Model simulated freshwater transport along the Labrador current east of the Grand Banks of Newfoundland

The freshwater transport (FWT) by the Labrador Current (LC) around the Grand Banks of Newfoundland (GBN) is diagnosed with the 26-year Global Ocean Physical Reanalysis 1/12° data (GLORYS12v1) during 1993 - 2018. The time-mean FWT of the LC above the 1027.25 kg/m 3 isopycnal surface is 83.6 mSv (1 mS...

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Published inFrontiers in Marine Science Vol. 9
Main Authors Ma, Yongxing, Lu, Youyu, Hu, Xianmin, Gilbert, Denis, Socolofsky, Scott A., Boufadel, Michel
Format Journal Article
LanguageEnglish
Published Frontiers Media S.A 15.11.2022
Subjects
freshwater transport
Grand Banks of Newfoundland
Labrador Current
multi-scale variations
retroflection
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Summary:The freshwater transport (FWT) by the Labrador Current (LC) around the Grand Banks of Newfoundland (GBN) is diagnosed with the 26-year Global Ocean Physical Reanalysis 1/12° data (GLORYS12v1) during 1993 - 2018. The time-mean FWT of the LC above the 1027.25 kg/m 3 isopycnal surface is 83.6 mSv (1 mSv = 10 3 m 3 /s) southward through the Flemish Pass. Among this 83.6 mSv, 42% (35.2 mSv) is exported into the interior of the North Atlantic along the whole pathway of the LC from the Flemish Pass to the Tail of the GBN, with 25.5 mSv by the mean advection and 7.2 mSv by the mesoscale eddy transport. The seasonal and inter-annual variations of the FWT in the east of the GBN are mainly caused by the variation of the horizontal velocity of the LC, and the variation of salinity makes a nontrivial contribution to the variation of the FWT to the north of 45°N. Around the Tail of the GBN, the mesoscale eddies make significant contributions to the time-mean FWT and the seasonal and inter-annual variations of the FWT.
ISSN:2296-7745
2296-7745
DOI:10.3389/fmars.2022.908306