Large-scale control of the retroflection of the Labrador Current

The Labrador Current transports cold, relatively fresh, and well-oxygenated waters within the subpolar North Atlantic and towards the eastern American continental shelf. The relative contribution of these waters to either region depends on the eastward retroflection of the Labrador Current at the Gr...

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Bibliographic Details
Published in:Nature communications 2023-05, Vol.14 (1), p.2623-2623, Article 2623
Main Authors: Jutras, Mathilde, Dufour, Carolina O., Mucci, Alfonso, Talbot, Lauryn C.
Format: Article
Language:English
Subjects:
704/106/829/2737
704/829/2737
Continental shelves
Deep water
Gulf Stream
Humanities and Social Sciences
multidisciplinary
Ocean currents
Oxygenation
Retroreflection
Science
Science (multidisciplinary)
Water properties
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Summary:The Labrador Current transports cold, relatively fresh, and well-oxygenated waters within the subpolar North Atlantic and towards the eastern American continental shelf. The relative contribution of these waters to either region depends on the eastward retroflection of the Labrador Current at the Grand Banks of Newfoundland. Here, we develop a retroflection index based on the pathway of virtual Lagrangian particles and show that strong retroflection generally occurs when a large-scale circulation adjustment, related to the subpolar gyre, accelerates the Labrador Current and shifts the Gulf Stream northward, partly driven by a northward shift of the wind patterns in the western North Atlantic. Starting in 2008, a particularly strong northward shift of the Gulf Stream dominates the other drivers. A mechanistic understanding of the drivers of the Labrador Current retroflection should help predict changes in the water properties in both export regions, and anticipate their impacts on marine life and deep-water formation. The authors find that whether the Labrador Current transports its cold, relatively fresh, and well oxygenated waters towards the subpolar North Atlantic or the eastern American coast depends on large-scale forcing, partly driven by winds over the North Atlantic.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-38321-y