收稿日期: 2010-01-04
修回日期: 2010-12-02
网络出版日期: 2011-01-10
基金资助
国家重点基础研究发展计划项目“气候变化对我国东部季风区陆地水循环与水资源安全的影响及适应对象”(编号:2010CB428406);水利部公益性项目“气候变化对我国水安全影响及对策研究”(编号:20080100107)资助.
Opportunity and Challenge of the Climate Change Impact on the Water Resource of China
Received date: 2010-01-04
Revised date: 2010-12-02
Online published: 2011-01-10
气候变化对水资源安全的影响是国际上普遍关心的全球性问题,也是我国可持续发展面临的重大战略问题。在文献综述基础上,总结提出气候变化与水循环是国际全球变化与水科学领域的重大交叉前沿科学问题之一。针对我国严峻的水资源问题和气候变化影响的巨大风险,提出科学基础研究面临的机遇和挑战,其中包括关键的科学问题和需要重点开展基础研究的问题。分析表明:水循环要素变化的检测与归因已成为国内外研究的难点;定量分析和预估水文的不确定性是国际上的难题;气候变化下水循环响应研究正从大气到水文的单向连接向水文—气候作用与反馈的方向发展;水资源脆弱性已成为应对气候变化、保障水资源安全重点关注的问题。气候变化挑战传统水文理论假定,包括分析和预估水文变化所面临的区域分异性、不确定性和水文极值等问题。开展气候变化与水资源影响及其适应对策研究,将是21世纪我国水科学及水资源领域面临的重大科学技术问题。
夏军,刘春蓁,任国玉 . 气候变化对我国水资源影响研究面临的机遇与挑战[J]. 地球科学进展, 2011 , 26(1) : 1 -12 . DOI: 10.11867/j.issn.1001-8166.2011.01.0001
The impact of climate change on water resources security is a challenging issue with widespread concern globally. It is as well the great strategic issue in the national sustainable development of China. Based on a wide review of related research, it is concluded that the research of climate change impact on the water cycle is one of the most exiting research perspectives in the study of relationship of climate change and water science. Due to the serious water resource situation plus climate change influence, the challenge and opportunity of the basic research work in the climate change impact on water resource were given. The climate change and water cycle study is the international forefront in the area of climatology, meteorology and hydrology. The detection and attribution of water cycle components change have become the international challenging problems, as well as the quantitative analysis and prediction of the uncertainties in a hydrological system; the research of water cycle response to climate change is developing from offline hydrologic simulations to coupling climate change with hydrological dynamics; study of the water resources vulnerability has become a key problem to deal with climate change and secure the water resources security. In the circumstances of the climate change, it is necessary to reexamine the hypotheses in traditional hydrological theories, as well as the spatial variability, uncertainty and hydrological extremes in regional hydrological studies. Carrying out the research of climate change impact on water resource and adoption measures is one of the biggest scientific problems of water sciences and water resource in the 21 century.
Key words: Climate change; Water resource security; China
[1]IPCC. Climate Change 2007The Physical Science Basis[M].Contribution of Working Group I to the Third Assessment Report of the IPCC. Solomon S, Qin D, et al,eds. Cambridge: Cambridge University Press,2007.
[2]Bates B C, Kundzewicz Z W, Wu S,et al. Climate Change and Water[M]. Technical Paper of the Intergovernmental Panel on Climate Change, IPCC Secretariat, Geneva, 2008.
[3]Chen Lei. Social and economical sustainable development guarantee by serious system of water resources management[EB/OL]. Presentation in working meeting of water resources of China,2009.http:∥www.mwr.gov.cn/xwpd/slyw/20090214214359540317.aspx.[陈雷.实行最严格的水资源管理制度保障经济社会可持续发展[EB/OL].在全国水资源工作会议上的讲话,2009. http:∥www.mwr.gov.cn/xwpd/slyw/20090214214359540317.aspx.
[4]Arnell N, Liu C. ‘Hydrology and Water Resources’: In Climate Change 2001[M]∥Impacts, Adaptation, and Vulnerability. Intergovernmental Panel on Climate Change.Cambridge: Cambridge University Press, 2001.
[5]Xia Jun, Tan Ge. Hydrological science towards global change: Progress and challenge[J].Resources Science,2002, 24 (3): 1-7.[夏军, 谈戈. 全球变化与水文科学新的进展与挑战[J]. 资源科学, 2002, 24 (3): 1-7.]
[6]UN. The 3rd United Nations World Water Development Report: Water in a Changing World (WWDR-3)[R].2009.
[7]International GEWEX Project Office (IGPO). About GEWEX[EB/OL].http:∥www. gewex.org/gewex_overview.html,2004-12-01.
[8]Biospheric aspects of the hydrological cycle: Highlights of the research synthesis conducted under the umbrella of IGBPBAHC and WCRPGEWX/ISLSCP international projects[R]. Dutch National Research Programme on Global Air Pollution and Climate Change RIVM Report,2002.
[9]The Global Water System Project (GWSP). Science Framework and Implementation Activities[R]. Earth System Science Partnership (DIVERSITAS, IGBP, IHDP, WCRP) Report,2005.
[10]United Nations Educational, Scientific and Cultural Organization. International Hydrological Programme(UNESCO-IHP)[EB/OL].http:∥www.unesco.org/water/ihp/,2008.
[11]Labat D, Godderis Y, Probst J L,et al. Evidence for global runoff increase related to climate warming[J]. Advances in Water Resources,2004, 27(6): 631-642.
[12]Legates D R, Lins H F, McCabe G J. Comments on “evidence for global runoff increase related to climate warming” by lab arterial[J].Advances in Water Resources,2005, 20 (12): 1 310-1 315.
[13]IPCC. Climate Change 1990: The IPCC Impacts Assessment[M].Canberra, Australia: Australian Government Publishing Service, 1990.
[14]IPCC. ClimateChange 1995: The Science of Climate Change[M]. Contribution of Working Group I to the Second Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK and New York, USA: Cambridge University Press, 1996.
[15]IPCC. Climate Change 2001: The Scientific Basis[M]. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK and New York, USA:Cambridge University Press, 2001.
[16]IPCC. Climate Change 2001: Impacts, Adaptation, and Vulnerability[M]. Contribution of Working Group II to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK and New York, USA: Cambridge University Press, 2001.
[17]Milly P C D, Dunne K A, Vecchia A V. Global pattern of trends in streamflow and water availability in a changing climate[J].Nature,2005,(438): 347-350.[18]Milly P C D, Wetherald R T, Dunne K A,et al. Increasing risk of great floods in a changing climate[J].Nature,2002,(415): 514-517.
[19]Taylor K.IPCC Coupled Model Output for Working Group 1[M]. Workshop on Analysis of Climate Model Simulations for IPCC AR4, Honolulu, Hawaii, 2005.
[20]Coquard J, Duffy P B, Taylor K E. Simulations of western U.S. surface climate in 15 global climate models[J].Climate Dynamics,2004,(23): 455-472.[21]Covey C, AchutaRao K M, Cubasch U, et al. An overview of results from the coupled model intercomparison project[J].Global Planet Change, 2003,(37): 103-133.
[22]Krishnamurti T N, Kishtawal C M, LaRow T E, et al. Improved weather and seasonal climate forecast from multimodel superensemble[J].Science,1999,285:1 548-1 550.
[23]Gates W L, Boyle J S, Covey C C, et al. An overview of the results of the Atmospheric Model Intercomparison Project (AMIP I)[J]. Bulletin of the American Meteorological Society,1999,(73):1 962-1 970.
[24]Barnston A G, Mason S J, Goddard L, et al. Multimodel ensembling in seasonal climate forecasting at IRI, Bull[J].American Meteorological Society,2003,(84):1 783-1 796.
[25]Raftery A E, Balabdaoui F, Gneiting T,et al. Using bayesian model averaging to calibrate forecast ensembles[R]. Technical Report no. 440, Deptment of Statistics, University of Washington, Seattle, 2003.
[26]Georgakakos K P, Seo D J, Gupta H,et al. Towards the characterization of streamflow simulation uncertainty through multimodel ensembles[J].Journal of Hydrology,2004,298:222-241.
[27]Duan Qingyun, Ajami N K, Gao Xiaogang, et al. Multimodel hydrologic ensemble predictions using bayesian model averaging[J].Advances in Water Resources,2007,(30):1 371-1 385.
[28]Semenov M A, Brooks R J. Spatial interpolation of the LARSWG stochastic weather generator in great Britain[J].Climate Research,1999,(11):137-148.
[29]Xia J.A stochastic weather generator applied to hydrological model in climate impact analysis[J].Journal of Theoretical and Applied Climatology,1996,55:177-183.
[30]Xia J, Huang G H, Brad B. Combination of differented prediction approach and interval analysis for the prediction of weather variables under uncertainty[J].Journal of Environmental Management,1997, 49(1): 95-106.
[31]Wilby R L, Wigley T M L. Precipitation predictors for downscaling: Observed and general circulation model relationships[J].International Journal of Climatology,2000,(20): 641-661.
[32]Liu Chunzhen. The issues in the impact study of climate change on the terrestrial hydrological cycle[J].Advances in Earth Science,2004,19(1):115-119.[刘春蓁.气候变化对陆地水循环影响研究的问题[J].地球科学进展,2004,19(1):115-119.]
[33]Liu Chunzhen. The advances in studying detection of streamflow trend influenced by climate change[J]. Advances in Earth Science,2007,22(8):777-783.[刘春蓁.气候变化对江河流量变化趋势影响研究进展[J].地球科学进展,2007,22(8):777-783.]
[34]Zhang Jianyun, Liu Jiufu. An Assessment model of climate abnormality impact on water resources[J]. Advances in Water Sciences,2000,11:1-9.[张建云, 刘九夫.气候异常对水资源影响评估分析模型[J].水科学进展, 2000,11:1-9.]
[35]Zhang Jianyun, Wang Guoqing. Climate Change Impacting on Hydrology and Water Resources[M]. Beijing: Science Press, 2007.[张建云, 王国庆. 气候变化对水文水资源影响研究[M].北京: 科学出版社, 2007.]
[36]Qin Dahe,Ding Yihui, Su Jilan. Climate and Environment Change of China[M]. Beijing:Science Press,2005.[秦大河, 丁一汇, 苏纪兰. 中国气候与环境演变(上卷)[M]. 北京: 科学出版社,2005.]
[37]Chen Yiyu, Ding Yongjian, She Zhixiang, et al. Climate and environment change in China[M].Beijing: Science Press, 2005.[陈宜瑜,丁永建,佘之祥,等.中国气候与环境演变(下卷)[M].北京:科学出版社, 2005.]
[38]Working Group of Climate Change Investigation. Investigation of Climate Change of China[M]. Beijing:Science Press,2007.[气候变化国家评估报告编写组.气候变化国家评估报告[M].北京:科学出版社,2007.]
[39]Ren Guoyu. Climate Change and Water Resource in China[M].Beijing: Meteorology Press,2007.[任国玉. 气候变化与中国水资源[M]. 北京: 气象出版社,2007.]
[40]Ye Duzheng, Huang Ronghui. Investigation on Characteristics and Reasons of Drought and Flood in Yellow and Yangtze River Basin[M]. Ji′nan: Science and Technology Press of Shandong Province, 1996.[叶笃正,黄荣辉.黄河长江流域旱涝规律和成因研究\[M\].济南:山东科学技术出版社, 1996.]
[41]Fu Congbin, An Zhisheng, Guo Weidong. Evolution of lifesupportiong environment in our nation and the predictive study of aridification in northern China(I):Main scientific issues and achievements[J]. Advances in Earth Science,2005, 20 (11):1 168-1 175.[符淙斌, 安芷生, 郭维栋. 中国生存环境演变和北方干旱化趋势预测研究(Ⅰ): 主要研究成果[J]. 地球科学进展, 2005, 20 (11): 1 168-1 175.]
[42]Ding Yihui, Ren Guoyu, Shi Guangyu, et al. National assessment report of climate change (I): Climate change in China and its future trend[J].Advances in Climate Change Research,2006,2(1):3-8.[丁一汇,任国玉,石广玉,等.气候变化国家评估报告(I):中国气候变化的历史和未来趋势[J].气候变化研究进展, 2006,2(1):3-8.]
[43]Ding Yihui, Ren Guoyu. A Brief Survey on the Climate Change of China[M]. Beijing: Meteorology Press,2008.[丁一汇,任国玉.中国气候变化科学概论\[M\].北京:气象出版社,2008.]
[44]Chen Zhikai. Continue dryness and water crisis in northern China[J].China Water Resources,2002,(4):8-11.[陈志恺. 持续干旱与华北水危机[J].中国水利,2002,(4):8-11.]
[45]Liu Changming. Study of some problems in water cycle changes of the Yellow river basin[J].Advances in Water Science,2004, 15(5):608-614.[刘昌明.黄河流域水循环演变若干问题的研究[J].水科学进展, 2004, 15(5):608-614.]
[46]Qian Zhengying, Shen Guofang, Shi Yulin. Study on Several Issues of Soil and Water Optimazition, Ecology and Environment Protection and Sustainable Development in Northeastern of China[M]. Beijing:Science Press,2007.[钱正英, 沈国舫, 石玉林. 东北地区有关水土资源配置、生态与环境保护和可持续发展的若干战略问题研究(综合卷)[M]. 北京: 科学出版社, 2007.]
[47]Qiu Xinfa, Liu Changming, Zeng Yan. Changes of pan evaporation in the recent 40 years over the Yellow river basin[J].Journal of Natural Resources,2003,18(4):437-442.[邱新法,刘昌明,曾燕.黄河流域近40年蒸发皿蒸发量的气候变化特征[J].自然资源学报,2003,18(4):437-442.]
[48]Yang Jianping, Ding Yongjian, Chen Rensheng,et al. Variations of precipitation and evaporation in north China in recent 40 years[J].Journal of Arid Land Resources & Environment,2003,17(2):6-11.[杨建平,丁永建,陈仁升,等.近40a中国北方降水量与蒸发量变化[J].干旱区资源与环境,2003,17(2):6-11.]
[49]Liu B, Xu M, Mark H,et al. A spatial analysis of pan evaporation trends in China,1955-2000[J].Journal of Geophysical Research,2005,109:1-9.
[50]Ren Guoyu, Guo Jun. Change in panevapotranspiration of China[J].Journal of Nature Resources,2006,21(1):31-44.[任国玉, 郭军.中国水面蒸发量的变化[J].自然资源学报, 2006, 21(1): 31-44.]
[51]Wang Guoqing, Wang Yunzhang, Kang Lingling. Analysis on the sensitivity of runoff in Yellow reiver to climate change[J].Quarterly Journal of Applied Meteorlolgy,2002,13(1):117-121.[王国庆,王云璋,康玲玲.黄河上中游径流对气候变化的敏感性分析[J]. 应用气象学报,2002,13(1):117-121.]
[52]Xia Jun, Thomas Tanner, Ren Guoyu,et al. Potential impacts of climate change on water resources in China: Screening for adaptation and management[J].Advances in Climate Change Research,2008,4(4):215-219. [夏军,Thomas Tanner,任国玉,等.气候变化对中国水资源影响的适应性评估与管理框架[J].气候变化研究进展,2008,4(4):215-219.]
[53]Lin Erda, Xu Yinlong, Jiang Jinhe,et al. National assessment report of climate change (Ⅱ): Climate change impacts and adaptation[J].Advances in Climate Change Research,2006,2(2):51-56.[林而达, 许吟隆, 蒋金荷,等.气候变化国家评估报告(Ⅱ):气候变化的影响与适应[J].气候变化研究进展,2006,2(2):51-56.]
[54]Wang Shourong,Cheng Lei. Studies on impacts of climate change on water cycle and water resources in northwest China[J].Climatic and Environmental Research,2003,8(1):43-51.[王守荣, 程磊.气候变化对西北水循环和水资源影响的研究[J].气候与环境研究,2003,8(1):43-51.]
[55]Liu Xinren. Soil moisture problems in the landatmospheric coupling[J].Advances in Water Science,1996,7:32-39.[刘新仁. 陆气耦合中的土壤水问题[J].水科学进展,1996,7:32-39.]
[56]Yong Bin, Zhang Wanchang, Liu Chuansheng. Advances in the coupling study of hydrological models and landsurface models[J].Journal of Glaciology and Geocryology,2006,(6):53-59.[雍斌,张万昌,刘传胜.水文模型与陆面模式耦合研究进展[J].冰川冻土,2006,(6):53-59.]
[57]Xie Zhenghui, Liu Qian, Yuan Fei, et al. Macroscale land hydrological model hased on 50km×50km grids system[J].Journal of Hydraulic Engineering,2004,(5):76-82.[谢正辉, 刘谦, 袁飞,等. 基于全国50km×50km网格的大尺度陆面水文模型框架[J].水利学报,2004,(5):76-82.]
[58]Wang Shourong. Improvements of a distributed hydrology model DHSVM and its climatological hydrological off-line simulation experiments[J].Acta Meteorologica Sinica,2002,60(4):421-427.[王守荣. 分布式水文—土壤—植被模式的改进及气候水文Off-line模拟试验[J].气象学报, 2002,60(4):421-427.]
[59]Zhang Hongping, Zhou Suoquan, Xue Genyuan,et al. Numerical experiment of the coupling of RegCM2 and a hydrological model[J].Journal of Nanjing Institute of Meteorology,2006,29(2):158-165.[张红平, 周锁铨, 薛根元,等.区域气候模式(RegCM2)与水文模式耦合的数值试验[J].南京气象学院学报,2006,29(2):158-165.]
[60]Li Kai, Zeng Xinmin. The annualtime scale simulation of a regional climate model with its improved hydrological process[J]. Scientia Meteorologica Sinic,2008,3:308-315.[李凯,曾新民.一个区域气候模式水文过程的改进及年尺度模拟研究[J].气象科学,2008,3:308-315.]
[61]Feng Jinming, Fu Congbin. Intercomparison of longterm simulations of temperature and precipitation over China by different regional climate models[J].Chinese Journal of Atmospheric Sciences,2007,31(5):805-814.[冯锦明,符淙斌.不同区域气候模式对中国地区温度和降水的长期模拟比较[J].大气科学,2007,31(5):805-814.]
[62]Zhang Zitai, Zhang Qianhong. Chinese legislation on adaptation to climate change[J].Global Law Review, 2008,5:57-63.[张梓太,张乾红.论中国对气候变化之适应性立法[J]. 环球法律评论,2008,5:57-63.]
[63]Xiao Fengjin, Zhang Haidong, Wang Chunyi,et al. Impact of climatic change on agriculture and its adaptation countermeasures in China[J].Journal of Natural Disasters,2006,15(6):327-331.[肖风劲,张海东,王春乙,等.气候变化对我国农业的可能影响及适应性对策[J].自然灾害学报,2006,15(6):327-331.]
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