Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea
The production of water masses formed by convection in the Labrador Sea (i.e. Labrador Sea Water, LSW) and its variability contributes to the variability of the Atlantic Meridional Overturning Circulation (AMOC). Several studies put the role of the Labrador Sea under renewed debate, and suggest a ra...
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2021
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| Online Access: | http://resolver.tudelft.nl/uuid:80d63367-af43-4640-a5b8-edc37e52c14f |
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fttudelft:oai:tudelft.nl:uuid:80d63367-af43-4640-a5b8-edc37e52c14f 2023-07-30T04:03:52+02:00 Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea van de Voort, Nick (author) Katsman, C.A. (mentor) Georgiou, S. (graduation committee) Delft University of Technology (degree granting institution) 2021-07-06 http://resolver.tudelft.nl/uuid:80d63367-af43-4640-a5b8-edc37e52c14f en eng http://resolver.tudelft.nl/uuid:80d63367-af43-4640-a5b8-edc37e52c14f © 2021 Nick van de Voort Atlantic Meridional Overturning Circulation AMOC Labrador Sea Convection Pathways boundary-interior exchanges passive tracer analysis LSW Labrador Sea Water export student report 2021 fttudelft 2023-07-08T20:40:33Z The production of water masses formed by convection in the Labrador Sea (i.e. Labrador Sea Water, LSW) and its variability contributes to the variability of the Atlantic Meridional Overturning Circulation (AMOC). Several studies put the role of the Labrador Sea under renewed debate, and suggest a rather complex interplay between the production of the LSW, the boundary current and the eddy field. To this end, an increased effort is put in understanding the variability of the LSW, its export routes and associated export timescales. In this study, the effects of variations in boundary current strength on the export pathways of convected water masses are investigated. The same idealized eddy-resolving numerical model is used as Georgiou et al. (2019) which has proven to be capable of capturing the key dynamics of the Labrador Sea, like the annual cycle of convection, the process and timescales of restratification, and properties of the mesoscale eddy field. Model simulations are set-up with different scenarios of the density structure of the boundary current at inflow location (i.e. southern tip of Greenland). The variations result in respectively a 5% strengthening and 5% weakening of the boundary current, which corresponds to interannual variability of observed surface velocities. The model output demonstrates that boundary current variations start a chain of reactions, significantly changing the dynamics of the Labrador Sea. This has implications for deep convection processes in the interior of the basin and thus the export product. With a passive tracer analysis it is shown that convected water masses formed in the convection area are laterally steered along isopycnals by an eddy-induced shear flow from the interior towards the boundary current at the West-Greenland coast in deeper layers. A strengthening (weakening) of the boundary current yields a lighter (denser) water mass to be exported at shallower (deeper) layers out of the interior. The most intense entrainment into the boundary current occurs where both ... Other/Unknown Material Greenland Labrador Sea Delft University of Technology: Institutional Repository Greenland |
| institution |
Open Polar |
| collection |
Delft University of Technology: Institutional Repository |
| op_collection_id |
fttudelft |
| language |
English |
| topic |
Atlantic Meridional Overturning Circulation AMOC Labrador Sea Convection Pathways boundary-interior exchanges passive tracer analysis LSW Labrador Sea Water export |
| spellingShingle |
Atlantic Meridional Overturning Circulation AMOC Labrador Sea Convection Pathways boundary-interior exchanges passive tracer analysis LSW Labrador Sea Water export van de Voort, Nick (author) Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea |
| topic_facet |
Atlantic Meridional Overturning Circulation AMOC Labrador Sea Convection Pathways boundary-interior exchanges passive tracer analysis LSW Labrador Sea Water export |
| description |
The production of water masses formed by convection in the Labrador Sea (i.e. Labrador Sea Water, LSW) and its variability contributes to the variability of the Atlantic Meridional Overturning Circulation (AMOC). Several studies put the role of the Labrador Sea under renewed debate, and suggest a rather complex interplay between the production of the LSW, the boundary current and the eddy field. To this end, an increased effort is put in understanding the variability of the LSW, its export routes and associated export timescales. In this study, the effects of variations in boundary current strength on the export pathways of convected water masses are investigated. The same idealized eddy-resolving numerical model is used as Georgiou et al. (2019) which has proven to be capable of capturing the key dynamics of the Labrador Sea, like the annual cycle of convection, the process and timescales of restratification, and properties of the mesoscale eddy field. Model simulations are set-up with different scenarios of the density structure of the boundary current at inflow location (i.e. southern tip of Greenland). The variations result in respectively a 5% strengthening and 5% weakening of the boundary current, which corresponds to interannual variability of observed surface velocities. The model output demonstrates that boundary current variations start a chain of reactions, significantly changing the dynamics of the Labrador Sea. This has implications for deep convection processes in the interior of the basin and thus the export product. With a passive tracer analysis it is shown that convected water masses formed in the convection area are laterally steered along isopycnals by an eddy-induced shear flow from the interior towards the boundary current at the West-Greenland coast in deeper layers. A strengthening (weakening) of the boundary current yields a lighter (denser) water mass to be exported at shallower (deeper) layers out of the interior. The most intense entrainment into the boundary current occurs where both ... |
| author2 |
Katsman, C.A. (mentor) Georgiou, S. (graduation committee) Delft University of Technology (degree granting institution) |
| format |
Other/Unknown Material |
| author |
van de Voort, Nick (author) |
| author_facet |
van de Voort, Nick (author) |
| author_sort |
van de Voort, Nick (author) |
| title |
Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea |
| title_short |
Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea |
| title_full |
Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea |
| title_fullStr |
Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea |
| title_full_unstemmed |
Effects of Variations in Boundary Current Strength on the Export Pathways of Convected Water Masses in the Labrador Sea |
| title_sort |
effects of variations in boundary current strength on the export pathways of convected water masses in the labrador sea |
| publishDate |
2021 |
| url |
http://resolver.tudelft.nl/uuid:80d63367-af43-4640-a5b8-edc37e52c14f |
| geographic |
Greenland |
| geographic_facet |
Greenland |
| genre |
Greenland Labrador Sea |
| genre_facet |
Greenland Labrador Sea |
| op_relation |
http://resolver.tudelft.nl/uuid:80d63367-af43-4640-a5b8-edc37e52c14f |
| op_rights |
© 2021 Nick van de Voort |
| _version_ |
1772814987105927168 |