Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model

Previous studies have indicated that most of the net sinking associated with the downward branch of the Atlantic Meridional Overturning Circulation (AMOC) must occur near the subpolar North Atlantic boundaries. In this work we have used monthly mean fields of a high-resolution ocean model (0.1 at th...

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Main Authors:	Sayol, Juan Manuel, Dijkstra, Henk, Katsman, Caroline
Other Authors:	Sub Physical Oceanography, Sub Dynamics Meteorology, Marine and Atmospheric Research
Format:	Article in Journal/Newspaper
Language:	English
Published:	2019
Subjects:	Oceanography Palaeontology Newfoundland Labrador Sea North Atlantic
Online Access:	https://dspace.library.uu.nl/handle/1874/394435

id	ftunivutrecht:oai:dspace.library.uu.nl:1874/394435
record_format	openpolar
spelling	ftunivutrecht:oai:dspace.library.uu.nl:1874/394435 2023-11-12T04:20:33+01:00 Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model Sayol, Juan Manuel Dijkstra, Henk Katsman, Caroline Sub Physical Oceanography Sub Dynamics Meteorology Marine and Atmospheric Research 2019-08-02 image/pdf https://dspace.library.uu.nl/handle/1874/394435 en eng 1812-0784 https://dspace.library.uu.nl/handle/1874/394435 info:eu-repo/semantics/OpenAccess Oceanography Palaeontology Article 2019 ftunivutrecht 2023-11-01T23:23:03Z Previous studies have indicated that most of the net sinking associated with the downward branch of the Atlantic Meridional Overturning Circulation (AMOC) must occur near the subpolar North Atlantic boundaries. In this work we have used monthly mean fields of a high-resolution ocean model (0.1 at the Equator) to quantify this sinking. To this end we have calculated the Eulerian net vertical transport (WΣ) from the modeled vertical velocities, its seasonal variability, and its spatial distribution under repeated climatological atmospheric forcing conditions. Based on this simulation, we find that for the whole subpolar North Atlantic WΣ peaks at about -14 Sv at a depth of 1139 m, matching both the mean depth and the magnitude of the meridional transport of the AMOC at 45° N. It displays a seasonal variability of around 10 Sv. Three sinking regimes are identified according to the characteristics of the accumulated WΣ with respect to the distance to the shelf: one within the first 90 km and onto the bathymetric slope at around the peak of the boundary current speed (regime I), the second between 90 and 250 km covering the remainder of the shelf where mesoscale eddies exchange properties (momentum, heat, mass) between the interior and the boundary (regime II), and the third at larger distances from the shelf where is mostly driven by the ocean's interior eddies (regime III). Regimes I and II accumulate 90% of the of the total sinking and display smaller seasonal changes and spatial variability than regime III. We find that such a distinction in regimes is also useful to describe the characteristics of WΣ in marginal seas located far from the overflow areas, although the regime boundaries can shift a few tens of kilometers inshore or offshore depending on the bathymetric slope and shelf width of each marginal sea. The largest contributions to the sinking come from the Labrador Sea, the Newfoundland region, and the overflow regions. The magnitude, seasonal variability, and depth at which peaks vary for each region, ... Article in Journal/Newspaper Labrador Sea Newfoundland North Atlantic Utrecht University Repository Newfoundland
institution	Open Polar
collection	Utrecht University Repository
op_collection_id	ftunivutrecht
language	English
topic	Oceanography Palaeontology
spellingShingle	Oceanography Palaeontology Sayol, Juan Manuel Dijkstra, Henk Katsman, Caroline Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model
topic_facet	Oceanography Palaeontology
description	Previous studies have indicated that most of the net sinking associated with the downward branch of the Atlantic Meridional Overturning Circulation (AMOC) must occur near the subpolar North Atlantic boundaries. In this work we have used monthly mean fields of a high-resolution ocean model (0.1 at the Equator) to quantify this sinking. To this end we have calculated the Eulerian net vertical transport (WΣ) from the modeled vertical velocities, its seasonal variability, and its spatial distribution under repeated climatological atmospheric forcing conditions. Based on this simulation, we find that for the whole subpolar North Atlantic WΣ peaks at about -14 Sv at a depth of 1139 m, matching both the mean depth and the magnitude of the meridional transport of the AMOC at 45° N. It displays a seasonal variability of around 10 Sv. Three sinking regimes are identified according to the characteristics of the accumulated WΣ with respect to the distance to the shelf: one within the first 90 km and onto the bathymetric slope at around the peak of the boundary current speed (regime I), the second between 90 and 250 km covering the remainder of the shelf where mesoscale eddies exchange properties (momentum, heat, mass) between the interior and the boundary (regime II), and the third at larger distances from the shelf where is mostly driven by the ocean's interior eddies (regime III). Regimes I and II accumulate 90% of the of the total sinking and display smaller seasonal changes and spatial variability than regime III. We find that such a distinction in regimes is also useful to describe the characteristics of WΣ in marginal seas located far from the overflow areas, although the regime boundaries can shift a few tens of kilometers inshore or offshore depending on the bathymetric slope and shelf width of each marginal sea. The largest contributions to the sinking come from the Labrador Sea, the Newfoundland region, and the overflow regions. The magnitude, seasonal variability, and depth at which peaks vary for each region, ...
author2	Sub Physical Oceanography Sub Dynamics Meteorology Marine and Atmospheric Research
format	Article in Journal/Newspaper
author	Sayol, Juan Manuel Dijkstra, Henk Katsman, Caroline
author_facet	Sayol, Juan Manuel Dijkstra, Henk Katsman, Caroline
author_sort	Sayol, Juan Manuel
title	Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model
title_short	Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model
title_full	Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model
title_fullStr	Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model
title_full_unstemmed	Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model
title_sort	seasonal and regional variations of sinking in the subpolar north atlantic from a high-resolution ocean model
publishDate	2019
url	https://dspace.library.uu.nl/handle/1874/394435
geographic	Newfoundland
geographic_facet	Newfoundland
genre	Labrador Sea Newfoundland North Atlantic
genre_facet	Labrador Sea Newfoundland North Atlantic
op_relation	1812-0784 https://dspace.library.uu.nl/handle/1874/394435
op_rights	info:eu-repo/semantics/OpenAccess
_version_	1782336444170240000

Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model

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