Abstract
The extreme daily precipitation in Serbia was examined at 16 stations during the period 1961–2014. Two synoptic situations in May and September of 2014 were analysed, when extreme precipitation was recorded in western and eastern Serbia, respectively. The synoptic situation from 14 to 16 May 2014 remained nearly stationary over the western and central Serbia for the entire period. On 15 May 2014, the daily rainfall broke previous historical records in Belgrade (109.8 mm), Valjevo (108.2 mm) and Loznica (110 mm). Precipitation exceeded 200 mm in 72 h, producing the most catastrophic floods in the recent history of Serbia. In Negotin (eastern Serbia), daily precipitation of 161.3 mm was registered on 16 September 2014, which was the maximum value recorded during the period 1961–2014. The daily maximum in 2014 was registered at 6 out of 16 stations. The total annual precipitation for 2014 was the highest for the period 1961–2014 at almost all stations in Serbia. A non-significant positive trend was found for all precipitation indices: annual daily maximum precipitation, the total precipitation in consecutive 3 and 5 days, the total annual precipitation, and number of days with at least 10 and 20 mm of precipitation. The generalised extreme value distribution was fitted to the annual daily maximum precipitation. The estimated 100-year return levels were 123.4 and 147.4 mm for the annual daily maximum precipitation in Belgrade and Negotin, respectively.
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References
Alexandersson H (1986) A homogeneity test applied to precipitation data. J Climatol 6:661–675
Anquetin S, Yates E, Ducrocq V, Samouillan S, Chancibault K, Davolio S, Accadia C, Casaioli M, Mariani S, Ficca G, Gozzini B, Pasi F, Pasqui M, Garcia A, Martorell M, Romero R, Chessa P (2005) The 8 and 9 September 2002 flash flood event in France: a model intercomparison. Nat Hazards Earth Syst Sci 5:741–754
Bajat B, Pejović M, Luković J, Manojlović P, Ducić V, Mustafić S (2013) Mapping average annual precipitation in Serbia (1961–1990) by using regression kriging. Theor Appl Climatol 112:1–13
Bartholy J, Pongrácz R (2007) Regional analysis of extreme temperature and precipitation indices for the Carpathian Basin from 1946 to 2001. Glob Planet Chang 57:83–95
Coles SG (2001) An introduction to statistical modeling of extreme values. Springer, London
Frich PL, Alexander V, Della-Marta P, Gleason B, Haylock M, Klein Tank A, Peterson T (2002) Global changes in climatic extremes during the 2nd half of the 20th century. Clim Res 19:193–212
Gocić M, Trajković S (2014) Spatio-temporal patterns of precipitation in Serbia. Theor Appl Climatol 117:419–431
Groissman PY, Karl TR, Easterling DR (1999) Changes in the probability of heavy precipitation: important indicators of climatic change. Clim Chang 42:243–283
Hrnjak I, Lukić T, Gavrilov MB, Marković SB, Unkašević M, Tošić I (2014) Aridity in Vojvodina, Serbia. Theor Appl Climatol 115:323–332
Hundecha Y, Bárdossy A (2005) Trends in daily precipitation and temperature extremes across western Germany in the second half of the 20th century. Int J Climatol 25:1189–1202
Kundzewicz ZW, Radziejewski M, Pińskwar I (2006) Precipitation extremes in the changing climate of Europe. Clim Res 31:51–58
Kutiel H, Luković J, Burić D (2015) Spatial and temporal variability of rain-spells characteristics in Serbia and Montenegro. Int J Climatol 35:1611–1624
Kyselý J, Gaál L, Picek J, Schindler M (2010) Return periods of the August 2010 heavy precipitation in northern Bohemia (Czech Republic) in the present climate and under climate change. J Water Clim Chang 4:265–286
Luković J, Bajat B, Blagojević D, Kilibarda M (2014) Spatial pattern of recent rainfall trends in Serbia (1961–2009). Regul Environ Chang 14:1789–1799
Rimbu N, Stefan S, Busuioc A, Georgescu F (2015) Links between blocking circulation and precipitation extremes over Romania in summer. Int J Climatol. doi:10.1002/joc.4353
Romero R, Doswell III, Ramis C (2000) Mesoscale numerical study of two cases of long-lived quasi-stationary convective systems over Eastern Spain. Mon Weather Rev 128:3731–3751
Sen Roy S, Balling RC (2004) Trends in extreme daily precipitation on indices in India. Int J Climatol 24:457–466
Tošić I (2004) Spatial and temporal variability of winter and summer precipitation over Serbia and Montenegro. Theor Appl Climatol 77:47–56
Tošić I, Unkašević M (2005) Analysis of precipitation series for Belgrade. Theor Appl Climatol 80:67–77
Tošić I, Unkašević M (2013) Extreme daily precipitation in Belgrade and their links with the prevailing directions of the air trajectories. Theor Appl Climatol 111:97–107
Tošić I, Unkašević M (2014) Analysis of wet and dry periods in Serbia. Int J Climatol 34:1357–1368
Tošić I, Hrnjak I, Gavrilov MB, Unkašević M, Marković SB, Lukić T (2014) Annual and seasonal variability of precipitation in Vojvodina. Theor Appl Climatol 117:331–341
Twardosz R, Niedźwiedź T (2001) Influence of synoptic situations on the precipitation in Kraków (Poland). Int J Climatol 21:467–481
Unkašević M, Radinović D (2000) Statistical analysis of daily maximum and monthly precipitation at Belgrade. Theor Appl Climatol 66:241–249
Unkašević M, Tošić I (2011) A statistical analysis of the daily precipitation over Serbia: trends and indices. Theor Appl Climatol 106:69–78
Unkašević M, Tošić I, Vujović D (2004) Variability and probability of annual and extreme precipitation over Serbia and Montenegro. Theor Appl Climatol 79:103–109
van der Schrier G, van den Besselaar E, Leander R, Verver G, Klein Tank A, Beersma J, van Oldenborgh GJ, Plieger M, Renshaw R, Bissoli P (2013) Central European flooding 2013. EURO4M Climate Indicator Bulletin. Available online at http://cib.knmi.nl/mediawiki/index.php-/Central_European_flooding_2013
Westra S, Alexander LV, Zwiers FW (2013) Global increasing trends in annual maximum daily precipitation. J Clim 26:3904–3918
WMO (1966) Climatic change. Tech Note No 79 WMO Geneva, 79 pp
Zarić M (2014) Meteorological analysis of weather situation that caused heavy rainfall in May of 2014 (In Serbian). http://ak-vaja.org.rs/upload/Srbija-MAJ-2014.pdf
Acknowledgments
The authors would like to thank the Hydrometeorological Service of Serbia which provided the data necessary for this study. This study was supported by the Ministry of Education and Science of the Republic of Serbia, under Grant No. 176013.
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Tošić, I., Unkašević, M. & Putniković, S. Extreme daily precipitation: the case of Serbia in 2014. Theor Appl Climatol 128, 785–794 (2017). https://doi.org/10.1007/s00704-016-1749-2
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DOI: https://doi.org/10.1007/s00704-016-1749-2