polar warming episodes. However, rapid ice age terminations indicate that resistance to melting was weaker than simulated by numerical models and regularly overpowered, sometimes abruptly.
van Peer, Tim E.
718aad92-54f7-499f-9f9f-ee5fb85c38e8
Liebrand, Diederik
0062a05c-cda3-46fd-8510-59ddc2ea19ae
Taylor, Victoria E.
dbed8649-d349-4d4f-aba1-393f42b3e3cf
Brzelinski, Swaantje
f2d21cee-5fc5-44c8-a429-228efaf00b6f
Wolf, Iris
cf869e1c-56a7-4305-ac16-4ff4c99a4567
Bornemann, André
8e7de26e-ceff-47a0-9431-ede482d02bdb
Friedrich, Oliver
6c676388-6942-48fe-bff0-741b92e0a91c
Bohaty, Steven M.
e8d8252d-9f6b-4a9e-8ced-f9e866af726b
Xuan, Chuang
a8b1bfd6-7824-4189-b3a6-19949858fe50
Lippert, Peter C.
0486a8ed-107d-4d07-aff0-974de02209ed
Wilson, Paul A.
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
van Peer, Tim E.
718aad92-54f7-499f-9f9f-ee5fb85c38e8
Liebrand, Diederik
0062a05c-cda3-46fd-8510-59ddc2ea19ae
Taylor, Victoria E.
dbed8649-d349-4d4f-aba1-393f42b3e3cf
Brzelinski, Swaantje
f2d21cee-5fc5-44c8-a429-228efaf00b6f
Wolf, Iris
cf869e1c-56a7-4305-ac16-4ff4c99a4567
Bornemann, André
8e7de26e-ceff-47a0-9431-ede482d02bdb
Friedrich, Oliver
6c676388-6942-48fe-bff0-741b92e0a91c
Bohaty, Steven M.
e8d8252d-9f6b-4a9e-8ced-f9e866af726b
Xuan, Chuang
a8b1bfd6-7824-4189-b3a6-19949858fe50
Lippert, Peter C.
0486a8ed-107d-4d07-aff0-974de02209ed
Wilson, Paul A.
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
van Peer, Tim E., Liebrand, Diederik, Taylor, Victoria E., Brzelinski, Swaantje, Wolf, Iris, Bornemann, André, Friedrich, Oliver, Bohaty, Steven M., Xuan, Chuang, Lippert, Peter C. and Wilson, Paul A.
(2024)
Eccentricity pacing and rapid termination of the early Antarctic ice ages.
Nature Communications, 15, [10600].
(doi:10.1038/s41467-024-54186-1).
Abstract
Earth’s obliquity and eccentricity cycles are strongly imprinted on Earth’s climate and widely used to measure geological time. However, the record of these imprints on the oxygen isotope record in deep-sea benthic foraminifera (δ18Ob) shows contradictory signals that violate isotopic principles and cause controversy over climate-ice sheet interactions. Here, we present a δ18Ob record of high fidelity from International Ocean Drilling Program (IODP) Site U1406 in the northwest Atlantic Ocean. We compare our record to other records for the time interval between 28 and 20 million years ago, when Earth was warmer than today, and only Antarctic ice sheets existed. The imprint of eccentricity on δ18Ob is remarkably consistent globally whereas the obliquity signal is inconsistent between sites, indicating that eccentricity was the primary pacemaker of land ice volume. The larger eccentricity-paced early Antarctic ice ages were vulnerable to rapid termination. These findings imply that the self-stabilizing hysteresis effects of large land-based early Antarctic ice sheets were strong enough to maintain ice growth despite consecutive insolation-induced polar warming episodes. However, rapid ice age terminations indicate that resistance to melting was weaker than simulated by numerical models and regularly overpowered, sometimes abruptly.
Text
s41467-024-54186-1
- Version of Record
More information
Accepted/In Press date: 30 October 2024
e-pub ahead of print date: 5 December 2024
Identifiers
Local EPrints ID: 497736
URI: http://eprints.soton.ac.uk/id/eprint/497736
ISSN: 2041-1723
PURE UUID: 7845197e-2d9a-4c84-a830-af70038584a9
Catalogue record
Date deposited: 30 Jan 2025 17:44
Last modified: 22 Aug 2025 01:46
Export record
Altmetrics
Contributors
Author:
Tim E. van Peer
Author:
Diederik Liebrand
Author:
Victoria E. Taylor
Author:
Swaantje Brzelinski
Author:
Iris Wolf
Author:
André Bornemann
Author:
Oliver Friedrich
Author:
Steven M. Bohaty
Author:
Chuang Xuan
Author:
Peter C. Lippert
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
