Ocean Convection and Deep Water Circulation

The global oceanic thermohaline circulation (conveyor belt circulation) is driven at high latitudes through convection, the sinking of dense waters to great depths. The link between the convection itself and the large-scale circulation follows a cascade of processes on different spatial and temporal...

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Bibliographic Details
Main Authors: Backhaus, Jan O., Quadfasel, Detlef, Hainbucher, Dagmar
Format: Article in Journal/Newspaper
Language:English
Published: IWF (Göttingen) 1995
Subjects:
Earth Sciences
oceanography
climate research
convection
Greenland sea
deep water circulation
sea convection
convection, oceanic
circulation, thermo-haline
atmosphere / sea convection
North Atlantic
measurement techniques, oceanography
Greenland
Greenland Sea
Online Access:https://dx.doi.org/10.3203/iwf/c-1904eng
https://av.tib.eu/media/23350
Description
Summary:The global oceanic thermohaline circulation (conveyor belt circulation) is driven at high latitudes through convection, the sinking of dense waters to great depths. The link between the convection itself and the large-scale circulation follows a cascade of processes on different spatial and temporal scales. Convection is intermittent and the sinking plumes are only a few hundred metres wide and have a life time of a few hours. The combined action of many plumes form, under the influence of the earth's rotation, meso-scale eddies of several kilometres width. Many of these again form the pool of newly formed water that subsequently spreads in the world oceans. The video explains this chain of scales leading from convection to the global ocean circulation, using results from numerical simulations and from observations made during a cruise of RV Valdivia in the Greenland Sea in winter 1994.

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