[1]Brasseur G, Moore Ill B. The new and evolving IGBP[J]. Global Chang Newsletter,2002,50: 1-3. [2]GWSP. The Global Water System Project: Science Framework and Implementation Activities. Earth System Science Partnership[R]. 2005, GWSP Report No.1, ESSP Report No.3: 10-11. [3]Hoff H.The water challenge: Joint water project[J].Global Chang Newsletter,2002,50: 46-48. [4]CUAHSI. CUAHSI update[EB/OL].Newsletters, http://www.cuahsi.org,2003. [5]Zhang Yue. On China’s Water Resources and Sustainable Development[M]. Nanning: Guangxi Science and Technology Publishing House, 2000:30-44.[张岳. 中国水资源与可持续发展[M]. 南宁:广西科学技术出版社,2000:30-44.] [6]Wang Hao, Chen Minjian, Qin Dayong, et al. Rational Allocation and Bearing Capacity of Water Resources in Northwest China[M]. Zhengzhou: Huanghe Water Conservancy Press, 2003:52-68, 73-76.[王浩,陈敏建,秦大庸,等.西北地区水资源合理配置和承载能力研究[M]. 郑州:黄河水利出版社,2003:52-68,73-76.] [7]Kang Ersi, Cheng Guodong, Lan Yongchao, et al. A model for simulating the response of runoff from the mountainous watersheds of inland river basins in the arid area of northwest China to climate changes[J].Science in China (Series D),1999, 42(suppl.I):52-63.[康尔泗,程国栋,蓝永超,等.西北干旱区内陆河流域出山径流变化趋势对气候变化响应模型[J]. 中国科学:D辑,1999, 29(增刊I):47-54.] [8]Chen Rensheng, Kang Ersi, Yang Jianping, et al. Simulation of water resources transformation in the midstream area of the Heihe River basin[J]. Journal of Glaciology and Geocryology,2003,23(5):566-573.[陈仁升,康尔泗,杨建平,等. 黑河流域山前绿洲水量转化模拟研究[J]. 冰川冻土,2003,23(5):566-573.] [9]Jia Yangwen, Wang Hao, Ni Guangheng, et al. Principle and Practice of Basin Distributed Hydrological Models [M]. Beijing: China Water Conservancy and Power Press, 2005:152-194.[贾仰文,王浩,倪广恒,等.分布式流域水文模型原理与实践[M]. 北京:中国水利水电出版社,2005:152-194.] [10]Roger C B, Jeff D, Noah P M, et al. Mountain Hydrology of the Semi-Arid Western US[R/OL].http://www.cuahsi.org,2004. [11]Njoku E G T J, Jackson V, Lakshmi T K Chan, et al. Soil moisture retrieval from AMSR-E [J].IEEE Transactions on Geoscience and Remote Sensing,2003, 41(2): 215-229. [12]Leavesley G H, Markstrom S L, Brewer M S, et al. The modular modeling system (MMS) The physical process modeling component of a database-centered decision support system for water and power management[J].Water Air and Soil Pollution,1996, 90(1/2): 303-311. [13]Gordon W S, Famiglietti J S, Fowler N L, et al. Validation of simulated runoff from six terrestrial ecosystem models: Results from VEMAP[J].Ecological Applications,2004,14(2):527-545. [14]Yang Daqing, Jiang Tong, Zhang Yinsheng, et al. Analysis and correction of errors in precipitation measurement at the head of Urumqi River, Tianshan[J].Journal of Glaciology and Geocryology,1988, 10(4):384-399.[杨大庆,姜彤,张寅生,等.天山乌鲁木齐河源降水观测误差分析及改正[J]. 冰川冻土,1988,10(4):384 -399.] [15]Oldak T T J, Starks P, Elliott R. Mapping near-surface soil moisture on regional scale using ERS-2 SAR data[J].International Journal of Remote Sensing,2003, 24(22):4 579-4 598. [16]Ogunjemiyo S, Roberts D, Keightley K, et al.Evaluating the relationship between AVIRIS water vapor and poplar plantation evapotranspiration[J].Journal of Geophysical Research,2002, 107(D23):4 719. [17]Pavel K,Holger H,Lütkemeier S. Biospheric Aspects of the Hydrological Cycle[J]. Global Chang Newsletter, 2002,52:22-23. [18]Brent D N, Bradford P, W, Steve A, et al. The Ecohydrology of Arid and Semiarid Environments: A Scientific Vision[R/OL].http://www.cuahsi.org,2004. [19]Zhao Wenzhi, Cheng Guodong. Ecohydrology a science for studing the hudrologic mechanisms of ecological patterns and processes[J].Journal of Glaciology and Geocryology,2001, 23(4): 150-475.[赵文智,程国栋. 生态水文学:揭示生态过程和生态格局水文学机制的科学[J]. 冰川冻土,2001, 23(4):150-457.] [20]Zhao Wenzhi, Cheng Guodong. Review of several problems on the study of eco-hydrological processes in arid zones [J].Chinese Science Bulletin,2002, 47(5): 353-360.[赵文智,程国栋. 干旱区生态水文过程研究若干问题评述[J]. 科学通报,2001, 46(22):1 851-1 857.] [21]Porporato A, D’Odorico P, Laio F,et al. Ecohydrology of water-controlled ecosystems[J].Advances in Water Resources,2002, 25: 1 335-1 348. [22]Rodriguez-Iturbe I. Ecohydrology: A hydrologic perspective of climate-soil-vegetation dynamics[J].Water Resources Research,2002, 6: 3-9. [23]Ji Xibin, Kang Ersi, Zhao Wenzhi, et al. Simulation of evapotranspiration from irrigational farmlands in the oases of the Heihe River Basin [J].Journal of Glaciology and Geocryolory,2004, 26(6): 713-718. [吉喜斌,康尔泗,赵文智,等.黑河流域山前绿洲灌溉农田蒸散发模拟研究[J]. 冰川冻土,26(6):713-718.] [24]Eltahir E A B, Bras R L. Sensitivity of regional climate to deforestation in the Amazon basin [J].Advances in Water Resources,1994, 17: 101-115. [25]Rodriguez-Iturbe I. Ecohydrology: A hydrologic perspective of climate-soil-vegetation dynamics[J].Water Resources Research,2000,6: 3-9. [26]Chen Rensheng, Kang Ersi, Yang Jianping, et al. A distributed runoff model for inland river mouintainous basin of northwest China[J].Journal of Desert Research,2004, 24(4): 416-424.[陈仁升,康尔泗,杨建平,等.内陆河流域分布式水文模型——以黑河干流山区建模为例[J]. 中国沙漠,2004, 24(4):416-424. [27]Chen Rensheng, Kang Ersi, Yang Jianping,et al. Simulation of water resources transformation in the midstream area of the Hei River Basin[J].Journal of Glaciology and Geocryology, 2003, 25(5): 566-573. [陈仁升,康尔泗,杨建平,等.黑河流域山前绿洲水量转化模拟研究[J]. 冰川冻土,2003, 25(5):566-573.] [28]Chen Rensheng, Lü Shihua, Kang Ersi, et al. A Distributed Water-Heat Coupled (DWHC) model for mountainous watershed of an inland riber basin (I): Model structure and equations [J].Advances in Earth Science,2006, 21(8):806-818.[陈仁升,吕世华,康尔泗. 内陆河高寒山区流域分布式水热耦合模型I:模型原理 [J]. 地球科学进展,2006, 21(8):806 – 818. ] [29]Chen Rensheng, Kang Ersi, Lü Shihua, et al. A Distributed Water-Heat Coupled (DWHC) model for mountainous watershed of an inland river basin(Ⅱ): Model results using the measured data at the meteorological & hydrological stations [J].Advances in Earth Science,2006, 21(8):819-829. [陈仁升,康尔泗,吕世华,等. 内陆河高寒山区流域分布式水热耦合模型Ⅱ:地面资料驱动结果[J]. 地球科学进展,2006,21(8):819-829.] [30]Chen Rensheng, Gao Yanhong, Kang Ersi, et al. A Distributed Water-Heat Coupled (DWHC) model for mountainous watershed of an inland river basin (Ⅲ): Model results using the results from MM5 model [J].Advances in Earth Science,2006, 21(8): 830-837. [陈仁升,高艳红,康尔泗,等.内陆河高寒山区流域分布式水热耦合模型 (Ⅲ):MM5嵌套结果[J].地球科学进展,2006, 21(8):830-837.] [31]Wang Shugong, Kang Ersi, Li Xin. Progress and perspective of distributed hydrological models [J].Journal of Glaciology and Geocryology,2004,26(1):61-65.[王书功,康尔泗,李新.分布式水文模型的进展及展望[J]. 冰川冻土,2004,26(1):61-65.] [32]Walvoord M A, Phillips F M. Identifying areas of basin-floor recharge in the Trans-Pecos region and the link to vegetation[J].Journal of Hydrology,2004, 292: 59-74. [33]Copeland H R A,Kittel T. Potential impacts of vegetation change: A regional modeling study[J].Journal of Geophysical Research,1996,101 (D3):7 409-7 418. [34]Pielke R A, Avissar R. Influence of landscape structure on local and regional climate [J].Landscape Ecology,1990, 4: 133-155. [35]Running S W, Coughlan J C. A general model of forest ecosystem processes for regional applications I. Hydrologic balance, canopy gas exchange and primary production processes[J].Ecological Modelling,1988,42:125-154. [36]Landsberg J J, Waring R H. A generalized model of forest productivity using simplified concepts of radiation-use efficiency, carbon balance and partitioning[J].Forest Ecology and Management,1997, 95: 209-228. [37]Chen Rensheng, Kang Ersi, Zhang Zhihui, et al. Estination of tree transpiration and response of tree conductance to meteorological variables in desert-oases system of northwest China [J].Science in China (Series D),2004,7(suppl.): 9-20.[陈仁升,康尔泗,张智慧,等.荒漠绿洲系统树木蒸腾估算及气孔导度对气象因子的响应[J].中国科学:D辑, 2004, 33(增刊):9-20.] [38]Chen Rensheng, Kang Ersi, Zhang Zhihui, et al. Peak phenomenon of sapflow in late autumn to early winter in Heihe River Basin, northwest China[J].Acta Ecologica Sinica,2005, 25(5):1 221-1 228.[陈仁升,康尔泗,张智慧,等.黑河流域树木液流秋末冬初的峰值现象[J]. 生态学报,2005,25(5):1 221-1 228.] [39]IPCC. The Scientific Basis[R]. IPCC, ed. Contribution of Working Group 1 to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press, 2001:881. [40]Fern ndez-Illescas C P, Rodr guez-Iturbe I. The impact of interannual rainfall variability on the spatial and temporal patterns of vegetation in a water-limited ecosystem[J].Advances in Water Resources,2004, 27: 83-95. [41]Kerkoff A J, Martens S N, Shore G A, et al. Contingent effects of water balance variation on tree cover density in semiarid woodlands[J].Global Ecology and Biogeography,2004, 13: 237-246. [42]Chorover L, Chadwick J, April O, et al. Frontiers in Exploration of the Critical Zone: Report of a workshop sponsored by the National Science Foundation (NSF)[R].Newark, DE,October 24-26, 2005. [43]Wang Genxu, Cheng Guodong. The spatial differential features of eco-environment in inland river basins [J].Scientia Geographica Sinica,1998, 18(4): 355-361.[王根绪,程国栋. 内陆河流域生态环境的空间分异特征[J]. 地理科学,1998, 18(4):355-361.] [44]Lu Ling, Li Xin, Cheng Guodong, et al. Analysis on the landscape structure of the Heihe River Basin, Northwest China[J].Acta Ecologica Sinica,2001, 21(8): 1 217-1 224.[卢玲,李新,程国栋,等.黑河流域景观结构分析[J]. 生态学报,2001,21(8): 1 217-1 224.] [45]Kang Ersi, Cheng Guodong, Song Kechao, et al. Simulation of energy and water balance in Soil-Vegetation-Atmosphere Transfer system in the mountain area of Heihe River Basin at Hexi Corridor of northwest China[J].Science in China (Series D), 2005, 48(4): 538-548. [康尔泗,程国栋,宋克超,等.河西走廊黑河山区土壤—植被—大气系统能水平衡模拟研究[J]. 中国科学:D辑, 2005, 34(6):544-551.] [46]Kang Ersi, Song Kechao, Chen Rensheng, et al. Some advancement of the experimental researches on eco-hydrological processes in the Inland River Basins[C]//Science & Technology Review ed. Promotion of Science and Technology Innovation by Scientific Development View. Monograph of 2005 Annual Conference of China Association for Science and Technology. Beijing: Science and Technology Press,2005:734-748.[康尔泗,宋克超,陈仁升,等.内陆河流域生态—水文过程观测试验研究的一些进展[C]//中国科协2005年学术年会论文集——以科学发展观促进科技创新.北京:中国科学技术出版社,2005:734-748.] [47]Chen Rensheng, Kang Ersi, Ji Xibin, et al. Preliminary srudy of the hudrological processes in the Alpine meadow and permafrost regions at the headwaters of Heihe River[J].Journal of Glaciology and Geocryology,2007, 29(3): 387-396.[陈仁升,康尔泗,吉喜斌,等.黑河高寒草甸区冻土水文过程初步研究[J]. 冰川冻土,29(3):387-396.] |