2017
DOI: 10.1002/2017jc012974
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Eddy‐Resolving Simulation of the Atlantic Water Circulation in the Fram Strait With Focus on the Seasonal Cycle

Abstract: Eddy driven recirculation of Atlantic Water (AW) in the Fram Strait modifies the amount of heat that reaches the Arctic Ocean, but is difficult to constrain in ocean models due to very small Rossby radius there. In this study, we explore the effect of resolved eddies on the AW circulation in a locally eddy‐resolving simulation of the global Finite‐Element‐Sea ice‐Ocean Model (FESOM) integrated for the years 2000–2009, by focusing on the seasonal cycle. An eddy‐permitting simulation serves as a control run. Our… Show more

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Cited by 89 publications
(148 citation statements)
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“…subduction under sea-ice and PSW. As described in Wekerle et al (2017), a correct eddy heat transport is also able to reduce a cold bias (modelled temperatures are lower than in observations) found in the central Fram Strait.…”
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confidence: 99%
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“…subduction under sea-ice and PSW. As described in Wekerle et al (2017), a correct eddy heat transport is also able to reduce a cold bias (modelled temperatures are lower than in observations) found in the central Fram Strait.…”
mentioning
confidence: 99%
“…Some observational studies locate the northern (Rudels et al, 2005). There is evidence from drifter data (Gascard et al, 1995), hydrographic surveys (Marnela et al, 2013), an inverse modelling study (Schlichtholz and Houssais, 1999) and a numerical ocean model (Kawasaki and Hasumi, 2016) evidence from model studies in Fram Strait is at present inconclusive as the northern limit of the recirculation, the strength of individual recirculation pathways and of the boundary currents varies between models (Maslowski et al, 2004;Aksenov 5 et al, 2010;Hattermann et al, 2016;Ilicak et al, 2016;Wekerle et al, 2017). This appears to be related to the resolution of the models and the bathymetry (Fieg et al, 2010).…”
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confidence: 99%
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