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Spatiotemporal Variability of the Characteristics of the Black Sea Eddies Based on the Results of Their Three-Dimensional Identification Using NEMO Model Simulation  id статьи: 3029
Тип публикации
статья в журнале
Язык
En
Журнал
Oceanology

ISSN:00014370
Год
2023
Выходные данные
том 63
выпуск 1
страницы S83 - S100
EDN
Абстракт
Abstract: The vertical variability of the geometric, dynamic, and thermohaline characteristics of Black Sea eddies is studied using three-dimensional identification of closed streamlines based on the results of simulations of the NEMO model in 2006–2016. The vertical extent of eddies depends linearly on their orbital velocity and significantly affects the speed of their translation motion. The influence of the background current on the upper part of the eddy leads to the mean tilt of the vertical axis of anticyclones in the cyclonic direction and this tilt is maximum in the zone of the Black Sea Rim Current. The eddies occupying the upper layer (up to 150 m) move relatively quickly at a speed of 0.08–0.14 m/s, since they are advected by the Rim Current. The most intense eddy dynamics is observed over the continental slope in the upper 20–70 m layer, where the probability of observing eddies exceeds 30%. Several maxima appear in the surface layer on the shallow northwestern shelf near the mouths of the Danube, Southern Bug, and Dnieper rivers. The relationship between the orbital velocity of eddies, their thermohaline structure, and stratification were estimated. Stability decreases in anticyclonic eddies within the layer 40–100 m due to the lowering of the pycnocline, and in cyclones it increases due to its elevation; in the underlying layers a compensating change of the opposite sign is observed. However, as the orbital velocity increases in the eddies of both signs, a decrease in stratification occurs in the upper 0–100 m layer, which is probably associated with an increase in the vertical shear of the current velocity. Three-dimensional identification of eddies makes it possible to track in detail changes in the individual characteristics of an eddy during its evolution. Using the example of an eddy off the Anatolian coast, it is shown that intensification of anticyclones is associated with the processes of entrainment of shelf waters, which can be one of the important sources of potential energy for anticyclones in the Black Sea.
Ключевые слова
eddy identification methods, eddy shape, mesoscale eddies, numerical simulation, stratification, thermohaline structure
Дата занесения
2024-04-01 12:17:41
Scopus
Статус есть
Квартиль Q2
WoS
Статус есть
Квартиль Q4
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19-05-00752

FNNN-2021-0006