Strait of Kara Gates: A Region of Strong Internal Tides in the Arctic Seas
Аннотация и ключевые слова
Аннотация (русский):
This is a review paper about measurements of internal tides in the Kara Gates Strait. Kara Gates is one of the straits where intense internal tides are generated by tidal currents overflowing the transversal sill of the strait. Tidal currents are superimposed on a constant current from the Barents to the Kara Sea. Field studies of internal waves in the strait were carried out in 1997, 2007, and 2015. Analysis of measurements on moorings and towed CTD in scanning mode is presented. Field studies are supported by model simulations of generation and propagation of internal tides.

Ключевые слова:
Kara Gates, internal tides, model simulation, towed CTD, moorings
Текст произведения (PDF): Читать Скачать
Список литературы

1. Brandt, P., W. Alpers, and J. O. Backhaus (1996), Study of the generation and propagation of internal waves in the Strait of Gibraltar using a numerical model and synthetic aperture radar images of the European ERS 1 satellite, Journal of Geophysical Research: Oceans, 101(C6), 14,237-14,252,

2. Bryden, H. L., J. Candela, and T. H. Kinder (1994), Exchange through the Strait of Gibraltar, Progress in Oceanography, 33(3), 201-248,

3. Carpenter, W. B., and J. G. Jeffreys (1871), Report on deep-sea researches carried on during the months of July, August, and September 1870, in H. M. surveying-ship ‘Porcupine’, Proceedings of the Royal Society of London, 19(123-129), 145-221,

4. Dobrovolsky, A. D., and B. S. Zalogin (1982), Seas of the USSR, 192 pp., Moscow State University, Moscow (in Russian). Egbert, G. D., and S. Y. Erofeeva (2002), Efficient Inverse Modeling of Barotropic Ocean Tides, Journal of Atmospheric and Oceanic Technology, 19(2), 183-204,<0183:EIMOBO>2.0.CO;2.

5. Frey, D., V. Krechik, A. Gordey, S. Gladyshev, D. Churin, I. Drozd, A. Osadchiev, S. Kashin, E. Morozov, and D. Smirnova (2023), Austral summer circulation in the Bransfield Strait based on SADCP measurements and satellite altimetry, Frontiers in Marine Science, 10,

6. Hibiya, T. (1990), Generation mechanism of internal waves by a vertically sheared tidal flow over a sill, Journal of Geophysical Research, 95(C2), 1757,

7. Jarosz, E., C. A. Blain, S. P. Murray, and M. Inoue (2005), Barotropic tides in the Bab el Mandab Strait-numerical simulations, Continental Shelf Research, 25(10), 1225-1247,

8. Kagan, B. A., and A. A. Timofeev (2015), Modeling of the Stationary Circulation and Semidiurnal Surface and Internal Tides in the Strait of Kara Gates, Fundamental and Applied Hydrophysics, 8(3), 72-79 (in Russian).

9. Khimchenko, E. E., D. I. Frey, and E. G. Morozov (2020), Tidal internal waves in the Bransfield Strait, Antarctica, Russian Journal of Earth Sciences, 20(2), 1-6,

10. La Violette, P. E., and R. A. Arnone (1988), A tide-generated internal waveform in the western approaches to the Strait of Gibraltar, Journal of Geophysical Research, 93(C12), 15,653,

11. Lacombe, H., and C. Richez (1982), The Regime of the Strait of Gibraltar, in Hydrodynamics of Semi-Enclosed Seas, Proceedings of the 13th International Liege Colloquium on Ocean Hydrodynamics, pp. 13-73, Elsevier, 016/s0422-9894(08)71237-6.

12. Morozov, E. G., and V. T. Paka (2010), Internal waves in a high-latitude region, Oceanology, 50(5), 668-674,

13. Morozov, E. G., and S. V. Pisarev (2002), Internal tides at the Arctic latitudes (numerical experiments), Oceanology, 42(2), 153-161.

14. Morozov, E. G., and V. I. Vlasenko (1996), Extreme tidal internal waves near the Mascarene ridge, Journal of Marine Systems, 9(3), 203-210,

15. Morozov, E. G., V. G. Neiman, and A. D. Shcherbinin (2003a), Internal tide in the Kara Strait, Doklady Earth Sciences, 393(9), 1312-1314.

16. Morozov, E. G., G. Parrilla-Barrera, M. G. Velarde, and A. D. Scherbinin (2003b), The straits of Gibraltar and Kara Gates: a comparison of internal tides, Oceanologica Acta, 26(3), 231-241,

17. Morozov, E. G., V. T. Paka, and V. V. Bakhanov (2008), Strong internal tides in the Kara Gates Strait, Geophysical Research Letters, 35(16),

18. Morozov, E. G., I. E. Kozlov, S. A. Shchuka, and D. I. Frey (2017), Internal tide in the Kara Gates Strait, Oceanology, 57(1), 8-18,

19. Murray, S. P., and W. Johns (1997), Direct observations of seasonal exchange through the Bab el Mandab Strait, Geophysical Research Letters, 24(21), 2557-2560,

20. Parks, T. W., and C. S. Burrus (1987), Digital filter design, 343 pp., John Wiley & Sons, New York.

21. Shokalsky, Y. M. (1959), Oceanography, 537 pp., Gidrometeoizdat, Leningrad (in Russian).

22. Smith, W. H. F., and D. T. Sandwell (1997), Global sea floor topography from satellite altimetry and ship depth soundings,, (last accessed in January 2023).

23. Terziev, F. S., G. V. Girdyuk, G. G. Zykova, and S. L. Dzhenyuk (Eds.) (1990), Hydrometeorology and Hydrochemistry of the USSR Seas. Vol. 1: The Barents Sea, Gidrometeoizdat, Leningrad (in Russian).

24. Vlasenko, V. I. (1992), Non-linear model for the generation of baroclinic tides over extensive inhomogeneities of the seabed relief, Soviet Journal of Physical Oceanography, 3(6), 417-424,

25. Watson, G. (1994), Internal Waves in a Stratified Shear Flow: The Strait of Gibraltar, Journal of Physical Oceanography, 24(2), 509-517,<0509:iwiass>;2.

Войти или Создать
* Забыли пароль?