Abstract
This study analyses regional drought characteristics (frequency, severity, and persistence) of meteorological droughts occurred in the northwestern parts falling under arid and semiarid regions of India with mean annual rainfall ranging between 100 and 900 mm. A drought is defined as a season or a year with rainfall less than 75% of corresponding mean at a place. Long-term monthly rainfall records (1901–2013) of 90 districts of north-west India located in the states of Punjab, Haryana, Rajasthan and Gujarat are used in the analysis. The percentage departure of seasonal rainfall from long-term average rainfall has been used for identification of onset, termination, and quantification of drought severity. The average frequency varied from once every 3–4 years. The westerly districts have an average drought return period of 3 years, while districts lying toward the east had droughts once every 4 years. Only four of the 90 districts in the study area experienced droughts once every 5 years. Persistent droughts of 2, 3, and 4 year duration occurred widely. Severe droughts occurred in the years 1904, 1905, 1911, 1918, 1931, 1939, 1985, 1986, 1987, 1993, and 2002, with an average frequency of severe drought events of one in 10 years. The analysis presented in this paper improves understanding of the regional drought characteristics and will inform drought mitigations and strategies in these arid and semiarid areas.
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Amrit K, Pandey RP, Mishra SK (2017) Assessment of meteorological drought characteristics over Central India. Sustain Water Resour Manag. https://doi.org/10.1007/s40899-017-0205-5
Beniston M (2003) Climatic change in mountain regions: a review of possible impacts. In Climate variability and change in high elevation regions: past, present & future. Springer, pp 5–31
Blenkinsop S, Fowler HJ (2007) Changes in European drought characteristics projected by the PRUDENCE regional climate models. Int J Climatol 27(12):1595–1610
Byun HR, Wilhite Donald A (1999) Objective quantification of drought severity and duration. J Clim 12:2747–2756
Chen L, Singh VP, Guo S, Mishra AK, Guo J (2013) Drought analysis using copulas. J Hydrol Eng 18(7):797–808
Chung CH, Salas JD (2000) Drought occurrence probabilities and risks of dependent hydrologic processes. J Hydrol Eng 5(3):259–268
Clausen B, Pearson CP (1995) Regional frequency analysis of annual maximum streamflow drought. J Hydrol 173(1–4):111–130
Das HP (2005) Agricultural drought mitigation and management of sustained agricultural development in India. In Natural disasters and extreme events in agriculture. Springer, Berlin, pp 277–303
Demuth S (2009) Learning to live with drought in Europe. World Sci 7(3):18–20
Drought Assessment and Management in Arid Rajasthan (2006) A report, Central Arid Zone Research Institute (ICAR) Jodhpur, and National Centre for Medium Range Weather Forecasting, Noida, pp 46–47
Dutra E, Magnusson L, Wetterhall F, Cloke HL, Balsamo G, Boussetta S, Pappenberger F (2013) The 2010–2011 drought in the horn of Africa in ECMWF reanalysis and seasonal forecast products. Int J Climatol 33(7):1720–1729
Dutta D, Kundu A, Patel NR, Saha SK, Siddiqui AR (2015) Assessment of agricultural drought in Rajasthan (India) using remote sensing derived Vegetation Condition Index (VCI) and Standardized Precipitation Index (SPI). Egypt J Remote Sens Space Sci 18(1):53–63
Edossa DC, Babel MS, Das Gupta A (2010) Drought analysis in the Awash river basin, Ethiopia. Water Resour Manag 24(7):1441–1460
Elagib NA (2009) Assessment of drought across central Sudan using UNEP dryness ratio. Hydrol Res 40(5):481–494
Fernández B, Salas JD (1999a) Return period and risk of hydrologic events. I: mathematical formulation. J Hydrol Eng 4(4):297–307
Fernández B, Salas JD (1999b) Return period and risk of hydrologic events. II: applications. J Hydrol Eng 4(4):308–316
Fye FK, Stahle DW, Cook ER (2003) Paleoclimatic analogs to twentieth-century moisture regimes across the United States. Bull Am Meteorol Soc 84(7):901–909
Gallant AJ, Reeder MJ, Risbey JS, Hennessy KJ (2013) The characteristics of seasonal-scale droughts in Australia, 1911–2009. Int J Climatol 33(7):1658–1672
Ganguli P, Reddy MJ (2012) Risk assessment of droughts in Gujarat using bivariate copulas. Water Resour Manag 26(11):3301–3327
Gibbs WJ, Maher JV (1967) Rainfall deciles as drought indicators. Bur Meteorol Bulletin no. 48, Melbourne, Australia
Haan CT (1977) Statistical methods in hydrology. The Iowa State University Press
Hayes M, Svoboda M, Wall N, Widhalm M (2010) The Lincoln declaration on drought indices: universal meteorological drought index recommended. Bull Am Meteorol Soc 92(4):485–488
Hisdal H, Tallaksen LM, Clausen B, Peters E, Gustard A (2004) Hydrological drought characteristics. Elsevier Science B.V., Amsterdam, the Netherlands, Developments in Water Science, vol 48, Chapter 5, pp 139–198
Huang HP, Seager R, Kushnir Y (2005) The 1976/77 transition in precipitation over the Americas and the influence of tropical sea surface temperature. Clim Dyn 24(7–8):721–740
Jain VK, Pandey RP, Jain MK, Byun HR (2015) Comparison of drought indices for appraisal of drought characteristics in the Ken River Basin. Weather Climate Extremes 8:1–11
Janga Reddy M, Ganguli P (2012) Application of copulas for derivation of drought severity–duration–frequency curves. Hydrol Proces 26(11):1672–1685
Jayasree V, Venkatesh B (2015) Analysis of rainfall in assessing the drought in semi-arid region of Karnataka State, India. Water Resour Manag 29(15):5613–5630
Karl TR (1983) Some spatial characteristics of drought duration in the United States. J Clim Appl Meteorol 22(8):1356–1366
Karl TR, Gleason BE, Menne MJ, McMahon JR, Heim RR, Brewer MJ, Kunkel KE, Arndt DS, Privette JL, Bates JJ, Groisman PY (2012) US temperature and drought: recent anomalies and trends. Eos Trans Am Geophys Union 93(47):473–474
Khadr M (2017) Temporal and spatial analysis of meteorological drought characteristics in the upper Blue Nile river region. Hydrol Res 48(1):265–276
Kim TW, Valdés JB, Yoo C (2003) Nonparametric approach for estimating return periods of droughts in arid regions. J Hydrol Eng 8(5):237–246
Kleppe JA, Brothers DS, Kent GM, Biondi F, Jensen S, Driscoll NW (2011) Duration and severity of Medieval drought in the Lake Tahoe Basin. Quatern Sci Rev 30(23):3269–3279
Kumar R, Singh RD, Sharma KD (2005) Water resources of India. Curr Sci 89(5):794–811
Lee T, Modarres R, Ouarda TB (2013) Data-based analysis of bivariate copula tail dependence for drought duration and severity. Hydrol Process 27(10):1454–1463
Li Y, Chen C, Sun C (2016) Drought severity and change in Xinjiang, China, over 1961–2013. Hydrology Research, nh2016026
Ma M, Song S, Ren L, Jiang S, Song J (2013) Multivariate drought characteristics using trivariate Gaussian and Student t copulas. Hydrol Process 27(8):1175–1190
Maccioni P, Kossida M, Brocca L, Moramarco T (2014) Assessment of the drought hazard in the Tiber River Basin in Central Italy and a comparison of new and commonly used meteorological indicators. J Hydrol Eng 20(8):05014029
Madadgar S, Moradkhani H (2011) Drought analysis under climate change using copula. J Hydrol Eng 18(7):746–759
Manuel J (2008) Drought in the southeast: lessons for water management. Environ Health Perspect 116(4):A168
Marsh T, Cole G, Wilby R (2007) Major droughts in England and Wales, 1800–2006. Weather 62(4):87–93
Masud MB, Khaliq MN, Wheater HS (2015) Analysis of meteorological droughts for the Saskatchewan River Basin using univariate and bivariate approaches. J Hydrol 522:452–466
McKee TB, Doesken NJ, Kleist J (1993) The relationship of drought frequency and duration to time scales. In: Proceedings of the 8th conference on applied climatology, vol 17, no 22. American Meteorological Society, Boston, pp 179–183
Mihajlović D (2006) Monitoring the 2003–2004 meteorological drought over Pannonian part of Croatia. Int J Climatol 26(15):2213–2225
Min SK, Kwon WT, Park EH, Choi Y (2003) Spatial and temporal comparisons of droughts over Korea with East Asia. Int J Climatol 23(2):223–233
Mirabbasi R, Fakheri-Fard A, Dinpashoh Y (2012) Bivariate drought frequency analysis using the copula method. Theor Appl Climatol 108(1–2):191–206
Mirakbari M, Ganji A, Fallah SR (2010) Regional bivariate frequency analysis of meteorological droughts. J Hydrol Eng 15(12):985–1000
Mishra AK, Singh VP (2010) A review of drought concepts. J Hydrol 391(1):202–216
Mishra AK, Singh VP, Desai VR (2009) Drought characterization: a probabilistic approach. Stoch Env Res Risk Assess 23(1):41–55
Modarres R (2007) Streamflow drought time series forecasting. Stoch Env Res Risk Assess 21(3):223–233
Mosley J (2012) Translating famine early warning into early action: an east Africa case study. EEDP/Africa Programme Paper. Chatham House
Murthy CS, Yadav M, Ahamed JM, Laxman B, Prawasi R, Sai MS, Hooda RS (2015) A study on agricultural drought vulnerability at disaggregated level in a highly irrigated and intensely cropped state of India. Environ Monit Assess 187(3):140
Pandey RP, Ramasastri KS (2001a) Relationship between the common climatic parameters and average drought frequency. Hydrol Process 15:1019–1032
Pandey RP, Ramasastri KS (2001b) Relationship between the common climatic parameters and average drought frequency. Hydrol Process 15(6):1019–1032
Pandey RP, Pandey A, Galkate RV, Byun HR, Mal BC (2010) Integrating hydro-meteorological and physiographic factors for assessment of vulnerability to drought. Water Resour Manag 24(15):4199–4217
Parry M (2007) Climate Change 2007, Impacts, Adaptation and Vulnerability: Part of the Working Group II Contribution to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Summary for Policymakers-A Report of Working Group II of the Intergovernmental Panel on Climate Change and Technical Summary-a Report Accepted by Working Group II of the IPCC But Not Approved in Detail. Cambridge University Press for the Intergovernmental Panel on Climate Change
Pingale SM, Khare D, Jat MK, Adamowski J (2014) Spatial and temporal trends of mean and extreme rainfall and temperature for the 33 urban centers of the arid and semi-arid state of Rajasthan, India. Atmosph Res 138:73–90
Rahmat SN, Jayasuriya N, Bhuiyan M (2015) Assessing droughts using meteorological drought indices in Victoria, Australia. Hydrol Res 46(3):463–476
Rauf UFA, Zeephongsekul P (2014) Copula based analysis of rainfall severity and duration: a case study. Theor Appl Climatol 115(1–2):153–166
Report on Progress and Review Part I, National Commission on Irrigation (1976) Ministry of Agriculture and Irrigation, Government of India, New Delhi
Rijsberman FR (2006) Water scarcity: fact or fiction? Agric Water Manag 80(1):5–22
Sakthivadivel R (2007) The groundwater recharge movement in India. Agric Groundw Revolut Oppor Threats Dev 3:195–210
Santos JF, Pulido-Calvo I, Portela MM (2010) Spatial and temporal variability of droughts in Portugal. Water Resour Res 46(3):168
Seager R, Tzanova A, Nakamura J (2009) Drought in the southeastern United States: causes, variability over the last millennium, and the potential for future hydroclimate change. J Clim 22(19):5021–5045
Shiau JT (2006) Fitting drought duration and severity with two-dimensional copulas. Water Resour Manag 20(5):795–815
Shiau JT, Shen HW (2001) Recurrence analysis of hydrologic droughts of differing severity. J Water Resour Plan Manag 127(1):30–40
Shiklomanov IA (2000) Appraisal and assessment of world water resources. Water Int 25(1):11–32
Smakhtin VU, Hughes DA (2007) Automated estimation and analyses of meteorological drought characteristics from monthly rainfall data. Environ Model Softw 22(6):880–890
Song S, Singh VP (2010) Meta-elliptical copulas for drought frequency analysis of periodic hydrologic data. Stoch Env Res Risk Assess 24(3):425–444
Stahle DW, Cleaveland MK (1992) Reconstruction and analysis of spring rainfall over the southeastern US for the past 1000 years. Bull Am Meteorol Soc 73(12):1947–1961
Subramanya K (2005) Engineering hydrology, 4th edn. Tata McGraw-Hill Education, New York
Tallaksen LM, Van Lanen HA (2004) Hydrological drought: processes and estimation methods for streamflow and groundwater, vol 48. Elsevier, Amsterdam
Tosunoglu F, Can I (2016) Application of copulas for regional bivariate frequency analysis of meteorological droughts in Turkey. Nat Hazards 82(3):1457–1477
USDA (2012) World agricultural supply and demand estimates. Technical report, United States, Department of Agriculture
Van der Schrier G, Briffa KR, Jones PD, Osborn TJ (2006) Summer moisture variability across Europe. J Clim 19(12):2818–2834
Van Loon AF, Laaha G (2015) Hydrological drought severity explained by climate and catchment characteristics. J Hydrol 526:3–14
Vicente-Serrano SM (2006) Differences in spatial patterns of drought on different time scales: an analysis of the Iberian Peninsula. Water Resour Manag 20(1):37–60
Vittal KPR, Kar A (2010) Indicators for assessing drought hazard in arid regions of India. In Natural and anthropogenic disasters. Springer, Dordrecht, pp 237–255
Wilhite DA (ed) (1993a) Drought assessment, management, and planning: Theory and case studies. Natural resource management and policy series. Kluwer, Boston
Wilhite DA (1993) Planning for drought: a methodology. In Drought assessment, management, and planning: theory and case studies. Springer, Boston, pp 87–108
Wilhite DA, Glantz MH (1985) Understanding: the drought phenomenon: the role of definitions. Water Int 10(3):111–120
Wilhite DA, Vanyarkho OV (2000) Drought: pervasive impacts of a creeping phenomenon
Wilhite DA, Svoboda MD, Hayes MJ (2007) Understanding the complex impacts of drought: a key to enhancing drought mitigation and preparedness. Water Resour Manag 21(5):763–774
Wong G, Van Lanen HAJ, Torfs PJJF (2013) Probabilistic analysis of hydrological drought characteristics using meteorological drought. Hydrol Sci J 58(2):253–270
Yan-jun L, Xiao-dong Z, Fan L, Jing M (2012) Analysis of drought evolvement characteristics based on standardized precipitation index in the Huaihe River basin. Proc Eng 28:434–437
Yoo J, Kim U, Kim TW (2013) Bivariate drought frequency curves and confidence intervals: a case study using monthly rainfall generation. Stoch Env Res Risk Assess 27(1):285–295
Yusof F, Hui-Mean F, Suhaila J, Yusof Z (2013) Characterisation of drought properties with bivariate copula analysis. Water Resour Manag 27(12):4183–4207
Zaidman MD, Rees HG, Young AR (2002) Spatio-temporal development of streamflow droughts in north-west Europe. Hydrol Earth Syst Sci Dis 6(4):733–751
Zhang Q, Xiao M, Singh VP, Li J (2012) Regionalization and spatial changing properties of droughts across the Pearl River basin, China. J Hydrol 472–473:355–366
Zin WZW, Jemain AA, Ibrahim K (2013) Analysis of drought condition and risk in Peninsular Malaysia using Standardised Precipitation Index. Theor Appl Climatol 111(3–4):559–568
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Amrit, K., Pandey, R.P. & Mishra, S.K. Characteristics of meteorological droughts in northwestern India. Nat Hazards 94, 561–582 (2018). https://doi.org/10.1007/s11069-018-3402-0
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DOI: https://doi.org/10.1007/s11069-018-3402-0