To determine the influence of agricultural meteorological disasters on agriculture in Heilongjiang Province, the disaster areas associated with different types of disasters and their variation characteristics were analyzed based on the statistical data of agricultural disasters from 1983 to 2013 in Heilongjiang Province, China. The moving average and the Mann-Kendall test were applied to identify the variation trends of drought, flooding, hailstorms and freezing (based on the disaster ratio and the disaster intensity index). Then, the Morlet wavelet analysis method was used to identify the periodicity of these four kinds of agricultural meteorological disasters. Finally, a fuzzy comprehensive evaluation method was adopted to analyze the degrees of agricultural loss induced by these disasters. The following results were obtained: 1) The disaster ratio and disaster intensity index for drought exhibited increasing trends; the disaster ratio and disaster intensity index for flooding exhibited decreasing trends; for hailstorms, the disaster ratio exhibited no obvious trend of change, whereas the disaster intensity index exhibited an increasing trend; and for freezing, the disaster ratio also exhibited no obvious trend of change, whereas the disaster intensity index exhibited a decreasing trend. 2) Mutation points were observed in the disaster ratio series for drought, flooding and hailstorms, whereas no mutation point was evident in the disaster ratio series for freezing. 3) Multiple time-scale characteristics were observed in the disaster ratio series for all four types of agricultural meteorological disasters. Furthermore, the disaster ratio series for the different types of disasters had different main periodicities. 4) From the perspective of the degree of agricultural loss induced by each type of disaster, drought was identified as the most severe type of agricultural meteorological disaster, followed by flooding, freezing, and hailstorms. The degree of agricultural loss caused by each type of disaster was different during different periods. Finally, based on the results, several strategies were identified for mitigating the effect of agricultural meteorological disasters in Heilongjiang Province.
Keywords: agricultural meteorological disaster, disaster risk assessment, disaster ratio, disaster intensity index, fuzzy comprehensive evaluation, agricultural loss
DOI: 10.25165/j.ijabe.20171006.2537

Citation: Xing Z X, Yang Z R, Fu Q, Li H, Gong X L, Wu J Y. Characteristics and risk assessment of agricultural meteorological disasters based on 30 years’ disaster data from Heilongjiang Province of China. Int J Agric & Biol Eng, 2017; 10(6): 144–154.

agricultural meteorological disaster, disaster risk assessment, disaster ratio, disaster intensity index, fuzzy comprehensive evaluation, agricultural loss

Song L C. China Meteorological disaster yearbook. Beijing, China: Meteorological Press, 2013. (in Chinese)

Sun S, Pei Y H, Wang C L, Liu D. Main meteorological disasters and the impact to Heilongjiang Province in 2013. Heilongjiang Agricultrue Science, 2014; 12: 153–155. (in Chinese)

Li Y J, Wang C Y, Zhao B, Liu W J. Effects of climate change on agricultural meteorological disaster and crop insects diseases. Transactions of the CSAE, 2010; 26(Suppl1): 263–271. (in Chinese)

Delgado J M, Apel H, Merz B. Flood trends and variability in the Mekong River. Hydrology and Earth System Sciences, 2010; 14(3): 407–418.

Woodhouse C A, Overpeck J T. 2000 years of drought variability in the central United States. Bulletin of American Meteorological Society, 1998; 79(12): 2693–2714.

Sesha M V R S, Murthy C S, Chandrasekar K, Jeyaseelan A T, Diwakap P G, Dadhwal V K. Agricultural drought: Assessment & monitoring, Mausam, 2016; 67(1): 131–142.

Punge H J, Kunz M. Hail observations and hailstorm characteristics in Europe: A review. Atmospheric Research, 2016; 176-177: 159–184.

Xu X G, Xu L F, Yan L, Ma L Y, Lu Y L. Integrated regional ecological risk assessment of multi-ecosystems under multi-disasters: a case study of China. Environmental Earth Sciences, 2015; 74 (1): 747–758.

Xie N M, Xin J H, Liu S F. China’s regional meteorological disaster loss analysis and evaluation based on grey cluster model. Nature Hazards, 2013; 71(2): 1067–1089.

Pei W, Fu Q, Liu D, Li T X, Cheng K. Assessing agricultural drought vulnerability in Sanjiang Plain based on an improved projection pursuit model. Nature Hazards, 2016; 82(1): 683–701.

Du X D, Jin X B, Yang X L, Yang X H, Xiang X M, Zhou Y K. Spatial-temporal pattern changes of main agriculture natural disasters in China during 1990-2011. Journal of Geography and Science, 2015; 25(4): 387–398.

Wang Z L, Wang J, Wang J S. Risk assessment of drought disaster in southern China. Discrete Dynamics in Nature and Society, 2015; (6): 1–8.

Han W X, Liang C, Jiang B F, Ma W, Zhang Y. Major natural disasters in China, 1985-2014: occurrence and dangers. International Journal of Environmental Research and Public health, 2016; 13(11): 1–14.

Wang C Y, Zhang J Q, Huo Z G, Guo J P, Li Y J. Prospects and progresses in the research of risk assessment of agro- meteorological disasters. Journal Meteorological Research, 2015; 73(1): 1–19. (in Chinese)

Wang Y, Huang G Q, Zhao Q G, Cai J J, Liu X P, Zhang Q. Characteristic analysis of agro-meteorological disasters and the impacts on grain yield in Guangxi. Journal of Agriculture, 2015; 5(3): 92–96. (in Chinese)

Peng C M. Study on effect of agricultural meteorological disasters on grain yield in Henan Province through grey correlative degree analysis. Acta Agriculturae Jiangxi, 2017; 29(1): 106–110. (in Chinese)

Zhang P, Wu J J, Li G L. Research on the construction of agricultural meteorological disaster prevention system in Heilongjiang Province. Management of Agriculture Science, 2011; 30(1): 62–65. (in Chinese)

Tang L B, Zhang P, Wang J, Gu J. Risk assessment and prediction of agro-meteorological disasters in Heilongjiang Province. Journal of Heilongjiang Bayi Agricultural University, 2011; 23(2): 77–81. (in Chinese)

Hu Y N, Li K, Xu Y L. Characteristic analysis of agricultural meteorological disasters and risk assessment of the crop loss in North China Plain during 1951-2010. Chinese Journal of Agrometeorology, 2013; 34(2): 197–203. (in Chinese)

Wu Y F, Li M S, Jang W G. Change of drought condition in different economic regions and its relationship with fluctuation of gain yield per unit area. Journal of Natural Disaster Sicence, 2006; 15(6): 205–210.

Ahani H, Kherad M, Kousari M R, Rezaeian-Zadeh M, Karampour M A, Ejraee F, et al. An investigation of trends in precipitation volume for the last three decades in different regions of Fars Province, Iran. Theoretical of Applied Climatology, 2012; 109(3-4): 361–382.

Shadmani M, Marofi S, Roknian M. Trend analysis in reference evapotranspiration using Mann-Kendall and spearman’s Rho tests in arid regions of Iran. Water Resources Managment, 2012; 26(1): 211–224.

Bradshaw G A,McIntosh B A. Detecting climate-induced patterns using wavelet analysis. Environmental Pollution, 1994; 83(1-2): 135–141.

Kumar A, Choi S, Goksel L. Tolerance allocation of assemblies using fuzzy comprehensive evaluation and decision support process. Internaltion Journal of Advanced Manufacuring Technology, 2011; 55(1-4): 379–391.

Jin L,Wang Z B, Wang Y. Study on the problem of drought disaster in Heilongjiang Province. Heilongjiang Science and Technology of Water Conservancy, 2008; 36(5): 16–18. (in Chinese)

Lin Y, Zhang T J, Fu F R. Comprehensive Production Capacity of Grain in Heilongjiang Province, Harbin: Heilongjiang Science and Technology Press, 1992. (in Chinese)

Zhou C S. Influence of agricultural meteorological disasters on grain production in Heilongjiang province, Dissertation. Harbin: Heilongjiang University, 2010. (in Chinese)

Torrence C, Compo G P. A practical guide to wavelet analysis. Bulletin of American Meteorological Society, 1998; 79(1): 61–78.

Hao L S, Bi B G, Yao X X. Analysis of solar activities and changes. Journal Space Science, 2007; 27(4): 265-270. (in Chinese)

Su X D, Zhang X P. Analysis on the variation character of temperature and precipitation and abrupt change in Heilongjiang in recent 56 years. Chinese Agricultural Science Bulletin, 2011; 27(14): 205–209. (in Chinese)