Abstract
Dry spells are an essential concept of drought climatology that clearly defines the semiarid Mediterranean environment and whose consequences are a defining feature for an ecosystem, so vulnerable with regard to water. The present study was conducted to characterize rainfall drought in the Segura River basin located in eastern Spain, marked by the self seasonal nature of these latitudes. A daily precipitation set has been utilized for 29 weather stations during a period of 20 years (1993–2013). Furthermore, four sets of dry spell length (complete series, monthly maximum, seasonal maximum, and annual maximum) are used and simulated for all the weather stations with the following probability distribution functions: Burr, Dagum, error, generalized extreme value, generalized logistic, generalized Pareto, Gumbel Max, inverse Gaussian, Johnson SB, Log-Logistic, Log-Pearson 3, Triangular, Weibull, and Wakeby. Only the series of annual maximum spell offer a good adjustment for all the weather stations, thereby gaining the role of Wakeby as the best result, with a p value means of 0.9424 for the Kolmogorov-Smirnov test (0.2 significance level). Probability of dry spell duration for return periods of 2, 5, 10, and 25 years maps reveal the northeast-southeast gradient, increasing periods with annual rainfall of less than 0.1 mm in the eastern third of the basin, in the proximity of the Mediterranean slope.
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References
Anagnostopoulou CHR, Maheras P, Karacostas T, Vafiadis M (2003) Spatial and temporal analysis of dry spells in Greece. Theor Appl Climatol 74:77–91
Bedient PB, Huber WC (2008) Hydrology and floodplain analysis. Prentice-Hall Publishing Co., Upper Saddle River
Beran MA, Rodier JA (1985) Hydrological aspects of drought: a contribution to the international hydrological programme. Studies and reports on Hidrology 39:149
Berger A, Goossens C (1983) Persistence of wet and dry spells at Uccle (Belgium). J Clim 3:21–24
Burton I, Kates RW, White GF (1978) The environment as hazard. Oxford University Press, New York
Caloeiro T, Coscarelli R, Ferrari E, Sirangelo B (2015) Analysis of dry spells in Southern Italy (Calabria). Water 7(6):3009–3023. doi:10.3390/w7063009
Chakravarti L, Laha RG, Roy J (1967) Handbook of methods of applied statistics. John Wiley and Sons, New York
Chowdhury RK, Beecham S (2013) Characterization of rainfall spells for urban water management. Int J Climatol 33(4):959–967
Cindrić K, Pasarić Z, Gajić-Čapka M (2010) Spatial and temporal analysis of dry spells in Croatia. Theor Appl Climatol 102:171–184
Conesa C, Martín-Vide J (1993) Analyse par la chaîne de Markov de la sécheresse dans le sud-est de l’Espagne. Sécheresse 4(2):123–129
Dobi-Wantuck I, Mika J, Szeidl L (2000) Modelling wet and dry spells with mixture distributions. Met Atmos Phys 73:245–256
Douguédroit A (1980) La sécheresse estivale dans la région Provence—Alpes—Côtes d’Azur. Méditerranée 2–3:13–22
Douguédroit A A (1987) The variations of dry spells in Marseilles from 1865 to 1984. J Int J Climatol 7:541–551
Douguédroit A (1991) Drought in the French Mediterranean area (1864–1990). In: fifth conference on climate variations (14–18 October 1991, Colorado, USA), 181–184
Galán E (1991) Tipos de tiempo anticiclónicos invernales en la España peninsular y Baleares: ensayo metodológico. Madrid Edictiones, Universidad Autónoma de Madrid
Galloy E, Martin S, Le Breton A (1982) Analyse de séquences de jours secs consécutifs. Application à 31 postes du réseau météorologique français. La Météorologie 28:5–24
García R (2008) Riesgo de sequía y vulnerabilidad socioeconómica en la Cuenca del Guadalentín. Dissertation, University of Murcia
Gibbs WJ, Maher JV (1967) Rainfall deciles as drought indicators. Bureau of Meteorology Bulletin 48, Commonwealth of Australia, Melbourne
Gómez L (1997) Regionalización climática de la España Peninsular mediante el análisis Markoviano de las sequías. Dissertation, University of Barcelona
Gómez Navarro M (1996) Calcul par les chaînes de Markov des probabilités de durée des séquences sèches et pluvieuses à l’Espagne. Association Internationale de Climatologie (AIC) 9: 203–209
Kutiel H, Trigo RM (2014) The rainfall regime in Lisbon in the last 150 years. Theor Appl Climatol 118:387–403
Kutiel H, Hirsch-Eshkol TR, Türkes M (2001) Sea level pressure patterns associated with dry or wet monthly rainfall conditions in Turkey. Theor Appl Climatol 69:39–67
Lana X, Burgueño A (1998) Daily dry-wet behaviour in Catalonia (NE Spain) from the viewpoint of first and second order Markov chains. Int J Climatol 18(7):793–815
Lana X, Martinez MD, Burgueño A, Serra C, Martín-Vide J, Gómez L (2006) Distributions of long dry spells in the Iberian peninsula years 1951-1990. Barcelona. Int J Climatol 26:1999–2021
Lana X, Martinez MD, Burgueño A, Serra C (2008a) Return period maps of dry spells for Catalonia based on Weibull distribution. Hydrol Sci J 53:48–64
Lana X, Martínez MD, Burgueño A, Serra C, Martín-Vide J, Gómez L (2008b) Spatial and temporal patterns of dry spell lengths in the Iberian peninsula for the second half of the twentieth century. Theor Appl Climatol 91:99–116
Lana X, Burgueño A, Martinez MD, Serra C (2012) Some characteristics of a daily rainfall deficit regime based on the dry day since last rain index (DDSLR). Theor Appl Climatol 109:153–174
Le Goff Y (1985) Variabilité interannuelle des précipitations au Maroc (1913–1985), Etude de la DMN in Sedrati M et Ettalibi M (éd), Sécheresse, gestion des eaux et production alimentaire, Actes de la conférence d’Agadir du 21–24 novembre 1985, pp 37–51
López F (1973) La Vega Alta del Segura. Clima, Hidrología y Geomorfología. Dep. Geografia. Univ. Murcia. 288 pp
Luengo MA, Ceballos A, Martínez J, Yuste C (2002) Las rachas secas en el sector central de la Cuenca del Duero. Investigaciones Geográficas 27:65–82
Martín-Vide J, Gómez L (1999) Regionalization of peninsular Spain based on the length of dry spells. Int J Climatol 19:537–555
Martín-Vide J, Conesa C, Moreno MC (1992) Acerca de la bondad de las cadenas de Markov de primero, segundo y tercer órdenes en el análisis de las sequías del sureste de España. Actas del V Coloquio de Geografía cuantitativa, Zaragoza, pp 485–500
MathWave (2015) EasyFit Software. http://www.mathwave.com/en/home.html. Accessed 4 Nov 2015
Meddi H, Meddi M, Assani AA (2014) Study of drought in seven Algerian Plains. Arab J Sci Eng 39:339–359
Meko DM (1988) Temporal and spatial variation of drought in Morocco, in Proceedings, drought, water management and Food Production, Agadir, Morocco, 21–24 November 1985. Imprimerie de Fedala, Mohammedia, 55–82
Melesse A, Abtew W, Dessalegne T, Wang XX (2010) Low and high flow analysis and wavelet application for characterization of the Blue Nile River system. Hydrol Process 24:241–252
Mishra AK, Singh VP (2011) Drought modeling—a review. J Hydrol 403 (1-2):157–175
Mitchell B (1971) A comparison of chi-square and Kolmogorov-Smirnov tests. Area 3:237–241
Niu J, Chen J, Sun L (2015) Exploration of drought evolution using numerical simulations over the Xijiang (West River) basin in South China. J Hydrol 526:68–77
Nobilis F (1986) Dry spells in the alpine country Austria. J Hydrol 88:235–251
Ochola WO, Kerkides P (2003) A Markov chain simulation model for predicting critical wet and dry spells in Kenya: analysing rainfall events in the Kano Plains. Irrig Drain 52:327–342
Pérez-Manrique C, Garmendia MI, Seco J, Garmendia J (1984) Estudio de rachas secas y lluviosas en Gijón y San Sebastián. Revista de Geofísica 40:73–80
Pita MF (1989) La sequía como desastre natural: su incidencia en el ámbito español. Norba 6-7. Servicio de Publicaciones de la Universidad de Extremadura, Cáceres, pp 31–61
Reiser H, Kutiel H, (2009) Rainfall uncertainty in the Mediterranean: definitions of the daily rainfall threshold (DRT) and the rainy season length (RSL). Theoretical and Applied Climatology 97 (1-2):151-162
Serra C, Martínez MD, Lana X, Burgueño A (2013) European dry spell length distributions, years 1951–2000. Theor Appl Climatol 114:531–551. doi:10.1007/s00704-013-0857-5
She DX, Xia J, Song J, Du H, Chen J, Wan L (2013) Spatio-temporal variation and statistical characteristics of extreme dry spell in Yellow River Basin, China. Theor Appl Climatol 112:201–213
She DX, Xia J, Zhang D, Ye AZ, Sood A (2014) Regional extreme-dry-spell frequency analysis using the L-moments method in the middle reaches of the Yellow River Basin, China. Pekín. Hydrol Process 28(17):4694–4707
Snedecor GW, Cochran WG (1989) Statistical methods. Iowa State University Press, Iowa
Stephens MA (1974) EDF statistics for goodness of fit and some comparisons. J Amer Statist Assoc 69:730–737
Tennant WJ, Hewitson BC (2002) Intra-seasonal rainfall characteristics and their importance to the seasonal prediction problem. Int J Climatol 22:1033–1048
Vargas WM, Naumann G, Minetti JL (2010) Dry spells in the river Plata Basin: an approximation of the diagnosis of droughts using daily data. Theor Appl Climatol. doi:10.1007/s00704-010-0335-2 ISSN 0177-798X
Vicente-Serrano SM, Beguería-Portugués S (2003) Estimating extreme dry-spell risk in the midlle Ebro valley (northeastern Spain): a comparative analysis osf partial duration series with a general pareto distribution and annual maxima series with a Gumbel distribution. Int J Climatol 23:1103–1118
Von Neumann J (1941) Distribution of the ratio of the mean square successive difference to the variance. Ann Math Stat 13:367–395
Wijngaard JB, Klein-Tank AMG, Können GP (2003) Homogeneity of 20th century European daily temperature and precipitation series. Int J Climatol 23:679–692. doi:10.1002/joc.906
Wilhite DA (2000) Drought: a global assessment. Volume I. Routledge, New York, pp 3–18
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Pérez-Sánchez, J., Senent-Aparicio, J. Analysis of meteorological droughts and dry spells in semiarid regions: a comparative analysis of probability distribution functions in the Segura Basin (SE Spain). Theor Appl Climatol 133, 1061–1074 (2018). https://doi.org/10.1007/s00704-017-2239-x
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DOI: https://doi.org/10.1007/s00704-017-2239-x