Abstract
Trends in atmospheric pressure, circulation and some relationships between North Atlantic Oscillation (NAO) indices, sea surface temperatures, and atmospheric circulation over Bulgaria are discussed in this article. Data for measured atmospheric pressure at stations Burgas, Pleven, and Sandanski are used. Information about atmospheric circulation over Bulgaria was obtained using sea level pressure and 700 hPa Omega (vertical velocity) reanalysis daily data for grid cells covering the territory of Bulgaria for the period 1948–2010. Zonal and meridional indices for Bulgaria were also calculated based on the data for sea level pressure. NAO index calculated by NOAA and NCAR is correlated with atmospheric pressure and circulation. A total of 12 areas in three major water basins influencing Bulgarian climate—North Atlantic, Mediterranean, and Black Seas—were studied. Main methods employed in the article are statistical—trend analysis, multiple linear regression, correlation, nonparametric tests, etc. There is no change in the mean values of atmospheric pressure over Bulgaria. Circulation over Bulgaria during the research period increases its anticyclonal patterns mainly due to the decrease of the number of cyclones. Dynamics in zonal and meridional indices for Bulgaria result in an increase of the northwest transport in the winter and an increase of the northeast transport in the summer. Cyclones over Bulgaria determine the values of atmospheric pressure. Influence of the NAO on atmospheric pressure and circulation is stronger in winter. Atmospheric processes, expressed by the number of cyclones and anticyclones, are most active in spring. Current trends are towards increasing of sea surface temperatures (SSTs) at all investigated places. Temporally, the effect of SSTs on the number of cyclones, anticyclones, zonal and meridional indices for Bulgaria during the different seasons comes with a delay of 1 to 3 months. Constructed multiple linear regression (MLR) models with predictors SSTs adequately describe the atmospheric circulation over Bulgaria. There is a clear pattern of SSTs distribution, which leads to a higher number of cyclones over Bulgaria in winter—lower than normal temperatures in the Aegean Sea and higher than normal in the Black Sea. A decrease in the difference of temperatures between the Gulf Stream and western colder parts leads to higher values of winter zonal transport over Bulgaria. Higher than normal temperatures in Black Sea lead to a higher number of cyclones in spring. Higher difference in temperatures of the North Atlantic leads to a stronger cyclogenesis and enhanced zonal transport, which affects autumn circulation over Bulgaria.
Similar content being viewed by others
References
Angelov D, Lingova S (1955) On the regime of the atmosphere pressure in Bulgaria. Works of HMO 4:5–20 (in Bulgarian)
Brunetti M, Mangeri M, Nanni T (2002) Atmospheric circulation and precipitation in Italy for the last 50 years. Int J Climatol 22(12):1455–1471
Czaja A, Frankignoul C (1999) Influence of the North Atlantic SST on the atmospheric circulation. Geophys Res Lett 26(19):2969–2972
Czaja A, Frankignoul C (2002) Observed impact of Atlantic SST anomalies on the North Atlantic Oscillation. J Clim 15(6):606–623
Hristov P, Tanev А (1970) The climate of Sofia. Sofia (in Bulgarian)
Kazmin AS, Zatsepin AG, Kontoyiannis H (2010) Comparative analysis of the long-term variability of winter surface temperature in the Black and Aegean Seas during 1982–2004 associated with the large-scale atmospheric forcing. Int J Climatol 30(9):1349–1359. doi:10.1002/joc.1985
Kirov K (1934) On the annual course of the meteorological elements in Bulgaria and its features. Sofia (in Bulgarian)
Latinov L (2001) Circulation and climatic factors, determining severe winter in Bulgaria. Bulg J Meteorol Hydrol 12(3–4):154–160
Lolis CJ, Bartzokas A, Katsoulis BD (2002) Spatial and temporal 850 hPa air temperature and sea-surface temperature covariances in the Mediterranean region and their connection to atmospheric circulation. Int J Climatol 22:663–676
Maheras P, Tolika K, Anagnostopoulou C, Vafiadis M, Patrikas I, Flocas H (2004) On the relationships between circulation types and changes in rainfall variability in Greece. Int J Climatol 24(13):1695–1712
Marinova T, Bocheva L, Sharov V (2005) On some climatic changes in the circulation over the Mediterranean area. IDŐJÁRÁS 109(1):55–67
Rachev G, Zhechev D (1992) Peculiarities in the regime of the atmosphere pressure in the non-mountainous part of Bulgaria. Ann of SU, Geol.-geogr. Fac., 84, 2 – Geography: 37-48 (in Bulgarian)
Reynolds RW, Rayner NA, Smith TM, Stokes DC, Wang W (2002) An improved in situ and satellite SST analysis for climate. J Clim 15:1609–1625
Stefanov S (1966a) Peculiarities of the baric relief over Bulgaria. Hydrol Meteorol 3:29–35 (in Bulgarian)
Stefanov S (1966b) Peculiarities in the annual course of the baric relief over Bulgaria and some impacts on the weather. Hydrol Meteorol 5:29–41 (in Bulgarian)
The NCEP/NCAR 40-year reanalysis project (1996) Bull Amer Meteor Soc 77:437-470
Tomingas O (2002) Relationship between atmospheric circulation indices and climate variability in Estonia. Boreal Environ Res 7:463–469
Trigo IF, Davies TD, Bigg GR (1999) Objective climatology of cyclones in the Mediterranean region. J Clim 12(6):1685–1696
Wilks DS (2006) Statistical methods in the atmospheric sciences, 2nd edn. (International Geophysics). Elsevier, Oxford 91
Xoplaki E, Luterbacher J, Burkard R, Patrikas I, Maheras P (2000) Connection between the large scale 500 hPa geopotential height fields and precipitation over Greece during wintertime. Clim Res 14(2):129–146
Xoplaki E, González-Rouco JF, Luterbacher J, Wanner H (2003) Mediterranean summer air temperature variability and its connection to the large-scale atmospheric circulation and SSTs. Clim Dyn 20(nos. 7-8):723–739. doi:10.1007/s00382-003-0304-x
Acknowledgments
The author gratefully acknowledges the NOAA/OAR/ESRL Physical Sciences Division, Boulder, CO, USA for NOAA_OI_SST_V2 data provided from their web site at http://www.esrl.noaa.gov/psd/.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Nojarov, P. Circulation over Bulgaria and its connection with NAO indices and Sea Surface Temperatures. Theor Appl Climatol 114, 329–348 (2013). https://doi.org/10.1007/s00704-013-0846-8
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00704-013-0846-8