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Variability and trends of precipitation on lowand high-altitude stations in Serbia
(naslov ne postoji na srpskom)
aUniverzitet u Novom Sadu, Prirodno-matematički fakultet
bUniverzitet u Novom Sadu, Prirodno-matematički fakultet, Departman za geografiju, turizam i hotelijerstvo

e-adresaigorlescesen@yahoo.com
Ključne reči: precipitation; trend; Serbia; Vlasina; Palić
Sažetak
(ne postoji na srpskom)
For the trend analysis of the annual, seasonal and monthly precipitation linear regression and Mann-Kendall (MK) tests at the 5% significance level were applied. In this study, precipitation data from two stations in Serbia for the 1949-2019 period were used. Results indicate that increasing trends of precipitation for the selected station can be observed but these trends were not statistically significant according to MK test. Then again, MK test has shown that only on Palić station during autumn precipitations have statistically significant increase during the observed period with a p value of 0.0441 at the significant level p=0.005.
Reference
Alexandrov, V., Schneider, M., Koleva, E., Moisselin, J-M. (2004) Climate variability and change in Bulgaria during the 20th century. Theoretical and Applied Climatology, 79(3-4): 133-149
Allan, R.P., Soden, B.J. (2008) Atmospheric warming and the amplification of precipitation extremes. Science, 321(5895): 1481-1484
Becker, A., Finger, P., Meyer-Christoffer, A., Rudolf, B., Schamm, K., Schneider, U., Ziese, M. (2013) A description of the global land-surface precipitation data products of the Global Precipitation Climatology Centre with sample applications including centennial (trend) analysis from 1901-present. Earth System Science Data, 5(1): 71-99
Berg, P., Moseley, C.H., Haerter, J.O. (2013) Strong increase in convective precipitation in response to higher temperatures. Nature Geoscience, 6(3): 181-185
Brunetti, M., Buffoni, L., Maugeri, M., Nanni, T. (2000) Precipitation intensity trends in northern Italy. Int. J. Climatol, 20: 1017-1031
Brunetti, M., Maugeri, M., Nanni, T. (2001) Changes in total precipitation, rainy days and extreme events in northeastern Italy. International Journal of Climatology, 21(7): 861-871
Burić, D., Dragojlović, J., Milenković, M., Popović, L., Doderović, M. (2018) Influence of variability of the East Atlantic Oscillation on the air temperature in Montenegro. Thermal Science, 22(1B): 759-766
Burić, D., Doderović, M. (2019) Precipitation, humidity and cloudiness in Podgorica (Montenegro) during the period 1951-2018. Geographica Pannonica, vol. 23, br. 4, str. 233-244
Burić, D., Ducić, V., Mihajlović, J. (2018) Relationship between mean annual temperatures and precipitation sums in montenegro between 1951-1980 and 1981-2010 periods. Glasnik Srpskog geografskog društva, vol. 98, br. 1, str. 31-48
Cioffi, F., Lall, U., Rus, E., Krishnamurthy, C.K.B. (2015) Space-time structure of extreme precipitation in Europe over the last century. International Journal of Climatology, 35(8): 1749-1760
Dai, A., Fung, I.Y., Del, G.A.D. (1997) Surface observed global land precipitation variations during 1900-88. J. Clim, 10: 2943-2962
Đorđević, S.V. (2008) Temperature and precipitation trends in Belgrade and indicators of changing extremes for Serbia. Geographica Pannonica, vol. 12, br. 2, str. 62-68
European Environment Agency (EEA) (2017) Climate change, impacts and vulnerability in Europe 2016: An indicator-based report. u: EEA Report, Copenhagen: European Environment Agency, No. 1/2017
Frich, P., Alexander, L.V., Della-Marta, P., Gleason, B., Haylock, M., Klein, T.A.M.G., Peterson, T. (2002) Observed coherent changes in climatic extremes during the second half of the twentieth century. Climate Research, 19: 193-202
Gajić-Čapka, M., Cindrić, K., Pasarić, Z. (2015) Trends in precipitation indices in Croatia, 1961-2010. Theoretical and Applied Climatology, 121(1-2): 167-177
Ghaedi, S., Shojaian, A. (2020) Spatial and temporal variability of precipitation concentration in Iran. Geographica Pannonica, vol. 24, br. 4, str. 244-251
Gocić, M., Trajković, S. (2013) Spatio-temporal patterns of precipitation in Serbia. Theoretical and Applied Climatology, 117(3-4): 419-431
Gocić, M., Trajković, S. (2013) Analysis of precipitation and drought data in Serbia over the period 1980-2010. Journal of Hydrology, 494: 32-42
Hänsel, S. (2009) Changes in Saxon precipitation characteristics: Trends of extreme precipitation and droughts. Göttingen: TU Bergakademie Freiberg, (Doctoral dissertation)
Hynčica, M., Huth, R. (2019) Long-term changes in precipitation phase in Europe in cold half year. Atmospheric Research, 227: 79-88
Kendall, M.G. (1975) Rank correlation methods. London: Charles Griffin
King'uza, P.H., Tilwebwa, S.L.P. (2019) Inter-annual variability of March to May rainfall over Tanzania and its association with atmospheric circulation anomalies. Geographica Pannonica, vol. 23, br. 3, str. 147-161
Leščešen, I., Dolinaj, D., Pantelić, M., Telbisz, T., Varga, G. (2020) Hydrological drought assessment of the Tisza river. J. Geogr. Inst. Cvijić, 70(2): 89-100
Libanda, B., Zheng, M., Banda, N. (2017) Variability of extreme wet events over Malawi. Geographica Pannonica, vol. 21, br. 4, str. 212-223
Luković, J., Bajat, B., Blagojević, D., Kilibarda, M. (2013) Spatial pattern of recent rainfall trends in Serbia (1961-2009). Regional Environmental Change, 14(5): 1-11
Łupikasza, B.E. (2017) Seasonal patterns and consistency of extreme precipitation trends in Europe, December 1950 to February 2008. Climate Research, 72(3): 217-237
Mann, H.B. (1945) Nonparametric tests against trend. Econometrica, 13(3): 245-259
Maraun, D., Osborn, T.J., Gillett, N.P. (2008) United Kingdom daily precipitation intensity: Improved early data, error estimates and an update from 2000 to 2006. International Journal of Climatology, 28(6): 833-842
Markonis, Y., Batelis, S.C., Dimakos, Y., Moschou, E., Koutsoyiannis, D. (2017) Temporal and spatial variability of rainfall over Greece. Theoretical and Applied Climatology, 130(1-2): 217-232
Milentijević, N., Bačević, N., Ristić, D., Valjarević, A., Pantelić, M., Kićović, D. (2020) Application of Mann-Kendal (MK) test in trend analysis of air temperature and precipitation: Case of Mačva district (Serbia). University Thought - Publication in Natural Sciences, vol. 10, br. 1, str. 37-43
Milivoj, B., Gavrilov, B.M., Tošić, I., Marković, B.S., Unkašević, M., Petrović, P. (2016) Analysis of annual and seasonal temperature trends using the Mann-Kendall test in Vojvodina, Serbia. Időjárás, 120(2): 183-198
Miloševic, D., Savić, S. (2013) Analysis of precipitation quantities and trends from Pannonian and Peripannonian parts of Serbia. Dela, 39: 125-139
Milošević, D., Savić, S.M., Stojanović, V., Popov-Raljić, J. (2015) Effects of precipitation and temperatures on crop yield variability in Vojvodina (Serbia). Italian Journal of agrometeorology, 20: 35-46
Milošević, D.D., Savić, S.M., Pantelić, M., Stankov, U., Žiberna, I., Dolinaj, D., Leščešen, I. (2016) Variability of seasonal and annual precipitation in Slovenia and its correlation with large-scale atmospheric circulation. Open Geosciences, 8(1): 593-605
Milovanović, B. (2005) Statistical procedures application and results of research of precipitation on mountain Stara planina. Zbornik radova Geografskog instituta 'Jovan Cvijić', SANU, br. 54, str. 33-44
New, M., Todd, M., Hulme, M., Jones, P. (2001) Precipitation measurements and trends in the twentieth century. International Journal of Climatology, 21(15): 1889-1922
Nguyen, P. A., Thorstensen, S., Sorooshian, K., Hsu, A., Aghakouchak, H., Ashouri, H. T., Braithwaite, D. (2018) Global precipitation trends across spatial scales using satellite observations. Bulletin of the American Meteorological Society, 99: 689-697
Niedźwiedź, T., Twardosz, R., Walanus, A. (2009) Long-term variability of precipitation series in East Central Europe in relation to circulation patterns. Theoretical and Applied Climatology, 98(3-4): 337-350
Nikolova, N. (2004) Rainfall variability in Bulgaria and its relation with North Atlantic Oscillation. u: BALWIOS-2004, Ohrid, FY Republic of Macedonia, 25-29 May, http://balwois.mpl.ird.fr/balwois/administration/full_paper/ffp-lo-047.pdf
O'Gorman, P.A. (2015) Precipitation extremes under climate change. Curr. Clim. Chang. Rep, 1: 49-59
Oguntunde, P.G., Abiodun, B.J., Lischeid, G. (2011) Rainfall trends in Nigeria, 1901-2000. Journal of Hydrology, 411(3-4): 207-218
Philandras, C.M., Nastos, P.T., Kapsomenakis, J., Douvis, K.C., Tselioudis, G., Zerefos, C.S. (2011) Long term precipitation trends and variability within the Mediterranean region. Natural Hazards and Earth System Sciences, 11(12): 3235-3250
Popov, T., Gnjato, S., Trbić, G. (2018) Analysis of extreme precipitation over the Peripannonian region of Bosnia Hercegovina. Időjárás, 122(4): 433-452
Popov, T., Gnjato, S., Trbić, G. (2019) Changes in precipitation over the East Herzegovina region. Glasnik Srpskog geografskog društva, vol. 99, br. 1, str. 29-44
Radeva, K., Nikolova, N. (2020) Hydrometeorological Drought hazard and vulnerability assessment for Northern Bulgaria. Geographica Pannonica, vol. 24, br. 2, str. 112-123
Savić, S., Petrović, P., Milovanović, B. (2010) Homogenisation of mean air temperature data series from Serbia. u: European Geosciences Union - General Assembly 2010, 02-07 May 2010, Geophysical Research Vienna, Austria, Vol. 12; Abstract, EGU2010-5521-1
Savić, S., Kalfayan, M., Dolinaj, D. (2020) Precipitation spatial patterns in cities with different urbanisation types: Case study of Novi Sad (Serbia) as a medium-sized city. Geographica Pannonica, vol. 24, br. 2, str. 88-99
Smith, T.M., Arkin, P.A., Ren, L., Shen, S.S. (2012) Improved reconstruction of global precipitation since 1900. Journal of Atmospheric and Oceanic Technology, 29(10): 1505-1517
Spinoni, J., Naumann, G., Vogt, J.V. (2017) Pan-European seasonal trends and recent changes of drought frequency and severity. Global and Planetary Change, 148: 113-130
Stanojević, G. (2012) Analiza godišnjih padavinskih suma na prostoru Srbije. Zbornik radova Geografskog instituta 'Jovan Cvijić', SANU, vol. 62, br. 2, str. 1-13
Stojsavljević, R., Savić, S., Milošević, D., Stojanov, S., Leščešen, I., Majstorović, V. (2013) Interpolation and Extrapolation of Precipitation Quantities in Serbia. European Researcher, 55(7-2): 1980-1986
Tabari, H., Hosseinzadeh, T.P. (2011) Temporal variability of precipitation over Iran: 1966-2005. Journal of Hydrology, 396(3-4): 313-320
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. (2004) Spatial and temporal variability of winter and summer precipitation over Serbia and Montenegro. Theoretical and Applied Climatology, 77(1-2): 47-56
Tošić, I., Unkašević, M. (2005) Analysis of precipitation series for Belgrade. Theoretical and Applied Climatology, 80(1): 67-77
Tošić, I., Zorn, M., Ortar, J., Unkašević, M., Gavrilov, M.B., Marković, S.B. (2016) Annual and seasonal variability of precipitation and temperatures in Slovenia from 1961 to 2011. Atmospheric Research, 168: 220-233
Unkašević, M., Tošić, I. (2011) A statistical analysis of the daily precipitation over Serbia: Trends and indices. Theoretical and Applied Climatology, 106(1-2): 69-78
van den Besselaar, E.J.M., Klein, T.A.M.G., Buishand, T.A. (2013) Trends in European precipitation extremes over 1951-2010. International Journal of Climatology, 33: 2682-2689
Villarini, G., Smith, J.A., Vecchi, G.A. (2013) Changing frequency of heavy rainfall over the Central United States. Journal of Climate, 26(1): 351-357
Ye, H., Fetzer, E.J., Behrangi, A., Wong, S., Lambrigtsen, B.H., Wang, C.Y., Cohen, J., Gamelin, B.L. (2016) Increasing daily precipitation intensity associated with warmer air temperatures over Northern Eurasia. Journal of Climate, 29(2): 623-636
 

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.5937/ZbDght2101014L
primljen: 02.02.2021.
prihvaćen: 28.06.2021.
objavljen u SCIndeksu: 03.09.2021.
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