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Labrador Sea
TERIFIC project
Targeted Experiment to Reconcile Increased Freshwater with Increased Convection
Eleanor Frajka-Williams
TERIFIC Ocean Glider Deployments in the Labrador Sea
Seaglider dataset from 2019-12 to 2020-05 in the Labrador Sea
Louis Clément
,
Eleanor Frajka-Williams
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Dataset
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DOI
Technicalities: Exploring the Labrador Sea with autonomous vehicles
The Labrador Sea is a fascinating and difficult environment in which to work. In the winter, wind speeds can gust upwards of 200 km/hr, …
B. de Young
,
Eleanor Frajka-Williams
,
Nicolai von Oppeln-Bronikowski
,
Stephen Woodward
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Project
URL
Wind-driven transport of fresh shelf water into the upper 30m of the Labrador Sea
The Labrador Sea is one of a small number of deep convection sites in the North Atlantic, that contribute to the meridional overturning …
Lena M. Schulze Chretien
,
Eleanor Frajka-Williams
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DOI
Horizontal stratification during Deep convection in the Labrader Sea
Deep convection—the process by which surface waters are mixed down to 1000 m or deeper—forms the primary downwelling of the meridional …
Eleanor Frajka-Williams
,
Peter B. Rhines
,
Charles C. Eriksen
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DOI
Physical controls and interannual variability of the Labrador Sea spring phytoplankton bloom in distinct regions
We investigated the variability of the spring phytoplankton bloom in the Labrador Sea, dividing into distinct biogeographical zones, …
Eleanor Frajka-Williams
,
Peter B. Rhines
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DOI
Physical controls and mesoscale variability in the Labrador Sea spring phytoplankton bloom observed by Seaglider
We investigated the 2005 spring phytoplankton bloom in the Labrador Sea using Seaglider, an autonomous underwater vehicle equipped with …
Eleanor Frajka-Williams
,
Peter Rhines
,
Charles Eriksen
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