Submesoscale Eddy Structures and Frontal Dynamics in the Barents Sea

Abstract

Complex analysis of spatial and temporal variability of surface manifestations of the submesoscale eddies in the Barents Sea is carried out based on generalization of a large amount of satellite SAR-images of ENVISAT ASAR obtained in course of the warm periods in 2007 and 2011. The relationship between the eddy structures and the frontal dynamics is also quantitatively evaluated. It is found that the submesoscale eddies represent a widespread phenomenon in the sea. They are most often observed to the northwest off the Franz Josef Land, near the eastern coast of the Western Spitsbergen, between the Franz Josef Land and the Novaya Zemlya, in the southwestern part of the sea and near the Kanin Nos peninsula. But their absolute maximum is recorded to the northeast off the Rybachy Peninsula. In both years the eddy activity peak falls on July. Though the diameters of the eddies under study vary from 0.2 to 25 km, those with the diameters 2–4 km ( _{45%) and of a cyclonic rotation type (} 80%) are the most numerous. Being analyzed, the sea surface temperature data permit to reveal significant mesoscale and synoptic dynamics of the frontal zones and the associated frontal boundaries throughout the entire sea in course of the whole warm season. Comparison of the eddy locations with variability of the fronts’ positions for each month (based on the data of 2007) shows that the submesoscale structures are often recorded within these regions (up to 50%). The period of the highest eddy activity in July coincides with that of the strongest synoptic and mesoscale dynamics of the fronts.

Keywords

submesoscale eddy, satellite radar image, sea surface temperature, thermal frontal zone, Polar front, Marginal ice or Arctic front, the Barents Sea.

Acknowledgements

The research was carried out within the framework of State Order No. 0149-2018-0014 "Wave processes, transport phenomena and biogeochemical cycles in the seas and oceans: the study of forming mechanisms on the basis of physical-mathematical modeling and in situ experimental works".

For citation

Atadzhanova, O.A., Zimin, A.V., Svergun, E.I. and Konik, A.A., 2018. Submesoscale Eddy Structures and Frontal Dynamics in the Barents Sea. Physical Oceanography, [e-journal] 25(3), pp. 220-228. doi: 10.22449/1573-160X-2018-3-220-228

DOI

10.22449/1573-160X-2018-3-220-228

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