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洪洞县农业干旱灾害风险评价与区划研究 被引量:1

Risk Assessment and Zoning of Agricultural Drought Disaster in Hongdong County
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摘要 干旱是人类面临的主要自然灾害之一,笔者结合降水距平公式对洪洞县1980—2010年冬小麦的干旱情况进行了详细的划分,深入探讨了不同阶段冬小麦干旱的时间和空间特征,并总结了一定的规律。此外,对洪洞县的所有站点,运用人类生存环境风险评价法,结合GIS软件对冬小麦干旱灾害风险指数DDRI进行研究与区划。结果表明:(1)洪洞县一般干旱和强干旱的发生频率均表现为20世纪80年代最高,21世纪初次之,20世纪90年代最低;(2)洪洞县冬小麦干旱灾害高风险区主要集中在万安镇和曲亭镇,这2个乡镇是洪洞县防御冬小麦干旱的重点区域,低风险和轻微风险主要分布在北部地区及中南部地区。 Drought is one of the major natural disasters. We used precipitation anomaly formula to analyze drought disaster to winter wheat in Hongdong 1980-2010, discussed the spacial and temporal characteristics of drought in different winter wheat growth stages, and concluded the rule of drought occurrence. In addition, we used the human environment risk assessment method, combining with GIS software, to study and zone the drought disaster risk index DDRI of winter wheat in all sites of Hongdong. The results showed that:(1) the frequency of drought and severe drought was the highest in the 1980 s in Hongdong, followed by the beginning of the 21 stcentury, and was the lowest in 1990s;(2) the high risk areas of winter wheat drought were mainly in Wanan and Quting, which should be the key areas for winter wheat drought prevention; low-risk and minor risk areas were mainly distributed in the northern and the central-southern part of Hongtong.
作者 贾香风 白丽芹 李必龙
机构地区 洪洞县气象局 襄汾县气象局
出处 《中国农学通报》 2015年第1期210-214,共5页 Chinese Agricultural Science Bulletin
关键词 干旱灾害 风险指数 区划 洪洞县 drought disaster risk index zoning Hongtong
分类号 S-42 [农业科学]
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共引文献467

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  • 1张晶晶,陈爽,赵昕奕.近50年中国气温变化的区域差异及其与全球气候变化的联系[J].干旱区资源与环境,2006,20(4):1-6. 被引量:171
  • 2田展,徐新良,史军.气候变化对甘肃定西、安徽合肥小麦生产影响研究[J].地理科学进展,2006,25(4):88-95. 被引量:16
  • 3Barros V R, Field C B, Dokke D J, et al. Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part B: Regional Aspects [A].Contribution of Working Group II to the Fifth Assessment Report of the Intergovemmcntal Panel on Climate Change[R],2015.
  • 4Huang S, Krysanova V, Hattermann F. Projections of climate change impacts on floods and droughts in Germany using an ensemble of climate change scenarios[J].Regional Environmental Change,2015:1-13.
  • 5Kisi O, Ay M. Comparison of Mann-Kendall and innovative trend method for water quality parameters of the Kizilirmak River, Turkey [J].Journal of Hydrology,2014,513:362-375.
  • 6Chansaengkraehang K, Luadsong A, Aschariyaphotha N. A Study of the Time Lags of the Indian Ocean Dipole and Rainfall Over Thailand by Using the Cross Wavelet Analysis[J].Arabian Journal Forence & Engineering,2015,40( 1):215-225.
  • 7Yu H L, Lin Y C. Analysis of space-time non-stationary patterns of rainfall- groundwater interactions by integrating empirical orthogonal funetiun and cross wavelet transform methods[J].Journal of Hydrology,2015,525: 585 -597.
  • 8Karl T R, Arguez A, Huang B, et al. Possible artifacts of data biases in the recent global surface warming hiatus[J].Seienee,2015,348 (6242): 1469-1472.
  • 9ChaUinor A J, Parkes B, Ramirez-Villegas J. Crop yield response to climate change varies with cropping intensity[J].Glob Chang Biol, 2015,21(4):1679- 688.
  • 10Reynolds L L, Johnson B R, Pfeifer-Mcister L, et al. Soil respiration response to climate change in Pacific Northwest prairies is mediated by a regional Mediterranean climate gradiant[J].Global Change Biology,2015,21( 1 ):487-500.

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中国农学通报
2015年 第1期

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