Известия Российской академии наук. Физика атмосферы и океанаИзвестия Российской академии наук. Физика атмосферы и океана0002-3515The Russian Academy of Sciences1786810.31857/S0002-35155559-12Research ArticleEffect of changes in global temperature and radiative forcing on general atmospheric circulationBogdanovM. B.BogdanovMB@info.sgu.ruMorozovaS. V.BogdanovMB@info.sgu.ruSaratov State University2511201955591224112019Copyright © 2019, Russian academy of sciences2019<p>Possible connections are studied between the monthly average values of the wind angular moment module and anomalу of the globally averaged surface temperature and change in radiative forcing. The existence of statistically significant positive linear correlation between these characteristics is shown. The results obtained are in accordance with the conclusions of the theory of similarity of planetary atmospheres.</p>atmosphereangular momentglobal temperatureradiative forcingатмосферамомент импульсаглобальная температурарадиационное воздействие[Переведенцев Ю.П., Мохов И.И., Елисеев А.В. Теория общей циркуляции атмосферы. Казань: Изд-во Казан. ун-та, 2013. 224 с.][Satoh M. Atmospheric circulation dynamics and general circulation models. Berlin: Springer, 2014. 730 p.][Stocker T.F., Qin D., Plattner G.-K., et al. // Climate Change 2013. The Physical Science Basis. Cambridge: Cambridge University Press, 2014. 1552 p.][Дымников В.П., Лыкосов В.Н., Володин Е.М. Моделирование климата и его изменений: современные проблемы // Вестник РАН. 2012. Т. 82. № 3. С. 227–336.][Golitsyn G.S. A similarity approach to the general circulation of planetary atmospheres // Icarus. 1970. V. 13. P. 1–24.][Седов Л.И. Методы подобия и размерности в механике. М.: Наука, 1977. 440 с.][Дибай Э.А., Каплан С.А. Размерности и подобие астрофизических величин. М.: Наука, 1976. 400 с.][Zhou Y.H., Salstein D.A., Chen J.L. Revised atmospheric excitation function series related to Earth variable rotation under consideration of surface topography // J. Geophys. Res. 2006. V. 111. D12108, doi: 10.1029/2005JD006608][Zhang H.-M., Huang B., Lawrimore J., Menne M., Smith T.M. NOAA Global Surface Temperature Dataset (NOAAGlobalTemp), Version 4.0. NOAA National Centers for Environmental Information, doi: 10.7289/V5FN144H][Vose R.S., Arndt D., Banzon V.F., et al. NOAA’s merged land-ocean surface temperature analysis // Bulletin of the American Meteorological Society. 2012. V. 93. P. 1677–1685. doi: 10.1175/BAMS-D-11-00241.1][Fröhlich C. Total solar irradiance: what have me learned from the last three cycles and the recent minimum? // Space Science Rev. 2013. V. 176. P. 237–252.][Giorgini J.D., Yeomans D.K., Chamberlin A.B., et al. JPL’s on-line Solar System data service // Bulletin of the American Astronomical Society. 1996. V. 28. P. 1158.][Vardavas I.M., Taylor F.W. Radiation and climate. Oxford: Oxford University Press, 2007. 492 p.]