Citation: | Yongdeng Lei, Jing'ai Wang, Lili Luo. Drought Risk Assessment of China's Mid-Season Paddy[J]. International Journal of Disaster Risk Science, 2011, 2(2): 32-40. doi: 10.1007/s13753-011-0009-4 |
Adger, W. N. 2006. Vulnerability. Global Environmental Change 16(3):268-281.
|
ADRC (Asian Disaster Reduction Center). 2005. Total Disaster Risk Management:Good Practice. Kobe, Japan:Asian Disaster Reduction Center.
|
Birkmann, J., ed. 2006. Measuring Vulnerability to Natural Hazards:Towards Disaster Resilient Societies. Tokyo:United Nations University Press.
|
——. 2007. Risk and Vulnerability Indicators at Different Scales:Applicability, Usefulness and Policy Implications. Environmental Hazards 7(1):20-31.
|
CAS (Chinese Academy of Sciences). 1989. China National Agricultural Atlas. Beijing:China Map Press (in Chinese).
|
Chen, X. H. 2009. China Agricultural Statistical Data. Beijing:China Agriculture Press (in Chinese).
|
China Meteorological Administration. 2006. Classification of Meteorological Drought Hazards (GBT20481-2006). Beijing:Standards Press of China (in Chinese).
|
Chinese Academy of Agricultural Sciences. 2010. Agridata. http://www.agridata.cn/(in Chinese).
|
Department of Cropping Administration, Ministry of Agriculture. 2010. Grain. http://zzys.agri.gov.cn/zzy_cn.aspx?filenum=cereals (in Chinese).
|
Ding, Y. H. 2008. China Meteorological Disasters Collection. Beijing:China Meteorological Press (in Chinese).
|
Fu, Z. B., and Z. G. Ma. 2008. Global Change and Regional Aridification. Atmospheric Sciences 32(4):752-760 (in Chinese, English summary).
|
IGSNRR, CAS (Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences). 2000. 1:1,000,000 China Land-Use Vector Format GIS Map.
|
IPCC (Intergovernmental Panel on Climate Change). 2007. Summary for Policymakers. In Climate Change 2007:Climate Change Impacts, Adaptation and Vulnerability. Cambridge:Cambridge University Press.
|
National Bureau of Statistics of China. 2001. China County and City Socioeconomic Statistical Yearbook. Beijing:China Statistics Press (in Chinese).
|
NDRCC (National Disaster Reduction Center of China). 2008. Monthly Bulletin of Disaster Conditions. Beijing (in Chinese).
|
Shi, P. J. 2002. Third Discussion on Theory and Practice for Systematic Studies on Disasters. Journal of Natural Disasters 11(3):1-9 (in Chinese, English summary).
|
——. 2005. Fourth Discussion on Theory and Practice for Systematic Studies on Disasters. Journal of Natural Disasters 14(6):1-7 (in Chinese, English summary).
|
——. 2009. Fifth Discussion on Theory and Practice for Systematic Studies on Disasters. Journal of Natural Disasters 18(5):1-9 (in Chinese, English summary).
|
UNDP (United Nations Development Program). 2004. Reducing Disaster Risk:A Challenge for Development. Geneva:United Nations Development Program.
|
Wang, J. A., Y. X. Shang, Y. Su, Z. Q. Wang, and C. Y. Yang. 2005. Vulnerability Diagnosis of Disaster-Affected Body of Agricultural Drought in China and Regional Sustainable Development. Journal of Beijing Normal University (Social Sciences) 2005(3):130-137 (in Chinese, English summary).
|
Wang, J. A., H. Sun, W. Xu, and J. J. Zhou. 2002. The Temporal-Spatial Changes of Drought Disasters in China over the Last 5 Decades. Journal of Natural Disasters 11(2):1-6 (in Chinese, English summary).
|
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