Millennial Variability in an Idealized Ocean Model: Predicting the AMOC Regime Shifts
Millennial Variability in an Idealized Ocean Model: Predicting the AMOC Regime Shifts
A salient feature of paleorecords of the last glacial interval in the North Atlantic is pronounced millennial variability, commonly known as Dansgaard–Oeschger events. It is believed that these events are related to variations in the Atlantic meridional overturning circulation and heat transport. Here, the authors formulate a new low-order model, based on the Howard–Malkus loop representation of ocean circulation, capable of reproducing millennial variability and its chaotic dynamics realistically. It is shown that even in this chaotic model changes in the state of the meridional overturning circulation are predictable. Accordingly, the authors define two predictive indices which give accurate predictions for the time the circulation should remain in the on phase and then stay in the subsequent off phase. These indices depend mainly on ocean stratification and describe the linear growth of small perturbations in the system. Thus, monitoring particular indices of the ocean state could help predict a potential shutdown of the overturning circulation.
North Atlantic Ocean, Meridional overturning circulation, Climate prediction, Nonlinear models, Climate variability
3551-3564
Sévellec, Florian
01569d6c-65b0-4270-af2a-35b0a77c9140
Fedorov, Alexey V.
c4234650-4a09-4d65-b6fc-cebd592a788f
May 2014
Sévellec, Florian
01569d6c-65b0-4270-af2a-35b0a77c9140
Fedorov, Alexey V.
c4234650-4a09-4d65-b6fc-cebd592a788f
Sévellec, Florian and Fedorov, Alexey V.
(2014)
Millennial Variability in an Idealized Ocean Model: Predicting the AMOC Regime Shifts.
Journal of Climate, 27 (10), .
(doi:10.1175/JCLI-D-13-00450.1).
Abstract
A salient feature of paleorecords of the last glacial interval in the North Atlantic is pronounced millennial variability, commonly known as Dansgaard–Oeschger events. It is believed that these events are related to variations in the Atlantic meridional overturning circulation and heat transport. Here, the authors formulate a new low-order model, based on the Howard–Malkus loop representation of ocean circulation, capable of reproducing millennial variability and its chaotic dynamics realistically. It is shown that even in this chaotic model changes in the state of the meridional overturning circulation are predictable. Accordingly, the authors define two predictive indices which give accurate predictions for the time the circulation should remain in the on phase and then stay in the subsequent off phase. These indices depend mainly on ocean stratification and describe the linear growth of small perturbations in the system. Thus, monitoring particular indices of the ocean state could help predict a potential shutdown of the overturning circulation.
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jcli-d-13-00450%2E1.pdf
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Published date: May 2014
Keywords:
North Atlantic Ocean, Meridional overturning circulation, Climate prediction, Nonlinear models, Climate variability
Organisations:
Physical Oceanography
Identifiers
Local EPrints ID: 365632
URI: http://eprints.soton.ac.uk/id/eprint/365632
ISSN: 0894-8755
PURE UUID: deabdde5-8518-49c3-8191-5f6774c5d66f
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Date deposited: 10 Jun 2014 15:52
Last modified: 14 Mar 2024 16:59
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Author:
Alexey V. Fedorov
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