参考文献:1.E. M. Volodin and V. Ya. Galin, “Sensitivity of Summer Indian Monsoon to the 1979-998 El Nino from the Data of Atmospheric General Circulation Model of the Institute Numerical Mathematics-Rus. Meteorol. Hydrol., No.10, 6-1 (200). 2.V. V. Efimov, M. V. Shokurov, and V. S. Barabanov, “Physical mechanisms of wind circulation forcing over the inland seas,-Izv., Atmos. Ocean. Phys. 38 (2), 217-27 (2002). 3.V. V. Efimov and A. E. Anisimov, “Climatic parameters of wind-field variability in the Black Sea region: Numerical reanalysis of regional atmospheric circulation,-Izv., Atmos. Ocean. Phys. 47 (3), 350-61 (2011).View Article 4.V. V. Efimov and A.E. Anisimov, “Numerical modeling of the influence of land–sea temperature contrasts on the atmospheric circulation in the Black-Sea region-Phys. Ocean., 21 (4), 221-29 (2011).View Article 5.V. V. Efimov and A. E. Anisimov, “Influence of the Black Sea on the regional climate,-Morsk. Gidrofiz. Zh., No. 2, 37-9 (2012). 6.A. G. Zatsepin, A. G. Ostrovskii, V. V. Kremenetskiy, et al., “Subsatellite polygon for studying hydrophysical processes in the Black Sea shelf–slope zone,-Izv., Atmos. Ocean. Phys. 50 (1), 13-5 (2014).View Article 7.V. A. Ivanov and V. N. Belokopytov, Oceanography of the Black Sea. National Academy of Sciences of Ukraine (Marine Hydrophysical Institute, Sevastopol, 2011; ECOSY-Gidrofizika., ISBN: 978-966-022-6165-5). 8.Yu. P. Ilyin, L. N. Repetin, V. N. Belokopytov, Yu. N. Goryachkin, N. N. Dyakov, A. A. Kubryakov, and S. V. Stanichny. Meteorological conditions of the seas of Ukraine, vol. 2: Black Sea, (ECOSY-Gidrofizika, Sevastopol, 2012), (in Russian). 9.G. K. Korotaev, “On the source of the seasonal course of the Black Sea circulation,-Morsk. Gidrofiz. Zh., No. 6, 14-0 (2001). 10.G. K. Korotaev, V. V. Knysh, and A. I. Kubryakov, “Study of formation process of cold intermediate layer based on reanalysis of Black Sea hydrophysical fields for 1971-993,-Izv., Atmos. Ocean. Phys. 50 (1), 35-8 (2014).View Article 11.G. I. Marchuk, B. E. Paton, G. K. Korotaev, and V. B. Zalesny, “Data-computing technologies: A new stage in the development of operational oceanography,-Izv., Atmos. Ocean. Phys. 49 (6), 579-91 (2013).View Article 12.M. V. Shokurov, “Numerical simulation of atmospheric circulation over the Black Sea,-Ekol. Bezop. Pribrezhn. Shel’f. Zon Kompleksn. Ispol’z. Resur. Shel’fa 2 (25), 91-13 (2011). 13.R. G. Jones, M. Noguer, D. C. Hassel, et al., Generating High-Resolution Climate Change Scenarios Using PRECIS (Meteorological Office Hadley Centre for Climate Prediction and Research, Exeter, United Kingdom, 2004). 14.G. Korotaev, T. Oguz, A. Nikiforov, and C. Koblinsky, “Seasonal, interannual, and mesoscale variability of the Black Sea upper layer circulation derived from altimeter data,-J. Geophys. Res. 108 (C4), 3122 (2003).View Article
作者单位:A. A. Kubryakov (1) M. V. Shokurov (1) S. V. Stanichny (1) A. E. Anisimov (1)
1. Marine Hydrophysical Institute, str. Kapitanskaya 2, Sevastopol, 290011, Russia
刊物主题:Geophysics/Geodesy; Climatology;
出版者:Springer US
ISSN:1555-628X
文摘
The variability of land–sea surface temperature contrasts in the Black Sea region and its relation with wind dynamics in coastal areas is investigated using satellite measurements and the results of high_resolution regional models. The seasonal and interannual variability of winds is shown to be strongly correlated with the dynamics of temperature contrasts at least in the western and southeastern parts of the basin. This indicates that the local monsoon effect is an important mechanism for the formation of atmospheric circulation in the region. The temporal variability of surface temperature contrasts and the intensity of alongshore winds in the Black Sea region is investigated.