GEOMAR Helmholtz-Zentrum für Ozeanforschung Kiel
Wischhofstr. 1-3
24148 Kiel
Tel.: 0431 600-0
Fax: 0431 600-2805
E-mail: info(at)geomar.de
When? Monday, 13. December 2021 at 11 am
Where? ZOOM meeting room: https://geomar-de.zoom.us/j/83036463972?pwd=Tk44eU54NG93OHNrNGlpWS9lb3FJdz09
Meeting-ID: 830 3646 3972
Kenncode: 314733
Abstract:
The AMOC has a pronounced signature in depth and density space, with lighter surface waters moving northward and denser deep waters returning. While it is appealing to assume that of dense water formation by convection is directly linked to sinking, this is not correct. In convection regions, diapycnal mixing peaks but the net vertical transport is negligible. Moreover, the convection itself does not contribute to the AMOC: it is the (southward) export of dense waters that matters.
We studied the characteristics of overturning in depth and density space and their linkages by analyzing the outcomes of eddy-resolving global ocean models and dedicated idealized models, with a focus on the Labrador Sea. These show that eddies play a crucial role: they control the convection cycle, the sinking, and the export of dense waters. The latter occurs along multiple pathways, which carry different water masses on timescales that deviate by several years.
In all, the studies reveal a complex three-dimensional view on sinking and overturning, involving the boundary currents, the ocean interior and the eddy field. From a modelling perspective, the studies emphasize the need to resolve eddies to properly represent the AMOC and its a future climate response. From an observational perspective, they reveal the challenge in interpreting observations, as they capture only the net result of all processes occurring upstream.