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Fast Warming of the Surface Ocean Under a Climatological Scenario (2019)

Jamet, Q. ; Dewar, W. K. ; Wienders, N. ; [et al.]

American Geophysical Union

In: Geophysical Research Letters. 2019; 46(7): 3871-3879. Published 2019 Apr 04. doi: 10.1029/2019gl082336.

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Publication Date: 2019-04-04

Description: We examine various strategies for forcing ocean-only models, including an atmospheric boundary layer model. This surface forcing allows air-sea exchanges to affect atmospheric temperature and relative humidity, thus removing the assumption of an infinite atmospheric heat capacity associated with the prescription of these variables. When exposed to climatological winds, the simulated North Atlantic oceanic temperature warms considerably at the surface as compared to a model with full atmospheric variability. This warming is mainly explained by a weakened upper-ocean vertical mixing in response to the weakly varying climatological winds. Specifying the atmospheric temperatures inhibits this warming but depends on the unrealistic large atmospheric heat capacity. We thus interpret the simulated warmer ocean as a more physically consistent ocean response. We conclude the use of an atmospheric boundary layer model provides many benefits for ocean only modeling, although a “normal” year strategy is required for maintaining high-frequency winds. © 2019. American Geophysical Union. All Rights Reserved.

Print ISSN: 0094-8276

Electronic ISSN: 1944-8007

Topics: Geosciences , Physics

Published by American Geophysical Union

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Spatiotemporal Patterns of Chaos in the Atlantic Overturning Circulation (2019)

Jamet, Q. ; Dewar, W. K. ; Wienders, N. ; [et al.]

American Geophysical Union

In: Geophysical Research Letters. 2019; 46(13): 7509-7517. Published 2019 Jul 03. doi: 10.1029/2019gl082552.

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Publication Date: 2019-07-03

Description: Examining an ensemble of high-resolution ((1/12)°) North Atlantic ocean simulations, we provide new insights into the partitioning of the Atlantic Meridional Overturning Circulation (AMOC) variability between forced and intrinsic at low-frequency (2–30 years). We highlight the existence of a basin-scale intrinsic mode that shares similarities with the atmospherically forced signal. The RAPID-MOCHA-WBTS array is found to be part of this mode, such that we ascribe about 0.9 Sv (50% in our configuration) of its interannual variability as intrinsic. At decadal time scales, intrinsic variability is rather small (∼0.2 Sv) compared to the recently observed 2- to 3-Sv AMOC downturn. This downturn is thus unlikely to be induced by locally generated intrinsic ocean dynamics. We interpret this intrinsic variability as “chaotic,” that is, somewhat unpredictable, providing an estimation of the quantitative accuracy of AMOC variability within eddy-resolving numerical models. ©2019. American Geophysical Union. All Rights Reserved.

Print ISSN: 0094-8276

Electronic ISSN: 1944-8007

Topics: Geosciences , Physics

Published by American Geophysical Union

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