Application of extreme value distribution theory in the forecast of chilling return periods of Guangdong Province, China.

doi:10.13287/j.1001-9332.201808.019

Abstract

Abstract: Chilling is the third weather disaster following flood and typhoon in Guangdong Province. Prediction of chilling return period is of practical significance for scientific reduction and protection of disaster. Four models, including Gumbel distribution, Weibull distribution, log-normal distribution and Peasron-III distribution, were applied, based on the chilling index, to fit the probability distribution of chilling extreme calculated by chilling accumulation for 86 weather stations of Guangdong Province from 1961 to 2015 (December to the following February). The optimal models were selected to calculate the chilling extreme value of return periods. Results showed that Pearson-III distribution was the optimal model for 77 out of the 86 weather stations. The log-normal distribution was optimal for eight weather stations and Gumbel distribution was optimal for only one station. Weibull distribution was not suitable for modeling extreme value of Guangdong Province. Different return periods of 10-, 25-, 50- and 100-year were predicted by optimal distribution models respectively, with a relative error less than 6%. Chilling extreme for years presented obviously latitude distribution feature, with more in north side and less in south side, which matched the distributions of the lowest temperature, average temperature and temperature dipping scale during chilling period. Our results are useful for guiding the chilling defense for relevant industries in Guangdong Province.

TANG Li-sheng, WANG Hua, LIU Wei-qin, LIU Ye. Application of extreme value distribution theory in the forecast of chilling return periods of Guangdong Province, China.[J]. Chinese Journal of Applied Ecology, 2018, 29(8): 2667-2674.

References

[1] Wang C-L (王春林), Liu J-L (刘锦銮), Zeng X (曾侠). Characteristics of recent 50 year’s cold damage in winter in Guangdong. Journal of Natural Disasters (自然灾害学报), 2004, 13(4): 121-127 (in Chinese)
[2] Wang C-L (王春林), Tang L-S (唐力生), Chen S-S (陈水森), et al. Research on cold disaster monitoring based on EOS/MODIS data. Academic Exchange of Agricultural Ecology and Satellite Remote Sensing Application Technology, Zhengzhou, 2006: 50-56 (in Chinese)
[3] Wang J-F (王建芳). Application of Cold Disaster Monitoring and Predicting by Retrieval of Land Surface Temperature. PhD Thesis. Beijing: Chinese Academy of Sciences, 2006 (in Chinese)
[4] Compilation Committee of Guangdong Disaster Prevention and Mitigation Yearbook (《广东省防灾减灾年鉴》编纂委员会). Guangdong Disaster Prevention and Mitigation Yearbook. Beijing: China Meteorological Press, 2000 (in Chinese)
[5] Wu H-Y (伍红雨), Li W-Y (李文媛). Guangdong Climate Bulletin in 2016. Guangzhou: Guangdong Meteo-rological Bureau, 2016 (in Chinese).
[6] Feng Y-Z (冯颖竹), Liang H (梁红), Huang H (黄璜). Study on index for winter’s chilling damage in Guangdong Province. Journal of Natural Disasters (自然灾害学报), 2005, 14(1): 59-65 (in Chinese)
[7] Lin A-L (林爱兰), Wu S-S (吴尚森). The characte-ristics of cold wave action in Guangdong Province during recent 44 years. Journal of Tropical Meteorology (热带气象学报), 1998, 14(4): 337-343 (in Chinese)
[8] Wu S-S (吴尚森). Progress of Winter Low Temperature Climatic Characteristics and Forecast Research in Guangdong: Study on Short Term Climate Prediction in Guangdong. Beijing: China Meteorological Press, 2000 (in Chinese)
[9] Huang D-W (黄大文). Analysis and prediction of cold wave in Guangdong. Guangdong Meteorology (广东气象), 1995(4): 2-6 (in Chinese)
[10] Tang L-S (唐力生), Du Y-D (杜尧东), Chen X-G (陈新光). Temperature dynamic monitoring model of cold disaster event in Guangdong Province. Chinese Journal of Ecology (生态学杂志), 2009, 28(2): 366-370 (in Chinese)
[11] Wang T (王涛). Chilly disasters in Guangdong Pro-vince and its prevention. Geography Teaching (地理教学), 2001(4): 29 (in Chinese)
[12] Tu Y-X (涂悦贤), Huang Z-Z (黄珍珠). A study on climatic resources and cold damage during winter in Guangdong Province. Tropical Geography (热带地理), 1994, 14(2): 118-126 (in Chinese)
[13] Du Y-D (杜尧东), Li C-M (李春梅), Tang L-S (唐力生). Risk identification of winter’s cold damage in Guangdong Province. Journal of Natural Disasters (自然灾害学报), 2008, 17(5): 82-86 (in Chinese)
[14] Du Y-D (杜尧东), Mao H-Q (毛慧琴), Liu J-L (刘锦銮). Study on probability distribution models of cold damage in South China. Journal of Natural Disasters (自然灾害学报), 2003, 12(2): 103-107 (in Chinese)
[15] Luo X-L (罗晓玲), Zhang Y (张勇), Tang H-Y (汤海燕). Serious influence of winter cold disaster on plantation and aquaculture in Guangdong Province. Journal of Natural Disasters (自然灾害学报), 2001, 10(1): 107-113 (in Chinese)
[16] Du Y-D (杜尧东), Luo X-L (罗晓玲). Principal characters of serious chilly disasters in Guangdong Pro-vince and their influence on agriculture. Annual Meeting of the China Meteorological Society, Chengdu, 2005: 56-60 (in Chinese)
[17] IPCC. Intergovernmental Panel on Climate Change Climate Change 2013 Fifth Assessment Report (AR5). Cambridge, UK: Cambridge University Press, 2013
[18] Guo L-Y (郭凌曜), Li Y (李英). Fitting of extreme distribution for precipitation in a short-period and its application in Hunan Province. Journal of Meteorology and Environment (气象与环境学报), 2015, 31(3): 69-74 (in Chinese)
[19] Li Y-G (李运刚), He D-M (何大明), Hu J-M (胡金明). Spatial and temporal variations of extreme precipitation events in the Red River Basin during 1960-2007. Journal of Natural Resources (自然资源学报), 2012, 27(11): 1908-1917 (in Chinese)
[20] Mao H-Q (毛慧琴), Du Y-D (杜尧东), Song L-L (宋丽莉). Research on probability distribution models of short-period precipitation extreme in Guangzhou. Meteorological Monthly (气象), 2004, 30(10): 3-6 (in Chinese)
[21] Lin L-W (林两位), Wang L-P (王莉萍). Estimation of annual maximum diurnal precipitation for reappea-rance periods with Pearson-Ⅲ distribution. Meteorological Science and Technology (气象科技), 2005, 33(4): 314-317 (in Chinese)
[22] Chen X-W (陈兴旺). Application of generalized extreme value distribution theory in calculating return periods. Meteorology and Disaster Reduction Research (气象与减灾研究), 2008, 31(4): 52-54 (in Chinese)
[23] Yang J-H (杨金虎), Jiang Z-H (江志红), Wang P-X (王鹏祥). Temporal and spatial characteristic of extreme precipitation event in China. Climatic and Environmental Research (气候与环境研究), 2008, 13(1): 75-83 (in Chinese)
[24] Yin W-Y (尹文有), Zheng J (郑皎), Wang J-H (王继红). Fitting and estimation of extreme value distribution of annual diurnal maximum rainfall. Meteorological Science and Technology (气象科技), 2011, 39(2): 137-140 (in Chinese)
[25] Du Y-D (杜尧东), Li C-M (李春梅), Mao H-Q (毛慧琴). Disaster-inducing factors and integrated climatic index for banana and litchi chilling injuries in Guangdong Province. Chinese Journal of Ecology (生态学杂志), 2006, 25(2): 225-230 (in Chinese)
[26] Du Y-D (杜尧东), Li C-M (李春梅), Mao H-Q (毛慧琴), et al. Temporal and spatial distribution of integrated chilling injury index for banana in Guangdong Province. Chinese Journal of Agrometeorology (中国农业气象), 2008, 29(4): 467-471 (in Chinese)
[27] Fisher RA, Tippett LHC. Limiting forms of the frequency distributions of the largest or smallest member of a sample. Mathematical Proceedings of the Cambridge Philosophical Society, 1928, 24: 180-190
[28] Greenwood AJ, Landwehr MJ, Matelas NC. Probability weighted moments: Definition and relation to parameters of several distribution expressable in inverse form. Water Resources Research, 1979, 15: 1049-1054
[29] Wang X-G (王晓光). The calculation methods of meteo-rological elements return period and comparison. Neimenggu Meteorology (内蒙古气象), 2015(5): 29-32 (in Chinese)
[30] Gao S-F (高绍凤), Chen W-L (陈万隆), Zhu C-Q (朱超群), et al. Climate Application. Beijing: China Meteorological Press, 2001 (in Chinese)
[31] Tan Z-K (谭宗琨), He Y (何燕), Ou Z-R (欧钊荣), et al. Relationship between litchi fruit growth and temperature conditions. Meteorological Monthly (气象), 2006, 32(12): 96-101 (in Chinese)
[32] Yu Z-X (俞钟行). Goodness of fit test for ω² distribution of geological variables. Geology and Prospecting (地质与勘探), 1993, 29(3): 33-35 (in Chinese)
[33] General Administration of Quality Supervision, Inspection and Quarantine of the People’s Republic of China (国家质量技术监督局). Statistical Iterpretation of Data: Normality Tests (GB/T 4882-2001). Beijing: China Standards Press, 2001 (in Chinese)
[34] Yu Z-X (俞钟行). Probe into the goodness-of-fit of probability distributions of geological variables. Geology and Prospecting (地质与勘探), 1994, 31(1): 46-48 (in Chinese)
[35] Liu D-J (刘大杰), Tao B-Z (陶本藻). Practical Methods for Surveying Data Processing. Beijing: Surveying and Mapping Press, 2000 (in Chinese)
[36] Fei H-L (费鹤良). Survey of distribution fitting-of-fit test method. Journal of Shanghai Normal College (Natural Sciences) (上海师范学院学报:自然科学版), 1982(2): 129-142 (in Chinese)
[37] Dumonceaux R, Antle CE. Discrimination between the Log-Normal and the Weibull distributions. Technome-trics, 1973, 15: 923-926
[38] Dumonceaux R, Antle CE. Likelihood ratio test for DiscriminaGon between two models with unknown location and scale parameters. Technometrics, 1973, 15: 19-27
[39] Li N (李娜), Huo Z-G (霍治国), He N (贺楠), et al. Climatic risk zoning for banana and litchi’s chilling injury in South China. Chinese Journal of Applied Ecology (应用生态学报), 2010, 21(5): 1244-1251 (in Chinese)
[40] Compilation Committee of Guangdong Disaster Prevention and Mitigation Yearbook (《广东省防灾减灾年鉴》编纂委员会). Guangdong Disaster Prevention and Mitigation Yearbook. Guangzhou: South of the Five Ridges Fine Arts Publishing House, 2009 (in Chinese)