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自然灾害学报 2014

灾害系统:灾害群、灾害链、灾害遭遇

DOI: 10.13577/j.jnd.2014.0601, PP. 1-12

史培军,吕丽莉,汪明,王静爱,陈文方

Keywords: 灾害系统,灾害群,灾害链,灾害遭遇

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Abstract:

根据灾害系统的结构与功能特征的复杂性,将灾害系统中的多灾种情形分成三大类:灾害群、灾害链以及灾害遭遇。灾害群是指灾害在空间上的群聚和时间上的群发,各致灾因子之间不存在成因上的联系性,可依据多灾种风险评估模型对其进行评价;灾害链则表现为类似多米诺骨牌的现象,各致灾因子之间具有成因上的联系性,其风险可通过转移概率风险评估模型进行评估;灾害遭遇表现为各致灾因子之间的相互碰头现象,其风险可通过组合概率风险模型进行评估。狭义上的多灾种仅指致灾因子在空间上群聚或群发。灾害群的致灾程度是各单一致灾因子的总和,对某一地区来讲,灾害群聚或群发,都会使区域总体致灾加重;灾害链与灾害遭遇的致灾强度大大超过其关联的各单一致灾因子的总和,其中灾害链的致灾强度具有累加效应,而灾害遭遇的致灾强度具有叠加效应。灾害累加与叠加都可明显放大致灾的程度,形成巨灾风险。

References

[1]	Greivings S. Integrated risk assessment of multi-hazards: a new methodology [J]. Natural and Technological Hazards and Risks Affecting The Spatial Development of European Regions, 2006, 42: 75-81.
[2]	Kappes M S. Multi-Hazard Risk Analysises: A Concept and Its Implementation[D]. Vienna: University of Vienna , 2011.
[3]	Enropean Commission. Risk Assessment and Mapping Guildelines for Disaster Management[R]. Brussels : European Union, 2011.
[4]	Bommer J J, Rodr guez E C. Earthquake-induced landslides in Central America [J]. Engineering Geology, 2002, 63: 189-220.
[5]	杨？？. 事件树分析法评估建筑物地震灾害风险 [J]. 自然灾害学报, 2008, 17(4): 147-151. YANG Junjun. Seismic hazard risk evaluation of building by event tree analysis [J]. Journal of Natural Disasters, 2008, 17(4): 147-151. (in Chinese)
[6]	Melanie S.K, Keiler M, Glade T. From single to multi-hazard risk analysis: a concept addressing emerging challenges[C]. Proceedings of The International Conference, 2010.
[7]	Helbing D. Globally networked risks and how to respond [J]. Nature, 2013, 497(7447): 51-59.
[8]	史培军. 三论灾害研究的理论与实践 [J]. 自然灾害学报, 2002, 11(3): 1-9. SHI Peijun. Theory on disaster science and disaster dynamics [J]. Journal of Natural Disasters, 2002, 11(3): 1-9.
[9]	Giulio Z, Mattia L. Volcanic crisis management and mitigation strategies: a multi-risk framework case study [J]. Earthzine, 2011, 4:402-405.
[10]	DHS. Integrated Rapid Visual Screening of Buildings[R]. Washington D.C : Department of Homeland Security, 2011.
[11]	韩传峰, 何臻, 马良河. 基于故障树分析的建设工程风险识别系统 [J]. 自然灾害学报, 2006, 15(5): 183-187. HAN Chuangfeng, HE Zhen, MA Lianghe. Fault tree anlysis-based risk recognition system for construction [J]. Journal of Natural Disasters, 2006, 15(5): 183-187.(in Chinese)
[12]	CEPREDENAC, the World Bank. CAPRA Portal (Central American Probilistic Risk Assessment)[EB/OL]. (2011)[2014] .http://www.ecapra.org/en/.
[13]	Tarvainen T, Jarva J, Greiving S. Spatial pattern of hazards and hazard interactions in Europe [J]. Geological Survey of Finland, 2006, 43: 83-91.
[14]	朱平一, 罗德富, 寇玉贞. 西藏古乡沟泥石流发展趋势 [J]. 山地学报, 1997, 15(4): 296-299. ZHU Pingyi, LUO Defu, KOU Yuzhen,. Debris flow development trend of Guxiang ravine, Xizang [J]. Journal of Mountain Research, 1997, 15(4): 296-299.(in Chinese)
[15]	苏鹏程, 韦方强, 冯汉中, 等. "8. 13"四川清平群发性泥石流灾害成因及其影响 [J]. 山地学报, 2011, 29(3): 337-347. SU Pengcheng, WEI Fangqiang, FENG Hanzhong, et al. Causes and effects of group-occurring debris flow disasters in Qingping Town, Mianyuan river upstream, Sichuan [J]. Journal of Mountain Science, 2011, 29(3): 337-347.(in Chinese)
[16]	Shi P J, Liu L Y, Wang J A, et al. Experiences and Lessons of Large-Scale Disaster Governance in China―Perspective to the Response of Wenchuan Earthquake Disaster May 12 2008[C]. IHDP 2009 Open Meeting, 2009.
[17]	Khazai B, Daniell J E, Wenzel F. The March 2011 Japan Earthquake. analysis of losses, impacts, and implications for the understanding of risks posed by extreme events [J]. Schwerpunkt, 2011, 20: 22-34.
[18]	Norio O, Ye T, Kajitani Y, et al. The 2011 eastern Japan great earthquake disaster: overview and comments [J]. International Journal of Disaster Risk Science, 2012, 2(1): 34-42.
[19]	Sigma. Natural catastrophes and man-made disasters in 2011:historic losses surface from record earthquake and floods. 2012 .(2011)[2014] . www.swissre.com/sigma.
[20]	Horsburgh K, Horritt M. The bristol channel floods of 1607-rconstruction and analysis [J]. Weather, 2006, 61(10): 272-278.
[21]	Morinaga Y, Tian S F, Shinoda M. Winter snow anomaly and atmospheric circulation in Mongolia [J]. International Journal of Climatology, 2003, 23(13): 1627-1636.
[22]	Batima P, Dagvadorj D. Climate Change and Its Impacts in Mongolia[R]. Ulaanbaatar: Mongolian National Agency for Meteorology, 2000.
[23]	赵润华, 江静. 江淮梅雨与西北太平洋台风的关系 [J]. 南京大学学报, 2009, 5(3): 365-376. ZHAO RunHua, JIANG Jing. Relationship between typhoon in the northwestern pacific and meiyu in the Yangtze and Huaihe valleys, eastern China [J]. Journal of Nanjing University: Natural Sciences, 2009, 5(3): 365-376.(in Chinese)
[24]	刘兰芳, 谭青山, 陈涛, 等. 湖南省2008年雨雪冰冻灾害形成机理分析 [J]. 水土保持研究, 2009, 16(3): 264-267. LIU Lanfang, TAN Qingshan, CHEN Tao, et al. Study on formation mechanism of snow frozen in 2008 in hunan province [J]. Research of Soil and Water Conservation, 2009, 16(3): 264-267.(in Chinese)
[25]	赵培娟, 邵宇翔, 李周, 等. 冻雨形成的天气条件分析 [J]. 气象与环境科学, 2008, 31(4): 36-39. ZHAO Peijuan, SHAO Yuxiang, LI Zhou, et al. Analysis of weather conditions of the freezing rain [J]. Meteorological and Environmental Sciences, 2008, 31(4): 36-39.(in Chinese)
[26]	方修琦, 叶瑜, 张向萍, 等. 历史气候变化与灾害分析 [M]// 在长江三角洲地区综合自然灾害风险评估研究―综合分析与制图. 史培军, 王静爱,等. 北京: 科学出版社, 2013:6-30. FANG Xiuqi, YE Yu, ZHANG Xiangping, et al. Climate Change and Disaster Analysis In Historical [M]// In The Integrated Natural Disaster Risk Evaluation in Yangzter River-Integrated Analysis and Mappping. SHI Peijun,WANG Jingai, et al. Beijing: Science Publisher, 2013:6-30.(in Chinese)
[27]	Shi P J, Jaeger C, Ye Q. Integrated Risk Governance: Science Plan and Case Studies of Large-scale Disasters [M]. Berlin Heidelberg: Springer-Verlag Berlin Heidelberg, 2013: 19-51.
[28]	UNEP. Agenda 21[EB/OL]. (1992)[2014] . http://sustainabledevelopment.un.org/content/documents/Agenda21.pdf.
[29]	FEMA. National Mitigation Strategy:Partnerships for Building Safer Communities[R]. Washington D.C: Federal Agency Management Agency, 1995.
[30]	UN. Johannesburg Plan of Implementation of the World Summit on Sustainable Development[EB/OL].(2002)[2014] . http://www.un.org/esa/sustdev/documents/WSSD_POI_PD/English/WSSD_PlanImpl.pdf.
[31]	UN-ISDR. Hyogo Framework for Action 2001-2015:Building the Resillience of Nations and Communities to Disasters[R]. Hyogo: World Conference on Disaster Reduction, 2005.
[32]	IPCC. Managing The Risks of Extreme Events and Disasters to Advance Climate Change Adaptation: Summery for Pollicymakers 2012[EB/OL]. (2012)[2014] . http://ipcc-wg2.gov/SREX/report/full-report/.
[33]	Kenneth H, Ian B. Hazardousness of A Place: A Regional Ecology of Damaging Events [M]. Toronto: Toronto Press, 1971:10-20.
[34]	樊晓一, 张友谊, 杨建荣. 汶川地震滑坡发育特征及其影响因素 [J]. 自然灾害学报, 2012, 21(1): 128-134. FAN Xiaoyi, ZHANG Youyi, YANG Jianrong. Developmental characteristics and influence factors of landslides in Wenchuan earthquake [J]. Journal of Natural Disasters, 2012, 21(1): 128-134.(in Chinese)
[35]	章淹, 张义民,白建强. 台风暴雨 [J]. 自然灾害学报, 1995(03): 15-22. ZHANG Yan, ZHANG Xingming, BAI Jianqiang. Torrential rains of typhoon [J]. Journal of Natural Disasters, 1995(03): 15-22.(in Chinese)
[36]	Perles M J, Prados F C. Problems and challenging in analyzing multiple territorial risks. methodological proposal for multi-hazard mapping [J]. Boletín de la Asociación de Geógrafos Espaoles, 2010, 52: 399-404.
[37]	史培军. 灾害研究的理论与实践 [J]. 南京大学学报, 1991, 11: 37-42. SHI Peijun. On the theory of disaster research and its practice [J]. Journal of Nanjing University, 1991, 11: 37-42.(in Chinese)
[38]	史培军. 再论灾害研究的理论与实践 [J]. 自然灾害学报, 1996, 5(4): 6-17. SHI Peijun.Theory and practice of disaster study[J]. Journal of Natural Disasters, 1996, 5(4): 6-17.(in Chinese)
[39]	史培军. 四论灾害系统研究的理论与实践 [J]. 自然灾害学报, 2005, 14(6): 1-7. SHI Peijun. Theory and practice on disaster system research in a fourth time [J]. Journal of Natural Disasters, 2005, 14(6): 1-7.(in Chinese)
[40]	史培军. 五论灾害系统研究的理论与实践 [J]. 自然灾害学报, 2009, 18(5): 1-9. SHI Peijun. Theory and practice on disaster system research in a fifth time [J]. Journal of Natural Disasters, 2009, 18(5): 1-9.(in Chinese)
[41]	Odeh Engineers Incorporation. State-wide Hazard Risk and Vulnerability Assessment for the State of Rhode Island[R]. Washington D.C :NoAA Coastal Service Center, 2001.
[42]	Thierry P, Stieltjes L, Kouokam E, et al. Multi-hazard risk mapping and assessment on an active volcano: the GRINP project at Mount Cameroon [J]. Natural Hazards, 2007, 45(3): 429-456.
[43]	王静爱, 史培军, 朱骊. 中国主要自然致灾因子的区域分异 [J]. 地理学报, 1994, 49(1): 18-26. WANG Jingai, SHI Peijun, ZHU Li. A research on regional distribution of major natural hazards in China [J]. Acta Geographica Sinica, 1994, 49(1): 18-26.(in Chinese)
[44]	杨萍, 侯威, 封国林. 中国极端气候事件的群发性规律研究 [J]. 气候与环境研究, 2010, 15(4): 365-370. YANG Ping, HOU Wei, FENG Guolin. A study of the characteristics of the cluster extreme events in China [J]. Climatic and Environmental Research, 2010, 15(4): 365-370.(in Chinese)
[45]	崔鹏, 韩用顺, 陈晓清. 汶川地震堰塞湖分布规律与风险评估 [J]. 四川大学学报: 工程科学版, 2009, 41(3): 35-42. CUI Peng, HAN Yongshun, CHEN Xiaoqing. Distribution and risk analysis of dammed lakes reduced by Wenchuan earthquake [J]. Journal of Sichuan University: Engineering Science Edition, 2009, 41(3): 35-42.(in Chinese)
[46]	Shi P J, Shuai J B, Chen W F, et al. Study on large-scale disaster risk assessment and risk transfer models [J]. International Journal of Disaster Risk Science, 2010, 1(2): 1-8.
[47]	抗震救灾专家组. 汶川地震灾害综合分析与评估 [M]. 北京: 科学出版社, 2008. Expert panel on earthquake emergency relief. Integrated Analysis and Evaluation of Wenchuan Earthquake [M]. Beijing: Science Publisher, 2008.(in Chinese)

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