The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water

Two aspects of the upper limb of the North Atlantic overturning circulation are studied: 1) surface drifter exchange between the subtropical and the subpolar gyres; and 2) characterization of the properties and formation of Subpolar Mode Waters (SPMW). With respect to the first, just one out of 273...

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Main Author: Brambilla, Elena
Format: Article in Journal/Newspaper
Language:English
Published: eScholarship, University of California 2006
Subjects:
Denmark Strait
Iceland
Nordic Seas
north atlantic current
North Atlantic
Online Access:http://www.escholarship.org/uc/item/68h862cg
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spelling ftcdlib:qt68h862cg 2023-05-15T16:00:42+02:00 The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water Brambilla, Elena 2006-12-08 application/pdf http://www.escholarship.org/uc/item/68h862cg english eng eScholarship, University of California qt68h862cg http://www.escholarship.org/uc/item/68h862cg public Brambilla, Elena. (2006). The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water. Scripps Institution of Oceanography. UC San Diego: Scripps Institution of Oceanography. Retrieved from: http://www.escholarship.org/uc/item/68h862cg article 2006 ftcdlib 2016-04-02T18:36:33Z Two aspects of the upper limb of the North Atlantic overturning circulation are studied: 1) surface drifter exchange between the subtropical and the subpolar gyres; and 2) characterization of the properties and formation of Subpolar Mode Waters (SPMW). With respect to the first, just one out of 273 drifters (drogued at 15 m) in the Gulf Stream region from 1990 to 2002, moved from subtropical to subpolar latitudes. Most of the drifters recirculated in the subtropical gyre without crossing the inter-gyre edge. This result was surprising because of the known transport of upper ocean water from the subtropical to the subpolar gyre. We suggest that undersampling and inadequate drifter life time lead to an underestimate the northward flow. Moreover, the Ekman flow and the eddy contribution affect the surface trajectories in opposite direction, nearly canceling each other. The description of the properties of the SPMW and the analysis of its formation aim at better describing the warm and salty pathway that supplies water to the regions of dense water formation (Labrador and Nordic Seas). Lagrangian data (surface drifters and isopycnal floats) combined with historical hydrographic data show that each branch of the North Atlantic Current (NAC) in the eastern subpolar gyre is characterized by its own sequence of SPMW that increases in density following the downstream flow. Furthermore, since the branches of the NAC have a dominant northeastward direction, the newly observed distribution of SPMW, combined with the new streamfunctions calculated here, do not support the original hypothesis of McCartney and Talley (1982) of a smooth, cyclonic pathway for SPMW around the subpolar gyre. The transformation and the formation of SPMW are then investigated in terms of the diapycnal flux driven by buoyancy flux. We show that SPMW is transformed to increasingly dense SPMW along the major branches of the NAC. The continuous transformation of SPMW is not constant in density space, leading to "formation" (destruction) of SPMW. However, since the SPMWs are shown to be confined within the mixed layer, we interpret the SPMW formation as loss by entrainment to the dense overflows through Denmark Strait and Iceland-Scotland Ridge. Article in Journal/Newspaper Denmark Strait Iceland Nordic Seas north atlantic current North Atlantic University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language English
description Two aspects of the upper limb of the North Atlantic overturning circulation are studied: 1) surface drifter exchange between the subtropical and the subpolar gyres; and 2) characterization of the properties and formation of Subpolar Mode Waters (SPMW). With respect to the first, just one out of 273 drifters (drogued at 15 m) in the Gulf Stream region from 1990 to 2002, moved from subtropical to subpolar latitudes. Most of the drifters recirculated in the subtropical gyre without crossing the inter-gyre edge. This result was surprising because of the known transport of upper ocean water from the subtropical to the subpolar gyre. We suggest that undersampling and inadequate drifter life time lead to an underestimate the northward flow. Moreover, the Ekman flow and the eddy contribution affect the surface trajectories in opposite direction, nearly canceling each other. The description of the properties of the SPMW and the analysis of its formation aim at better describing the warm and salty pathway that supplies water to the regions of dense water formation (Labrador and Nordic Seas). Lagrangian data (surface drifters and isopycnal floats) combined with historical hydrographic data show that each branch of the North Atlantic Current (NAC) in the eastern subpolar gyre is characterized by its own sequence of SPMW that increases in density following the downstream flow. Furthermore, since the branches of the NAC have a dominant northeastward direction, the newly observed distribution of SPMW, combined with the new streamfunctions calculated here, do not support the original hypothesis of McCartney and Talley (1982) of a smooth, cyclonic pathway for SPMW around the subpolar gyre. The transformation and the formation of SPMW are then investigated in terms of the diapycnal flux driven by buoyancy flux. We show that SPMW is transformed to increasingly dense SPMW along the major branches of the NAC. The continuous transformation of SPMW is not constant in density space, leading to "formation" (destruction) of SPMW. However, since the SPMWs are shown to be confined within the mixed layer, we interpret the SPMW formation as loss by entrainment to the dense overflows through Denmark Strait and Iceland-Scotland Ridge.
format Article in Journal/Newspaper
author Brambilla, Elena
spellingShingle Brambilla, Elena
The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water
author_facet Brambilla, Elena
author_sort Brambilla, Elena
title The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water
title_short The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water
title_full The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water
title_fullStr The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water
title_full_unstemmed The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water
title_sort upper limb of the north atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and subpolar mode water
publisher eScholarship, University of California
publishDate 2006
url http://www.escholarship.org/uc/item/68h862cg
genre Denmark Strait
Iceland
Nordic Seas
north atlantic current
North Atlantic
genre_facet Denmark Strait
Iceland
Nordic Seas
north atlantic current
North Atlantic
op_source Brambilla, Elena. (2006). The upper limb of the North Atlantic overturning circulation : investigation of the subtropical-subpolar gyre exchange and Subpolar Mode Water. Scripps Institution of Oceanography. UC San Diego: Scripps Institution of Oceanography. Retrieved from: http://www.escholarship.org/uc/item/68h862cg
op_relation qt68h862cg
http://www.escholarship.org/uc/item/68h862cg
op_rights public
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