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Unstable AMOC during glacial intervals and millennial variability: The role of mean sea ice extent

Unstable AMOC during glacial intervals and millennial variability: The role of mean sea ice extent
Unstable AMOC during glacial intervals and millennial variability: The role of mean sea ice extent
A striking feature of paleoclimate records is the greater stability of the Holocene epoch relative to the preceding glacial interval, especially apparent in the North Atlantic region. In particular, strong irregular variability with an approximately 1500 yr period, known as the Dansgaard–Oeschger (D–O) events, punctuates the last glaciation, but is absent during the interglacial. Prevailing theories, modeling and data suggest that these events, seen as abrupt warming episodes in Greenland ice cores and sea surface temperature records in the North Atlantic, are linked to reorganizations of the Atlantic Meridional Overturning Circulation (AMOC). In this study, using a new low-order ocean model that reproduces a realistic power spectrum of millennial variability, we explore differences in the AMOC stability between glacial and interglacial intervals of the 100 kyr glacial cycle of the Late Pleistocene (1 kyr=1000 yr1 kyr=1000 yr). Previous modeling studies show that the edge of sea ice in the North Atlantic shifts southward during glacial intervals, moving the region of the North Atlantic Deep Water formation and the AMOC also southward. Here we demonstrate that, by shifting the AMOC with respect to the mean atmospheric precipitation field, such a displacement makes the system unstable, which explains chaotic millennial variability during the glacials and the persistence of stable ocean conditions during the interglacials.
Atlantic meridional overturning circulation, Holocene climate stability, Dansgaard–Oeschger events, millennial climate variability, glacial–interglacial cycle
0012-821X
60-68
Sévellec, Florian
01569d6c-65b0-4270-af2a-35b0a77c9140
Fedorov, Alexey V.
c4234650-4a09-4d65-b6fc-cebd592a788f
Sévellec, Florian
01569d6c-65b0-4270-af2a-35b0a77c9140
Fedorov, Alexey V.
c4234650-4a09-4d65-b6fc-cebd592a788f

Sévellec, Florian and Fedorov, Alexey V. (2015) Unstable AMOC during glacial intervals and millennial variability: The role of mean sea ice extent. Earth and Planetary Science Letters, 429, 60-68. (doi:10.1016/j.epsl.2015.07.022).

Record type: Article

Abstract

A striking feature of paleoclimate records is the greater stability of the Holocene epoch relative to the preceding glacial interval, especially apparent in the North Atlantic region. In particular, strong irregular variability with an approximately 1500 yr period, known as the Dansgaard–Oeschger (D–O) events, punctuates the last glaciation, but is absent during the interglacial. Prevailing theories, modeling and data suggest that these events, seen as abrupt warming episodes in Greenland ice cores and sea surface temperature records in the North Atlantic, are linked to reorganizations of the Atlantic Meridional Overturning Circulation (AMOC). In this study, using a new low-order ocean model that reproduces a realistic power spectrum of millennial variability, we explore differences in the AMOC stability between glacial and interglacial intervals of the 100 kyr glacial cycle of the Late Pleistocene (1 kyr=1000 yr1 kyr=1000 yr). Previous modeling studies show that the edge of sea ice in the North Atlantic shifts southward during glacial intervals, moving the region of the North Atlantic Deep Water formation and the AMOC also southward. Here we demonstrate that, by shifting the AMOC with respect to the mean atmospheric precipitation field, such a displacement makes the system unstable, which explains chaotic millennial variability during the glacials and the persistence of stable ocean conditions during the interglacials.

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Published date: 1 November 2015
Keywords: Atlantic meridional overturning circulation, Holocene climate stability, Dansgaard–Oeschger events, millennial climate variability, glacial–interglacial cycle
Organisations: Physical Oceanography

Identifiers

Local EPrints ID: 382053
URI: http://eprints.soton.ac.uk/id/eprint/382053
DOI: doi:10.1016/j.epsl.2015.07.022
ISSN: 0012-821X
PURE UUID: 36817a5d-f54c-46d8-afda-788496414142

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Date deposited: 29 Sep 2015 12:28
Last modified: 14 Mar 2024 21:24

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Author: Florian Sévellec
Author: Alexey V. Fedorov

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