1 |
Huang Chongfu. A discussion on basic definition of natural disaster[J]. Journal of Natural Disasters, 2009, 18(5): 41-50.
|
|
黄崇福. 自然灾害基本定义的探讨[J]. 自然灾害学报, 2009, 18(5): 41-50.
|
2 |
Okada N, Tatano H, Hagihara Y, et al. Integrated research on methodological development of urban diagnosis for disaster risk and its applications[J]. Disaster Prevention Research Institute Annuals, 2004, 47(C): 1-8.
|
3 |
Guha-Sapir D, Below R, Hoyois P. EM-DAT: international disaster database[J]. Catholic University of Louvain: Brussels, Belgium, 2015, 27: 57-58.
|
4 |
Chen Yong, Shi Peijun. Natural disasters[M]. 2nd. Beijing: Beijing Normal University Press, 2008.
|
|
陈颙, 史培军. 自然灾害[M]. 2版. 北京: 北京师范大学出版社, 2008.
|
5 |
Shi Peijun, Lili Lü, Wang Ming, et al. Disaster system: disaster cluster,disaster chain and disaster compound[J]. Journal of Natural Disasters, 2014, 23(6): 1-12.
|
|
史培军, 吕丽莉, 汪明, 等. 灾害系统: 灾害群、灾害链、灾害遭遇[J]. 自然灾害学报, 2014, 23(6): 1-12.
|
6 |
Shi Peijun. Natural disasters in China[M]. BNUP and Springer Press, 2016.
|
7 |
Liao Yongfeng, Zhao Fei, Wang Zhiqiang, et al. Spatial pattern analysis of natural disasters in China from 2000 to 2011[J]. Journal of Catastrophology, 2013, 28(4): 55-60.
|
|
廖永丰, 赵飞, 王志强, 等. 2000—2011年中国自然灾害灾情空间分布格局分析[J]. 灾害学, 2013, 28(4): 55-60.
|
8 |
Wu Jidong, Fu Yu, Zhang Jie, et al. Meteorological disaster trend analysis in China: 1949-2013[J]. Journal of Natural Resources, 2014, 29(9): 1520-1530.
|
|
吴吉东, 傅宇, 张洁, 等. 1949—2013年中国气象灾害灾情变化趋势分析[J]. 自然资源学报, 2014, 29(9): 1520-1530.
|
9 |
Guan Yinghui, Zheng Fenli, Zhang Peng, et al. Spatial and temporal changes of meteorological disasters in China during 1950-2013[J]. Natural Hazards, 2015, 75(3): 2607-2623.
|
10 |
Zhang Yili, Li Bingyuan, Zheng Du. Database boundary and area of the Tibetan Plateau (DBATP)[EB/OL]. Global Change Scientific Research Data Publishing System, 2014. DOI:10.3974/geodb.2014.01.12.V1.
doi: 10.3974/geodb.2014.01.12.V1
|
|
张镱锂, 李炳元, 郑度. 青藏高原范围与界线地理信息系统数据(DBATP)[EB/OL]. 全球变化科学研究数据出版系统, 2014. DOI:10.3974/geodb.2014.01.12.V1.
doi: 10.3974/geodb.2014.01.12.V1
|
11 |
Zhang Jicheng. Study on comprehensive assessment of eco-environment based on RS/GIS in the Qinghai-Tibet plateau[D]. Changchun: Jilin University, 2008.
|
|
张继承. 基于RS/GIS的青藏高原生态环境综合评价研究[D]. 长春: 吉林大学, 2008.
|
12 |
You Lianyuan, Yang Jingchun. Geomorphology of China[M]. Beijing: Science Press, 2013.
|
|
尤联元, 杨景春. 中国地貌[M]. 北京: 科学出版社, 2013.
|
13 |
Pepin N, Bradley R S, Diaz H F, et al. Elevation-dependent warming in mountain regions of the world[J]. Nature Climate Change, 2015, 5(5): 424-430.
|
14 |
Liu Xiaodong, Cheng Zhigang, Yan Libin, et al. Elevation dependency of recent and future minimum surface air temperature trends in the Tibetan Plateau and its surroundings[J]. Global and Planetary Change, 2009, 68(3): 164-174.
|
15 |
Wei Yanqiang, Lu Haiyan, Wang Jinniu, et al. Responses of vegetation zones, in the Qinghai-Tibetan Plateau, to climate change and anthropogenic influences over the last 35 years[J]. Pratacultural Science, 2019, 36(4): 1163-1176, 927.
|
|
魏彦强, 芦海燕, 王金牛, 等. 近35年青藏高原植被带变化对气候变化及人类活动的响应[J]. 草业科学, 2019, 36(4): 1163-1176, 927.
|
16 |
Deng Haijun, Pepin N C, Chen Yaning. Changes of snowfall under warming in the Tibetan Plateau[J]. Journal of Geophysical Research: Atmospheres, 2017, 122(14): 7323-7341.
|
17 |
Climate Change Center, China Meteorological Administration. Blue book on climate change in China (2019)[M]. Beijing: Science Press, 2019.
|
|
中国气象局气候变化中心. 中国气候变化蓝皮书(2019)[M]. 北京: 科学出版社, 2019.
|
18 |
Xu Jianwei, Gao Yanhong, Peng Baofa, et al. Change characteristics of precipitation and its cause during 1979-2016 over the Qinghai-Tibetan Plateau[J]. Plateau Meteorology, 2020, 39(2): 234-244.
|
|
许建伟, 高艳红, 彭保发, 等. 1979—2016年青藏高原降水的变化特征及成因分析[J]. 高原气象, 2020, 39(2): 234-244.
|
19 |
Qin Dahe. Introduction to Cryosphere Science (revised edition)[M]. Beijing: Science Press, 2018.
|
|
秦大河. 冰冻圈科学概论(修订版)[M]. 北京: 科学出版社, 2018.
|
20 |
Yao Tandong, Thompson L, Yang Wei, et al. Different glacier status with atmospheric circulations in Tibetan Plateau and surroundings[J]. Nature Climate Change, 2012, 2(9): 663-667.
|
21 |
Wang Kang, Zhang Tingjun, Mu Cuicui, et al. From the Third Pole to the Arctic: changes and impacts of the climate and cryosphere[J]. Journal of Glaciology and Geocryology, 2020, 42(1): 104-123.
|
|
王康, 张廷军, 牟翠翠, 等. 从第三极到北极: 气候与冰冻圈变化及其影响[J]. 冰川冻土, 2020, 42(1): 104-123.
|
22 |
Ye Qinghua, Cheng Weiming, Zhao Yongli, et al. A review on the research of glacier changes on the Tibetan Plateau by remote sensing technologies[J]. Journal of Geo-Information Science, 2016, 18(7): 920-930.
|
|
叶庆华, 程维明, 赵永利, 等. 青藏高原冰川变化遥感监测研究综述[J]. 地球信息科学学报, 2016, 18(7): 920-930.
|
23 |
Wang Shijin, Wang Zhoufeng. Comprehensive risk assessment and management of glacial lake outburst flood disaster: a case study of the Himalayas of China[M]. Beijing: China Social Sciences Press, 2017.
|
|
王世金, 汪宙峰. 冰湖溃决灾害综合风险评估与管控: 以中国喜马拉雅山区为例[M]. 北京: 中国社会科学出版社, 2017.
|
24 |
Che Tao, Hao Xiaohua, Dai Liyun, et al. Snow cover variation and its impacts over the Qinghai-Tibet plateau[J]. Bulletin of Chinese Academy of Sciences, 2019, 34(11): 1247-1253.
|
|
车涛, 郝晓华, 戴礼云, 等. 青藏高原积雪变化及其影响[J]. 中国科学院院刊, 2019, 34(11): 1247-1253.
|
25 |
Bai Shuying, Shi Jianqiao, Gao Jixi, et al. Analysis of spatial-temporal variations of snow depth over the Qinghai-Tibetan Plateau during 1979—2010[J]. Journal of Geo-Information Science, 2014, 16(4):628-637.
|
|
白淑英, 史建桥, 高吉喜, 等. 1979—2010年青藏高原积雪深度时空变化遥感分析[J]. 地球信息科学学报, 2014, 16(4):628-637.
|
26 |
Duan Anmin, Xiao Zhixiang, Wu Guoxiong. Characteristics of climate change over the Tibetan Plateau under the global warming during1979-2014[J]. Climate Change Research, 2016, 12(5): 374-381.
|
|
段安民, 肖志祥, 吴国雄. 1979—2014年全球变暖背景下青藏高原气候变化特征[J]. 气候变化研究进展, 2016, 12(5): 374-381.
|
27 |
Zhao Lin, Cheng Guodong, Ding Yongjian. Studies on frozen ground of China[J]. Journal of Geographical Sciences, 2004, 14(4): 411-416.
|
28 |
Wu Tonghua, Li Shuxun, Cheng Guodong, et al. Using ground-penetrating radar to detect permafrost degradation in the northern limit of permafrost on the Tibetan Plateau[J]. Cold Regions Science and Technology, 2005, 41(3): 211-219.
|
29 |
Ran Youhua, Li Xin, Cheng Guodong. Climate warming over the past half century has led to thermal degradation of permafrost on the Qinghai–Tibet Plateau[J]. The Cryosphere, 2018, 12(2): 595-608.
|
30 |
Zhao Lin, Hu Guojie, Zou Defu, et al. Permafrost changes and its effects on hydrological processes on Qinghai-Tibet plateau[J]. Bulletin of Chinese Academy of Sciences, 2019, 34(11): 1233-1246.
|
|
赵林, 胡国杰, 邹德富, 等. 青藏高原多年冻土变化对水文过程的影响[J]. 中国科学院院刊, 2019, 34(11): 1233-1246.
|
31 |
Jin Fengjun, Liu Yi. Threshold study on transportation and industrial development in Qinghai-Tibet Plateau[J]. Journal of Natural Resources, 2000, 15(4): 363-368.
|
|
金凤君, 刘毅. 青藏高原产业发展的交通运输门槛研究[J]. 自然资源学报, 2000, 15(4): 363-368.
|
32 |
Development and Reform Commission of Tibet Autonomous Region. Compilation of national economic and social development plans of Tibet Autonomous Region during the 12th Five Year Plan Period[M]. Tibet: Development and Reform Commission of Tibet Autonomous Region, 2012.
|
|
西藏自治区发展和改革委员会. 西藏自治区“十二五”时期国民经济和社会发展规划汇编[M]. 西藏: 西藏自治区发展和改革委员会, 2012.
|
33 |
Zhang Shoucheng. Compilation of the 12th Five Year Plan for national economic and social development of Qinghai Province[M]. Xi’ning: Qinghai People's Publishing House, 2012.
|
|
张守成. 青海省国民经济和社会发展第十二个五年规划汇编[M]. 西宁: 青海人民出版社, 2012.
|
34 |
Deng Qidong, Zhang Peizheng, Ran Yongkang, et al. Basic characteristics of active tectonics in China[J]. Science in China (D Series), 2002, 32(11): 1020- 1030.
|
|
邓起东, 张培震, 冉勇康, 等. 中国活动构造基本特征[J]. 中国科学(D辑), 2002, 32(11): 1020-1030.
|
35 |
Deng Qidong, Cheng Shaoping, Ma Ji, et al. Seismic activities and earthquake potential in the Tibetan Plateau[J]. Chinese Journal of Geophysics, 2014, 57(7): 2025-2042.
|
|
邓起东, 程绍平, 马冀, 等. 青藏高原地震活动特征及当前地震活动形势[J]. 地球物理学报, 2014, 57(7): 2025-2042.
|
36 |
Iverson R M. The physics of debris flows[J]. Reviews of Geophysics, 1997, 35(3): 245-296.
|
37 |
Liu Chuanzheng. Genetic types of landslide and debris flow disasters in China[J]. Geological Review, 2014, 60(4): 858-868.
|
|
刘传正. 中国崩塌滑坡泥石流灾害成因类型[J]. 地质论评, 2014, 60(4): 858-868.
|
38 |
Zhou Fujun. Early intelligence indentificaition methods of stability and fuzzy synthetic prediction of hazard for landslides in rimian hydropower station reservoir[D]. Changchun: Jilin University, 2013.
|
|
周福军. 日冕水电站库区滑坡稳定性早期智能判别及危害模糊综合预测研究[D]. 长春: 吉林大学, 2013.
|
39 |
Shan Bo. Reservoir bank geological disaster susceptibility assessment and study on zoning of disaster risk in benzilan water-source reservoir area based on 3S technology[D]. Changchun: Jilin University, 2014.
|
|
单博. 基于3S技术的奔子栏水源地库区库岸地质灾害易发性评价及灾害风险性区划研究[D]. 长春: 吉林大学, 2014.
|
40 |
China Aero Geophysical Survey and Remote Sensing Center for Land and Resources. Distribution characteristics of geological hazards in the Qinghai Tibetan Plateau [EB/OL]. , 2014.
|
|
中国地调局航遥中心. 青藏高原地质灾害分布特征 [EB/OL]. , 2014.
|
41 |
Wang Shijin, Qin Dahe, Xiao Cunde. Moraine-dammed lake distribution and outburst flood risk in the Chinese Himalaya[J]. Journal of Glaciology, 2015, 61(225): 115-126.
|
42 |
Wang Shijin, Yang Yuande, Gong Wenyu, et al. Reason analysis of the Jiwenco glacial lake outburst flood (GLOF) and potential hazard on the Qinghai-Tibetan Plateau[J]. Remote Sensing, 2021, 13(16): 3114.
|
43 |
Wang Shijin, Che Yanjun, Ma Xinggang. Integrated risk assessment of glacier lake outburst flood (GLOF) disaster over the Qinghai-Tibetan Plateau (QTP)[J]. Landslides, 2020, 17(12): 2849-2863.
|
44 |
Wang Shijin, Wei Yanqiang, Fang Miao. Integrated risk assessment of snow disaster in the Three Rivers Source Region, China[J]. Acta Prataculturae Sinica, 2014, 23(2): 108-116.
|
|
王世金, 魏彦强, 方苗. 青海省三江源牧区雪灾综合风险评估[J]. 草业学报, 2014, 23(2): 108-116.
|
45 |
Wang Shijin, Zhou Lanyue, Wei Yanqiang. Integrated risk assessment of snow disaster over the Qinghai-Tibet Plateau[J]. Geomatics, Natural Hazards and Risk, 2019, 10(1): 740-757.
|
46 |
Wen Jiahong, Shi Yong, Du Shiqiang. Natural disaster risk[M]. Beijing: Science Press, 2018.
|
|
温家洪, 石勇, 杜士强. 自然灾害风险分析与管理导论[M]. 北京: 科学出版社, 2018.
|
47 |
Wen Jiahong, Wang Shijin. Cryosphere disaster science[M]. Beijing: Science Press, 2020.
|
|
温家洪, 王世金. 冰冻圈灾害学[M]. 北京: 科学出版社, 2020.
|
48 |
Committee I.A.S. Disaster risk reduction strategies and risk management practices: critical elements for adaptation to climate change [J]. Inter-Agency, 2008:1-15.
|
49 |
Pareta K. and Pareta U. Developing a national database framework for natural disaster risk management[C]//Proceedings in ESRI International User Conference, San Diego, California. 2011.
|
50 |
Wang Qian. Studies on China’s natural disaster manamgent system and disaster information sharing model[D]. Beijing: China University of Geosciences, 2010.
|
|
王倩. 我国自然灾害管理体制与灾害信息共享模型研究[D]. 北京: 中国地质大学(北京), 2010.
|
51 |
Wang Xiujuan. A comparing research on natural disaster management system at home and abroad[D]. Lanzhou: Lanzhou University, 2008.
|
|
王秀娟. 国内外自然灾害管理体制比较研究[D]. 兰州: 兰州大学, 2008.
|
52 |
Zhang Yongli. Research on the multi-disaster integrated predition & pre-warning and decision support system[D]. Beijing: Tsinghua University, 2010.
|
|
张永利. 多灾种综合预测预警与决策支持系统研究[D]. 北京: 清华大学, 2010.
|
53 |
Zhang Jiquan, Norio Okada, Hirokazu Tatano. Integrated natural disaster risk management: comprehensive and integrated model and Chinese strategy choice[J]. Journal of Natural Disasters, 2006, 15(1): 29-37.
|
|
张继权, 冈田宪夫, 多多纳裕一. 综合自然灾害风险管理——全面整合的模式与中国的战略选择[J]. 自然灾害学报, 2006, 15(1): 29-37
|
54 |
Freeman P, Martin L, Linnerooth-Bayer J, et al. Disaster risk management: national systems for the comprehensive management of disaster risk financial strategies for natural disaster reconstruction[R].
|
|
Washington, D.C: Inter-American Development Bank, 2003.
|
55 |
Prabhakar S, Pereira J, Pulhin J, et al. Effectiveness of insurance for disaster risk reduction and climate change adaptation: Challenges and opportunities[R]. IGES Research Report, Publisher: IGES, 2014.
|
56 |
Cardona O. Indicators of disaster risk and risk management: Summary report[R].
|
|
Washington, D.C: Inter-American Development Bank, 2005.
|
57 |
Cui Peng, Jia Yang, Su Fenghuan, et al. Natural hazards in Tibetan Plateau and key issue for feature research[J]. Bulletin of Chinese Academy of Sciences, 2017, 32(9): 985-992.
|
|
崔鹏, 贾洋, 苏凤环, 等. 青藏高原自然灾害发育现状与未来关注的科学问题[J]. 中国科学院院刊, 2017, 32(9): 985-992.
|
58 |
Niu Fujun, Ma Wei, Wu Qingbai. Thermal stability of roadbeds of the Qinghai-Tibet Railway in permafrost regions and the main freezing-thawing hazards[J]. Journal of Earth Sciences and Environment, 2011, 33(2): 196-206.
|
|
牛富俊, 马巍, 吴青柏. 青藏铁路主要冻土路基工程热稳定性及主要冻融灾害[J]. 地球科学与环境学报, 2011, 33(2): 196-206.
|
59 |
Luo Jing, Niu Fujun, Lin Zhanju, et al. Recent acceleration of thaw slumping in permafrost terrain of Qinghai-Tibet Plateau: an example from the Beiluhe region[J]. Geomorphology, 2019, 341: 79-85.
|
60 |
Wu Guangjian, Yao Tandong, Wang Weicai, et al. Glacial hazards on Tibetan Plateau and surrounding alpines[J]. Bulletin of the Chinese Academy of Sciences, 2019, 34(11): 1285-1292.
|
|
邬光剑, 姚檀栋, 王伟财, 等. 青藏高原及周边地区的冰川灾害[J]. 中国科学院院刊, 2019, 34(11): 1285-1292.
|
61 |
Wang Shijin. Comprehensive risk assessment and control of multiple natural disasters in Qinghai-Tibet Plateau[M]. Beijing: Science Press, 2021.
|
|
王世金. 青藏高原多灾种自然灾害综合风险评估与管控[M]. 北京: 科学出版社, 2021.
|