Ukrainian Antarctic Journal

No 6-7 (2008): Ukrainian Antarctic Journal
Articles

Geomagnetic activity and change of the baric field on the Akademik Vernadsky station

Yu. P. Sumaruk
S. I. Subbotin Institute of Geophysics of NAS of Ukraine
P. V. Sumaruk
S. I. Subbotin Institute of Geophysics of NAS of Ukraine
Published December 15, 2008
How to Cite
Sumaruk, Y. P., & Sumaruk, P. V. (2008). Geomagnetic activity and change of the baric field on the Akademik Vernadsky station. Ukrainian Antarctic Journal, (6-7), 74-78. https://doi.org/10.33275/1727-7485.6-7.2008.495

Abstract

It was shown that in the region of the Antarctic station Akademik Vernadskiy there is seen inverse correlation between the dispersion of the atmospheric pressure and the geomagnetic activity. The dependence changes with the season and is better seen during the local winter.

References

  1. Avdyushin, S. I., Danilov, A. D. (2000). Sonce, pogoda i klimat: segodnyashnij vzglyad na problem (obzor) [Sonce, Weather and Climate: Today's View of the Problem (Review)]. Geomagnetism and Aeronomy, 40(5), 3–14.
  2. Krakovskaya, S. V. (2000). Chislennoe modelirovanie atmosfery` v issledovanii frontal`ny`x polos oblachnosti i osadkov nad Antarkticheskim poluostrovom. [Numerical modeling of the atmosphere in the study of frontal clouds and precipitation bands over the Antarctic Peninsula]. Bulletin UAC, 3, 41–53.
  3. Krichak, O. G. (1960). Osobennosti atmosfernoj cirkulyacii nad Antarktidoj i eyo svyaz` s cirkulyaciej Yuzhnogo polushariya. [Features of the atmospheric circulation over Antarctica and its relationship with the circulation of the Southern Hemisphere]. Nekotory`e problemy` meteorologii, 28–71.
  4. Morozova, A. L., Pudovkin, M. I. (2000). Klimat Central`noj Evropy` XVI–XX vv. i vekovy`e variacii solnechnoj aktivnosti. [The climate of Central Europe in the 16th – 20th centuries. and secular variations in solar activity]. Geomagnetism and Aeronomy, 40(6), 68–75.
  5. Pudovkin, M. I., Morozova, A. L. (2000). 11-letnie variacii klimata v Shvejczarii s 1700 po 1989 gg. i solnechnaya aktivnost`. [11-year climate variations in Switzerland from 1700 to 1989 and solar activity]. Geomagnetism and Aeronomy, 40(3), 3–8.
  6. Sumaruk, T. P., Sumaruk, Yu. P. (2006). Do pytannia enerhetyky mahnitosfery na riznykh rivniakh soniachnoi ta heomahnitnoi aktyvnosti. [Before feeding the energy of the magnetosphere at the winter ravines of sleepy and geomagnetic activity]. Geophysical journal, 28(3), 116–121.
  7. Bochnicek, J., Hejda, P., Bucha, V., & Pycha, J. (1999). Possible geomagnetic activity effects on weather. Annales Geophysicae, 17, 925-932.
  8. Foukal, P., & Lean, J. (1990). An empirical model of solar irradiance variations between 1874 and 1988. Science, 274, 505-510.
  9. Pittock, A.B. (1978). A critical look at long-term sun-weather relationships. Rev. Geophys., 16, 400-421.
  10. Prigancova, A. (1998). Variable solar forcing and climate changing. Studia geoph. et geod., 42, 159-169.
  11. Salby, M. I., & Shea, D. J. (1991). Correlations between solar activity and the atmosphere: an unphysical explanation. J. Geophys. Res., 96, 22579-22585.