A continuous pathway for fresh water along the East Greenland shelf

Foukal, Nicholas P.; Gelderloos, Renske; Pickart, Robert S.

doi:10.1126/sciadv.abc4254

Cited by 37 publications

(35 citation statements)

References 41 publications

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“…The EGCC (Bacon, 2002; Malmberg, 1967) is a fresh (practical salinity < 34), 20 km‐wide, surface‐intensified current, with a high‐velocity core (speeds > 1 m s −1 ) carrying arctic waters and Greenland runoff equatorward (Bacon et al., 2014; le Bras et al., 2018). Recent work (Foukal et al., 2020) showed that the EGCC extends along the whole east Greenland coast, while confirming that deep troughs south of Denmark strait divert part of the EGC into the coastal current (Sutherland & Cenedese, 2009; Sutherland & Pickart, 2008). Past Cape Farewell (CF), the EGC and EGCC were first thought to merge into the West Greenland Current (WGC; Bacon, 2002), but more recent studies argue that the EGCC keeps its identity as a coastal core to become the West Greenland Coastal Current (WGCC; Lin et al., 2018).…”

Section: Introductionmentioning

confidence: 85%

Circulation Over the South‐East Greenland Shelf and Potential for Liquid Freshwater Export: A Drifter Study

Duyck

Jong

2021

Geophysical Research Letters

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Freshwater input into deep convection regions could affect the overturning circulation. With a set of 15 Consortium for Advanced Research for the Transport of Hydrocarbon in the Environment (CARTHE) drifters and 15 Surface Velocity Program (SVP) drifters, we investigate the circulation over the south‐east Greenland shelf and the potential for off‐shelf freshwater export. Part of the East Greenland Current flow is steered into the East Greenland Coastal Current immediately upstream of Sermilik Trough. Between the trough and Cape Farewell, two separate cores are visible. Just past Cape Farewell drifters are redistributed into a shelfbreak core and a slow eddying shelf flow. A coastal core is reestablished downstream. Exchanges between the shelfbreak and coastal flows take place both on the east and west Greenland shelf, allowing fresher water to be diverted away from the coast. Five of 15 shallower CARTHE drifters were exported, mainly at Cape Farewell. CARTHE motion shows a higher correlation with local winds, which are more favorable for off‐shelf transport in this area.

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Section: Introductionmentioning

confidence: 85%

Circulation Over the South‐East Greenland Shelf and Potential for Liquid Freshwater Export: A Drifter Study

Duyck

Jong

2021

Geophysical Research Letters

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“…In the study of Foukal et al (2020) analyzing the East Greenland boundary current system, they defined the coastal current as the inner half of the shelf and fresher than 34 salinity. Based on Foukal et al (2020)'s definition, for all the sections indicated above except OSNAP East, we define the coastal current, and thus the transports, based on integrating the model velocity fields perpendicular to each section where the salinity is lower than 34.0 and bathymetry is shallower than 250 m (see Figure 3). As for OSNAP East, we use the position of the velocity minimum offshore of the EGCC, which we define as the 40 km mark, and also where the salinity is lower than 34.0, as the offshore edge of the coastal current.…”

Section: Transports Of the Coastal Current Systemmentioning

confidence: 99%

“…The edge of Greenland coastal current can be defined by isohaline only (34 salinity-e.g., Harden et al, 2014) or velocity only (e.g., Lin et al, 2018) or both (e.g., Sutherland et al, 2009). In the study of Foukal et al (2020) analyzing the East Greenland boundary current system, they defined the coastal current as the inner half of the shelf and fresher than 34 salinity. Based on Foukal et al (2020)'s definition, for all the sections indicated above except OSNAP East, we define the coastal current, and thus the transports, based on integrating the model velocity fields perpendicular to each section where the salinity is lower than 34.0 and bathymetry is shallower than 250 m (see Figure 3).…”

Section: Transports Of the Coastal Current Systemmentioning

confidence: 99%

Seasonal Cycle of the Coastal West Greenland Current System Between Cape Farewell and Cape Desolation From a Very High‐Resolution Numerical Model

et al. 2021

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The Labrador Sea is a site of deep convection where dense Labrador Sea Water (LSW) is formed in winter by intense atmospheric forcing, feeding the lower limb of the Atlantic Meridional Overturning Circulation (AMOC) (Feucher et al., 2019;Lozier et al., 2017; Schulze-Chretian & Frajka-Williams, 2018). This convection is known to be very sensitive to lateral exchange of freshwater and heat by modulating the stratification and influencing the restratification after the occurrence of convection (

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“…Sea ice export through the Fram Strait plays a central role in the freshwater cycle connecting the Arctic and subarctic regions in the Northern Hemisphere 1 , 2 . Since the Arctic Ocean gathers 11% of the global river discharge into 3% area of the global ocean 3 , sea ice export, together with low salinity seawater carried by ocean currents, returns excess of the freshwater inputs toward lower latitudes 4 . The freshwater export mainly occurs in the Atlantic sector of the Arctic, thereby setting up surface stratification of the neighboring Nordic Seas and further downstream.…”

Section: Introductionmentioning

confidence: 99%

Unprecedented decline of Arctic sea ice outflow in 2018

et al. 2022

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Fram Strait is the major gateway connecting the Arctic Ocean and North Atlantic Ocean, where nearly 90% of the sea ice export from the Arctic Ocean takes place. The exported sea ice is a large source of freshwater to the Nordic Seas and Subpolar North Atlantic, thereby preconditioning European climate and deep water formation in the North Atlantic Ocean. Here we show that in 2018, the ice export through Fram Strait showed an unprecedented decline since the early 1990s. The 2018 ice export was reduced to less than 40% relative to that between 2000 and 2017. The minimum export is attributed to regional sea ice-ocean processes driven by an anomalous atmospheric circulation over the Atlantic sector of the Arctic. The result indicates that a drastic change of the Arctic sea ice outflow and its environmental consequences happen not only through Arctic-wide ice thinning, but also by regional scale atmospheric anomalies.

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A continuous pathway for fresh water along the East Greenland shelf

Cited by 37 publications

References 41 publications

Circulation Over the South‐East Greenland Shelf and Potential for Liquid Freshwater Export: A Drifter Study

Circulation Over the South‐East Greenland Shelf and Potential for Liquid Freshwater Export: A Drifter Study

Seasonal Cycle of the Coastal West Greenland Current System Between Cape Farewell and Cape Desolation From a Very High‐Resolution Numerical Model

Unprecedented decline of Arctic sea ice outflow in 2018

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