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Mechanisms of Variability of the Black and Marmara Seas Circulation Based on Numerical Energy Analysis  id статьи: 3099
Тип публикации
статья в журнале
Язык
En
Журнал
Physical Oceanography

ISSN:1573160
Год
2023
Выходные данные
том 30
выпуск 6
страницы 851 - 865
DOI
EDN
Абстракт
Purpose. The study is purposed at analyzing the physical mechanisms of formation of the Black and Marmara seas circulation structures based on the numerical experiments with climatic boundary conditions. Methods and Results. To investigate the reasons for the formation of circulation features, the energetic approach was applied that permitted to calculate the work of the forces affecting the marine environment. Location in the same geographical region determines similarity of atmospheric conditions for the Black and Marmara seas, and a clearly pronounced two-layer water stratification in both basins is related to a significant difference in salinity of the Black Sea and Mediterranean waters. To analyze the mechanisms of circulation variability, the mean and eddy fields formed under the impact of climatic atmospheric forcing and calculated using a numerical model of sea dynamics were considered. Wind influence, thermohaline fluxes on the sea surface, buoyancy work, friction, and diffusion were quantitatively assessed based on calculation of the Lorenz energy cycle components. The common features were found in the mechanisms of mesoscale variability, and the differences – in the mechanisms of large-scale circulation variability. Conclusions. It is shown that the main source of energy for the Black Sea mean circulation is wind stress work, and as for the Marmara Sea, the dominant factor is buoyancy work. For both basins, variability of the eddy kinetic energy characterizing the mesoscale dynamics is conditioned by baroclinic instability. At that, about a quarter of the available potential energy in the Black Sea, and about a half of it in the Marmara Sea is transformed into the eddy kinetic energy.
Ключевые слова
available potential energy, baroclinic instability, Black Sea, buoyancy, circulation; dissipation, kinetic energy, Lorenz energy cycle, Marmara Sea, wind stress
Дата занесения
2024-07-15 14:05:03
Scopus
Статус есть
Квартиль --
WoS
Статус есть
Квартиль Q4
РИНЦ
Статус нет
Импакт-фактор --
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