Ukrainian Antarctic Journal

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

An effect of the North Atlantic oscillation on the temporal distribution of precipitation: Wavelet expansion method

PDF (Українська)
  • V. D. Rusov,
  • A. Glushkov,
  • V. Vaschenko,
  • V. Pavlovych,
  • N. Loboda,
  • Zh. I. Patlashenko,
  • V. Khokhlov,
  • A. Svinarenko,
  • T. V. Solonko
V. D. Rusov
Odessa National Polytechnic University, Odessa, Ukrainian Antarctic Scientific Center. Kyiv
A. Glushkov
Odessa National Polytechnic University, Odessa, Odessa State Environmental University, Odessa
V. Vaschenko
Ukrainian Antarctic Scientific Center, Kyiv
V. Pavlovych
Ukrainian Antarctic Scientific Center, Kyiv
N. Loboda
Odessa State Ecological University, Odessa
Zh. I. Patlashenko
Taras Shevchenko National University of Kyiv, Kyiv
V. Khokhlov
Odessa State Ecological University, Odessa
A. Svinarenko
Odessa State Ecological University, Odessa
T. V. Solonko
Odessa State Ecological University, Odessa
DOI: https://doi.org/10.33275/1727-7485.6-7.2008.506
Published December 15, 2008
Keywords
  • wavelet expansion,
  • North Atlantic oscillation,
  • temporal distribution of precipitation
How to Cite
Rusov, V. D., Glushkov, A., Vaschenko, V., Pavlovych, V., Loboda, N., Patlashenko, Z. I., Khokhlov, V., Svinarenko, A., & Solonko, T. V. (2008). An effect of the North Atlantic oscillation on the temporal distribution of precipitation: Wavelet expansion method. Ukrainian Antarctic Journal, (6-7), 150-156. https://doi.org/10.33275/1727-7485.6-7.2008.506

Abstract

Within the wave-let expansion method analysis of influence of North-Atlantic oscillation (NAO) on temporal distribution of precipitation on Ukraine is carried out. It is shown that the most large correlation coefficients between NAO indexes and month precipitation sums are defined for the west of Ukraine and for period of the long dominating the single NAO phase.

PDF (Українська)

References

  1. Glushkov, A.V., Khokhlov, V.N., & Tsenenko, I.A. (2004). Atmospheric teleconnection patterns and eddy kinetic energy content: wavelet analysis. Nonlinear Processes in Geophysics, 11(3), 285–293.
  2. Glushkov, A.V., Khokhlov, V.N., Prepelitsa, G.P., & Tsenenko, I.A. (2004). Temporal variability of the atmosphere ozone content: Effect of North-Atalantic oscillation. Optics of atmosphere and ocean, 14(7), 219–223.
  3. Glushkov, A.V., Loboda, N.S., & Khokhlov, V.N. (2005). Using meteorological data for reconstruction of annual runoff series over an ungauged area: Empirical orthogonal functions approach to Moldova-Southwest Ukraine region. Atmospheric Research (Elseiver), 77, 100–113.
  4. Glushkov, A.V., Loboda, N.S., Khokhlov, V.N., & Lovett, L. (2006). Using non-decimated wavelet decomposition to analyse time variations of North Atlantic Oscillation, eddy kinetic energy, and Ukrainian precipitation. Journal of Hydrology (Elseiver), 322(1–4), 14–24.
  5. Glushkov, A.V., Khokhlov, V.N., & Loboda, N.S. (2006). On the nonlinear interaction between global teleconnection patterns. Quart. J. Royal Meteorol. Soc., 132, 447–465.
  6. Loboda, N. S., Xoxlov, V. N. (2004). Statisticheskij analiz svyazi klimaticheskix faktorov, polej osadkov i gidrologicheskix parametrov dlya yugo-zapadnoj chasti Ukrainy`. [Statistical analysis of the relationship between climatic factors, precipitation fields and hydrological parameters for the south-western part of Ukraine]. Gidroximiya, gidrologiya i gidroe`kologiya, 6, 60–66.
  7. Loboda, N. S. (1999). Primenenie metoda glavny`x komponent k issledovaniyu zakonomernostej mnogoletnix kolebanij godovogo stoka i ego klimaticheskix faktorov. [Application of the principal components method to the study of the regularities of long-term fluctuations of the annual runoff and its climatic factors]. Meteorologiya, klimatologiya i gidrologiya, 38, 112–122.
  8. Barnston, A.G., & Livezey, R.E. (1987). Classification, seasonality and persistence of low-frequency atmospheric circulation patterns. Mon. Wea. Rev., 115, 1083–1126.
  9. Morlet, J., Arens, G., Fourgeau, E., & Giard, D. (1982). Wave propagation and sampling theory. Geophysics, 47, 203–236.
  10. Goupillaud, P., Grossman, A., & Morlet, J. (1984). Cycle-octave and related transforms in seismic signal analysis. Geoexploration, 23, 85–102.
  11. Rusov, V.D., Glushkov, A.V., Khokhlov, V.N., Vaschenko, V.N., Pavlovich, V.N., Tsenenko, I.A., & Patlaschenko, Zh.I. (2004). On long-term fluctuations of the atntarctic oscillation phase and relationship with southern hemisphere total ozone. Visnyk Kyivskoho un-tu. Ser. fiz-.mat., 4, 471–476.
  12. Goswami, J.C., & Chan, A.K. (1999). Fundamentals of wavelets: theory, algorithms, and applications. Wiley-Intercsience.
  13. Glushkov, A.V., Khokhlov, V.N., & Tsenenko, I.A. (2003). Application of the wavelet-expansion to analysis vortex kinetic energy values and heat-mass-energy transfer processes in atmosphere. Phys. Aerodisp. systems, 40, 131–139.
  14. Torrence, C., & Webster, P.J. (1999). Interdecadal changes in the ENSO-monsoon system. J. Climat., 12, 2679–2690.
  15. Fligge, M., Solanki, S., & Beer, J. (1999). Determination of solar cycle length variations using continuous wavelet transform. Astronomy and Astrophysics, 346, 313–321.
  16. Nason, G., von Sachs, R., & Kroisand, G. (2000). Wavelet processes and adaptive estimation of the evolutionary wavelet spectrum. J. Royal Stat. Soc., B-62, 271–292.
  17. Hurrell, J.W. (1995). Decadal trends in the North Atlantic Oscillation: Regional temperatures and precipitation. Science, 269, 676–679.
  18. da Costa, E.D., de Verdiere, A.C. (2002). The 7.7-year North Atlantic Oscillation. Q. J. R. Meteorol. Soc., 128, 797–817.