Abstract
Drought is a natural and worldwide phenomenon that occurs when water availability is significantly below normal levels during a significant period of time and cannot meet demand. This work focused on the hydrologic drought defined by the streamflow drought index (SDI) for overlapping periods of 3, 6, 9 and 12 months at 14 hydrometric stations in the northwest of Iran over the period 1975–2009. It was found that some of the streamflow volume series did not follow the normal distribution. The ability of the log-normal, exponential and uniform probability distributions was examined in order to choose the most suitable distribution, and the log-normal distribution was used to fit the long-term streamflow data. The results of the hydrological drought analysis based on the SDI showed that almost all the stations suffered from extreme droughts during the study period. Additionally, extreme droughts occurred most frequently in the last 12 years from 1997–1998 to 2008–2009.
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References
Agrawala S, Barlow M, Cullen H, Lyon B (2001) The drought and humanitarian crisis in Central and Southwestern Asia: a climate perspective. IRI special report No 01–11, International Research Institute for Climate and Society, Palisades
Araghinejad S (2011) An approach for probabilistic hydrological drought forecasting. Water Resour Manage 25:191–200
Badripour H (2007) Role of drought monitoring and management in NAP implementation. In: Mannava et al. (eds) Climate and land degradation. Springer, The Netherlands
Chen YD, Huang G, Shao QX, Xu C-Y (2006) Regional analysis of low flow using L-moments for Dongjiang Basin, South China. Hydrol Sci J 51(6):1051–1064
Dracup JA, Lee KS, Paulson EG Jr (1980) On the definition of droughts. Water Resour Res 16(2):297–302
Eimanifar A, Mohebbi F, (2007) Urmia Lake (Northwest Iran): a brief review. Saline Systems 3(5): doi:10.1186/1746-1448-3-5
Fleig AK, Tallaksen LM, Hisdal H, Stahl K, Hannah DM (2010) Intercomparison of weather and circulation type classifications for hydrological drought development. Phys Chem Earth 35(9–12):507–515
Fleig AK, Tallaksen LM, Hisdal H, Hannah DM (2011) Regional hydrological drought in north-western Europe: linking a new Regional Drought Area Index with weather types. Hydrol Process 25(7):1163–1179
Heidari N, Roudgar M, Ebrahimpour N (2010) Thermodynamic quantities and Urmia Sea water evaporation. Saline Systems, 6(3): doi:10.1186/1746-1448-6-3
Heim RR Jr (2002) A review of twentieth-century drought indices used in the United States. Bull Am Meteorol Soc 83(8):1149–1165
Keyantash JA, Dracup JA (2004) An aggregate drought index: assessing drought severity based on fluctuations in the hydrologic cycle and surface water storage. Water Resour Res 40:W09304. doi:10.1029/2003WR002610
Kroll CN, Vogel RM (2002) Probability distribution of low streamflow series in the United States. J Hydrol Eng 7(2):137–146
Liu L, Hong Y, Bednarczyk CN, Yong B, Shafer MA, Riley R, Hocker JE (2012) Hydro-climatological drought analyses and projections using meteorological and hydrological drought indices: a case study in Blue River Basin, Oklahoma. Water Resour Manage 26:2761–2779
McKee TB, Doesen NJ, Kleist J (1993) The relationship of drought frequency and duration to time scales. Preprints, 8th Conference on Applied Climatology, 17–22 January, Anaheim, California, USA, 179–184
McMahon TA, Pegram GGS, Vogel RM, Peel MC (2007) Revisiting reservoir storage-yield relationships using a global streamflow database. Adv Water Resour 30(8):1858–1872
Mishra AK, Singh VP (2010) A review of drought concepts. J Hydrol 391(1–2):202–216
Nalbantis I (2008) Evaluation of a hydrological drought index. European Water 23(24):67–77
Nalbantis I, Tsakiris G (2009) Assessment of hydrological drought revisited. Water Resour Manage 23:881–897
Nikbakht J, Tabari H, Hosseinzadeh Talaee P (2012) Streamflow drought severity analysis by Percent of Normal Index (PNI) in Northwest Iran. Theor Appl Climatol. doi:10.1007/s00704-012-0750-7
Pandey RP, Mishra SK, Singh R, Ramasastri KS (2008) Streamflow drought severity analysis of Betwa River System (India). Water Resour Manage 22:1127–1141
Raziei T, Saghafian B, Paulo AA, Pereira LS, Bordi I (2009) Spatial patterns and temporal variability of drought in western Iran. Water Resour Manage 23(3):439–455
Shafer BA, Dezman LE (1982) Development of a Surface Water Supply Index (SWSI) to assess the severity of drought conditions in snowpack runoff areas. In Proceedings of the (50th) 1982 Annual Western Snow Conference , pp 164–75 Fort Collins, CO: Colorado State University
Sharma TC, Panu US (2010) Analytical procedures for weekly hydrological droughts: a case of Canadian rivers. Hydrol Sci J 55(1):79–92
Sharma TC, Panu US (2012) Prediction of hydrological drought durations based on Marchkov chains: case of the Canadian prairies. Hydrol Sci J 57(4):705–722
Shukla S, Wood AW (2008) Use of a standardized runoff index for characterizing hydrologic drought. Geophys Res Lett 35:L02405. doi:10.1029/2007GL032487
Smakhtin VU (2001) Low flow hydrology: a review. J Hydrol 240(3–4):147–186
Stahl K (2001) Hydrological drought—a study across Europe. Doctoral dissertation, Geowissenschaftlichen Fakultät, Albert-Ludwigs Universität Freiburg, Freiburg, Germany
Tallaksen LM, van Lanen HAJ (eds) (2004) Hydrological drought - processes and estimation methods for streamflow and groundwater. Developments in Water Sciences 48. Elsevier B.V., The Netherlands
Tate EL, Gustard A (2000) Drought definition: a hydrological perspective. In: Voght JV, Somma F (eds) Drought and drought mitigation in Europe. Kluwer Academic Publishers, Dordrecht, pp 23–48
Vasiliades L, Loukas A, Liberis N (2011) A water balance derived drought index for Pinios River Basin, Greece. Water Resour Manage 25:1087–1101
Vicente-Serrano SM, López-Moreno JI, Beguería S, Lorenzo-Lacruz J, Azorin-Molina C, Morán-Tejeda E (2012) Accurate Computation of a Streamflow Drought Index. J Hydrol Engin 17(2):318–332
Wilhite DA, Glantz MH (1985) Understanding the drought phenomenon: the role of definitions. Water Int 10(3):111–120
Yang W (2010) Drought analysis under climate change by application of drought indices and copulas. MSc Thesis, Civil and Environmental Engineering, Portland State University
Yazdani S, Haghsheno M (2008) Drought management and recommended solutions on how to deal with droughts. Am-Eurasian J Agric Environ Sci 2:64–68
Yevjevich V (1967) An objective approach to definitions and investigations of continental hydrologic droughts. Hydrology paper 23. Colorado State University, Fort Collins, Colorado
Yue S, Wang CY (2004) Possible regional probability distribution type of Canadian annual streamflow by L-moments. Water Resour Manage 18(5):425–438
Zaidman MD, Rees HG, Young AR (2002) Spatio-temporal development of streamflow droughts in north-west Europe. Hydrol Earth Syst Sci 5(4):733–751
Acknowledgments
This research was financially supported by the Iran National Science Foundation (Project No.: 89004409). The authors express their thanks to the West Azerbaijan Regional Water Co. for providing the data. Two anonymous reviewers are thanked for their comments that have enhanced this paper.
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Tabari, H., Nikbakht, J. & Hosseinzadeh Talaee, P. Hydrological Drought Assessment in Northwestern Iran Based on Streamflow Drought Index (SDI). Water Resour Manage 27, 137–151 (2013). https://doi.org/10.1007/s11269-012-0173-3
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DOI: https://doi.org/10.1007/s11269-012-0173-3