Spatiotemporal Variations of Meteorological Droughts in China During 1961–2014: An Investigation Based on Multi-Threshold Identification

Jun He; Xiaohua Yang; Zhe Li; Xuejun Zhang; Qiuhong Tang

doi:10.1007/s13753-016-0083-8

International Journal of Disaster Risk Science ›› 2016, Vol. 7 ›› Issue (1) : 63 -76. DOI: 10.1007/s13753-016-0083-8

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Spatiotemporal Variations of Meteorological Droughts in China During 1961–2014: An Investigation Based on Multi-Threshold Identification

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Abstract

As a major agricultural country, China suffers from severe meteorological drought almost every year. Previous studies have applied a single threshold to identify the onset of drought events, which may cause problems to adequately characterize long-term patterns of droughts. This study analyzes meteorological droughts in China based on a set of daily gridded (0.5° × 0.5°) precipitation data from 1961 to 2014. By using a multi-threshold run theory approach to evaluate the monthly percentage of precipitation anomalies index (Pa), a drought events sequence was identified at each grid cell. The spatiotemporal variations of drought in China were further investigated based on statistics of the frequency, duration, severity, and intensity of all drought events. Analysis of the results show that China has five distinct meteorological drought-prone regions: the Huang-Huai-Hai Plain, Northeast China, Southwest China, South China coastal region, and Northwest China. Seasonal analysis further indicates that there are evident spatial variations in the seasonal contribution to regional drought. But overall, most contribution to annual drought events in China come from the winter. Decadal variation analysis suggests that most of China’s water resource regions have undergone an increase in drought frequency, especially in the Liaohe, Haihe, and Yellow River basins, although drought duration and severity clearly have decreased after the 1960s.

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China / Meteorological drought / Multi-threshold run theory method / Spatiotemporal variations

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Jun He, Xiaohua Yang, Zhe Li, Xuejun Zhang, Qiuhong Tang. Spatiotemporal Variations of Meteorological Droughts in China During 1961–2014: An Investigation Based on Multi-Threshold Identification. International Journal of Disaster Risk Science, 2016, 7(1): 63-76 DOI:10.1007/s13753-016-0083-8

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References

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[1]	Barriopedro D, Gouveia CM, Trigo RM. The 2009/2010 drought in China: Possible causes and impacts on vegetation. Journal of Hydrometeorology, 2012, 13(4): 1251-1267

[2]	Bayat B, Nasseri M, Zahraie B. Identification of long-term annual pattern of meteorological drought based on spatiotemporal methods: Evaluation of different geostatistical approaches. Natural Hazards, 2015, 76(1): 515-541

[3]	Bonacci O. Hydrological identification of drought. Hydrological Processes, 1993, 7(3): 249-262

[4]	Burke EJ, Brown SJ. Regional drought over the UK and changes in the future. Journal of Hydrology, 2010, 394(3–4): 471-485

[5]	Carrão H, Singleton A, Naumann G. An optimized system for the classification of meteorological drought intensity with applications in drought frequency analysis. Journal of Applied Meteorology and Climatology, 2014, 53(8): 1943-1960

[6]	Chang TJ, Kleopa XA. A proposed method for drought monitoring. Jawra Journal of the American Water Resources Association, 1991, 27(2): 275-281

[7]	China Meteorological Administration Classification of meteorological drought, 2006, Beijing: Standards Press of China (in Chinese)

[8]	Dash BK, Rafiuddin M, Khanam F, Islam MN. Characteristics of meteorological drought in Bangladesh. Natural Hazards, 2012, 64(2): 1461-1474

[9]	Ding YH. China meteorological disaster dictionary (Comprehensive volume), 2008, Beijing: China Meteorological Press (in Chinese)

[10]	Dracup JA, Lee KL, Paulson EG. On the definition of droughts. Water Resources Research, 1980, 16(2): 297-302

[11]	Estrela MJ, Peñarrocha D, Millán M. Multi-annual drought episodes in the Mediterranean (Valencia region) from 1950 to 1996. A spatio-temporal analysis. International Journal of Climatology, 2000, 20(13): 1599-1618

[12]	Fleig AK, Tallaksen LM, Hisdal H, Demuth S. A global evaluation of streamflow drought characteristics. Hydrology and Earth System Sciences, 2006, 10(4): 535-552

[13]	Gibbs, W.J. 1975. Drought, its definition, delineation and effects. In Drought: Lectures presented at the 26th session of the WMO. Report No. 5, 3–30. Geneva: World Meteorological Organization.

[14]	Hallack-Alegria MM, Watkins DW. Annual and warm season drought intensity-duration-frequency analysis for sonora. Mexico. Journal of Climate, 2007, 20(9): 1897-1909

[15]	He, J. 2015. The spatiotemporal multiscale drought identification and evaluation under climate change in Huang-Huai-Hai River Basin. Ph.D. dissertation, Beijing Normal University, Beijing, China.

[16]	He J, Yang XH, Li JQ, Jin JL, Wei YM, Chen XJ. Spatiotemporal variation of meteorological droughts based on the daily comprehensive drought index in the Haihe River basin, China. Nature Hazards, 2014, 75: S199-S217

[17]	Liu CM, Zhang SF. Drying up of the Yellow River: Its impacts and counter-measures. Mitigation and Adaptation Strategies for Global Change, 2002, 7(3): 203-214

[18]	Lloyd-Hughes B, Saunders MA. A drought climatology for Europe. International Journal of Climatology, 2002, 22(13): 1571-1592

[19]	Loaiciga HA, Leipnik RB. Stochastic renewal model of low-flow streamflow sequences. Stochastic Hydrology and Hydraulics, 1996, 10(1): 65-85

[20]	McKee, T.B., N.J. Doeskin, and J. Kleist. 1993. The relationship of drought frequency and duration to time scales. In Proceedings of the eighth conference on applied climatology, Anaheim, CA: American Meteorological Society, 179–184.

[21]	Ministry of Water Resources China water statistical yearbook 2013, 2014, Beijing: China Water and Power Press (in Chinese)

[22]	Mishra AK, Singh VP. A review of drought concepts. Journal of Hydrology, 2010, 391(1–2): 202-216

[23]	Nandintsetseg B, Shinoda M. Assessment of drought frequency, duration, and severity and its impact on pasture production in Mongolia. Natural Hazards, 2012, 66(2): 995-1008

[24]	Oh SB, Byun HR, Kim DW. Spatiotemporal characteristics of regional drought occurrence in East Asia. Theoretical and Applied Climatology, 2014, 117(1–2): 89-101

[25]	Oladipo EO. A comparative performance analysis of three meteorological drought indices. Journal of Climatology, 1985, 5(6): 655-664

[26]	Qian W, Zhu YL. Climate change in China from 1880 to 1998 and its impact on the environmental condition. Climatic Change, 2001, 50(4): 419-444

[27]	Santos MA. Regional droughts: A stochastic characterization. Journal of Hydrology, 1983, 66(1–4): 183-211

[28]	Sen Z. Wet and dry periods for annual flow series. Journal of the Hydraulics Division, 1976, 102(10): 1503-1514.

[29]	Sen Z. Statistical analysis of hydrologic critical droughts. Journal of the Hydraulics Division, 1980, 106(1): 99-115.

[30]	Shen CM, Wang WC, Hao ZX, Gong W. Exceptional drought events over eastern China during the last five centuries. Climatic Change, 2007, 85(3): 453-471

[31]	Sung JH, Chung ES. Development of streamflow drought severity-duration-frequency curves using the threshold level method. Hydrology and Earth System Sciences, 2014, 18(9): 3341-3351

[32]	Wang AH, Lettenmaier DP, Sheffield J. Soil moisture drought in China, 1950–2006. Journal of Climate, 2011, 24(13): 3257-3271

[33]	Wang W, Zhu Y, Xu RG, Liu JT. Drought severity change in China during 1961–2012 indicated by SPI and SPEI. Natural Hazards, 2014, 75(3): 2437-2451

[34]	Wilhite DA, Glantz MH. Understanding the drought phenomenon: The role of definitions. Water International, 1985, 10(3): 111-120

[35]	Wu J, Gao XJ. A gridded daily observation dataset over China region and comparison with the other datasets. Chinese Journal of Geophysics, 2013, 56(4): 1102-1111.

[36]	Wu ZY, Lu GH, Wen L, Lin CA. Reconstructing and analyzing China’s fifty-nine year (1951–2009) drought history using hydrological model simulation. Hydrology and Earth System Sciences, 2011, 15(9): 2881-2894

[37]	Xie P. China meteorological disaster dictionary (Beijing volume), 2005, Beijng: China Meteorological Press (in Chinese)

[38]	Xu K, Yang DW, Yang HB, Zhe L, Qin Y, Shen Y. Spatio-temporal variation of drought in China during 1961–2012: A climatic perspective. Journal of Hydrology, 2015, 526: 253-264

[39]	Yang J, Gong DY, Wang WS, Hu M, Mao R. Extreme drought event of 2009/2010 over southwestern China. Meteorology and Atmospheric Physics, 2012, 115(3–4): 173-184

[40]	Yevjevich, V. 1967. An objective approach to definitions and investigations of continental hydrologic droughts. Ph.D. dissertation, Colorado State University, Boulder, CO, USA.

[41]	Yu MX, Li QF, Hayes MJ, Svoboda M. Are droughts becoming more frequent or severe in China based on the standardized precipitation evapotranspiration index: 1951–2010. International Journal of Climatology, 2014, 34(3): 545-558

[42]	Yuan XC, Zhou YL, Jin JL, Wei YM. Risk analysis for drought hazard in China: A case study in Huaibei Plain. Natural Hazards, 2013, 67(2): 879-900

[43]	Zelenhasić E, Salvai A. A method of streamflow drought analysis. Water Resources Research, 1987, 23(1): 156-168

[44]	Zhai L, Feng Q. Spatial and temporal pattern of precipitation and drought in Gansu Province. Northwest China. Natural Hazards, 2008, 49(1): 1-24

[45]	Zhang LX, Zhou TJ. Drought over East Asia: A review. Journal of Climate, 2015, 28(8): 3375-3399

[46]	Zhou YL, Zhou P, Jin JL. Establishment of hydrological drought index based on sources of regional water supply and its application to drought frequency analysis for Kunming. Journal of Hydraulic Engineering, 2014, 45(9): 1038-1047 (in Chinese)