Reconciling the north–south density difference scaling for the Meridional Overturning Circulation strength with geostrophy
Reconciling the north–south density difference scaling for the Meridional Overturning Circulation strength with geostrophy
Since the formulation of the Stommel two-box model for the meridional overturning circulation (MOC), various theoretical and conceptual models for the MOC emerged based on scaling the MOC strength with the north south density difference. At the same time the MOC should obey geostrophic balance with an east-west density difference. Scaling with the north south density gradient seems to violate the common assumption of geostrophic balance for the large-scale circulation, which implies that the pressure gradient is orthogonal to the flow. In this brief report, we report on the results of a series of numerical simulations in an idealized ocean basin (with a zonally periodic channel at its southern end). The simulations performed with different surface forcing conditions indicate that the meridional and zonal density gradients, important for the MOC strength, are in fact related to each other through the stratification located at the northern end of the periodic channel. The results suggest that the water properties at the northern end of the periodic channel play a crucial role in setting the MOC strength, possibly explaining the sensitivity of climate models to the conditions in this area.
2461-2479
Cimatoribus, A.A.
b4c1dc3e-2531-481e-a4a5-80bdd4829bd4
Drijfhout, S.
a5c76079-179b-490c-93fe-fc0391aacf13
Dijkstra, H.A.
5c87a968-5c42-4714-ba6a-bf337031dea1
20 December 2013
Cimatoribus, A.A.
b4c1dc3e-2531-481e-a4a5-80bdd4829bd4
Drijfhout, S.
a5c76079-179b-490c-93fe-fc0391aacf13
Dijkstra, H.A.
5c87a968-5c42-4714-ba6a-bf337031dea1
Cimatoribus, A.A., Drijfhout, S. and Dijkstra, H.A.
(2013)
Reconciling the north–south density difference scaling for the Meridional Overturning Circulation strength with geostrophy.
Ocean Science Discussions, 10 (6), .
(doi:10.5194/osd-10-2461-2013).
Abstract
Since the formulation of the Stommel two-box model for the meridional overturning circulation (MOC), various theoretical and conceptual models for the MOC emerged based on scaling the MOC strength with the north south density difference. At the same time the MOC should obey geostrophic balance with an east-west density difference. Scaling with the north south density gradient seems to violate the common assumption of geostrophic balance for the large-scale circulation, which implies that the pressure gradient is orthogonal to the flow. In this brief report, we report on the results of a series of numerical simulations in an idealized ocean basin (with a zonally periodic channel at its southern end). The simulations performed with different surface forcing conditions indicate that the meridional and zonal density gradients, important for the MOC strength, are in fact related to each other through the stratification located at the northern end of the periodic channel. The results suggest that the water properties at the northern end of the periodic channel play a crucial role in setting the MOC strength, possibly explaining the sensitivity of climate models to the conditions in this area.
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Published date: 20 December 2013
Organisations:
Physical Oceanography
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Local EPrints ID: 372166
URI: http://eprints.soton.ac.uk/id/eprint/372166
ISSN: 1812-0822
PURE UUID: 9bf7d8dc-34e4-4cea-afc1-4e5b8127d914
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Date deposited: 26 Nov 2014 15:10
Last modified: 15 Mar 2024 03:44
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Author:
A.A. Cimatoribus
Author:
H.A. Dijkstra
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