A. Lecouffe, S. Godin-Beekmann, A. Pazmino, and A. Hauchecorne, “Evolution of the intensity and duration of the Southern Hemisphere stratospheric polar vortex edge for the period 1979–2020,” Atmos. Chem. Phys. 22 (6), 4187–4200 (2022).
Article
ADS
Google Scholar
S. Solomon, “Stratospheric ozone depletion: A review of concepts and history,” Rev. Geophys. 37 (3), 275–316 (1999).
Article
ADS
Google Scholar
B. J. Finlayson-Pitts and J. N. Pitts, Chemistry of the Upper and Lower Atmosphere: Theory, Experiments, and Applications (Academic Press, 2000).
Google Scholar
P. A. Newman, S. R. Kawa, and E. R. Nash, “On the size of the Antarctic ozone hole,” Geophys. Rev. Lett. 31 (21), L21104 (2004).
V. V. Zuev and E. S. Savelieva, “The cause of the spring strengthening of the Antarctic polar vortex,” Dyn. Atmos. Ocean 87, 101097 (2019).
Article
Google Scholar
V. V. Zuev and E. S. Savelieva, “The cause of the strengthening of the Antarctic polar vortex during October–November periods,” J. Atmos. Sol.-Terr. Phys. 190, 1–5 (2019).
Article
ADS
Google Scholar
V. V. Zuev, I. V. Borovko, V. N. Krupchatnikov, and E. S. Savelieva, “Influence of the temperature of the lower subtropical stratosphere on Antarctic polar vortex dynamics,” Atmos. Ocean. Opt. 33 (6), 708–711 (2020).
Article
Google Scholar
V. B. Kashkin, T. V. Rubleva, and R. G. Khlebopros, Stratospheric Ozone: Space View (Siberian Federal University, Krasnoyarsk, 2015) [in Russian].
Google Scholar
R. G. Khlebopros and V. B. Kashkin, “Antarctic ozone hole—where does the blame lie?” Nauka Pervykh Ruk. 73 (1), 20–27 (2017).
Google Scholar
V. B. Kashkin and T. V. Rubleva, “Estimation of zonal movement of ozone mass in the lower stratosphere based on satellite data,” Opt. Atmos. Okeana 27 (9), 826–832 (2014).
Google Scholar
T. V. Rubleva, V. B. Kashkin, V. M. Myasnikov, and S. A. Seliverstov, “Variability of polar stratospheric ozone of the Southern Hemisphere based on satellite data (apparatus TOMS, OMI),” Vestn. SibGAU, No. 2, 58–62 (2011).
Google Scholar
E. Yulaeva, J. R. Holton, and J. M. Wallace, “On the cause of the annual cycle in tropical lower-stratospheric temperatures,” J. Atmos. Sci. 51 (2), 169–174 (1994).
Article
ADS
Google Scholar
W. Steinbrecht, B. Hassler, H. Claude, P. Winkler, and R. S. Stolarski, “Global distribution of total ozone and lower stratospheric temperature variations,” Atmos. Chem. Phys. 3 (5), 1421–1438 (2003).
Article
ADS
Google Scholar
E. S. Saveljeva, “Dynamics of the Antarctic polar vortex during the 2002 sudden stratospheric warming,” Opt. Atmos. Okeana 33 (1), 50–55 (2020).
Google Scholar
H. Hersbach, B. Bell, P. Berrisford, S. Hirahara, A. Horanyi, J. Munoz-Sabater, J. Nicolas, C. Peubey, R. Radu, D. Schepers, A. Simmons, C. Soci, S. Abdalla, X. Abellan, G. Balsamo, P. Bechtold, G. Biavati, J. Bidlot, M. Bonavita, G. de Chiara, P. Dahlgren, D. Dee, M. Diamantakis, R. Dragani, J. Flemming, R. Forbes, M. Fuentes, A. Geer, L. Haimberger, S. Healy, R. J. Hogan, E. Holm, M. Janiskova, S. Keeley, P. Laloyaux, P. Lopez, C. Lupu, G. Radnoti, P. de Rosnay, I. Rozum, F. Vamborg, S. Villaume, and J.-N. Thepaut, “The ERA5 global reanalysis,” Q. J. R. Meteor. Soc. 146 (730), 1–51 (2020).
Article
Google Scholar
留言 (0)