[1] Schellnhuber H J. ‘Earth system’ analysis and the second Copernican revolution[J]. Nature,1999, 402(SUPP): C19-C23. [2] Cheng Guodong. Integrated Management of the Water-Ecology-Economy System in the Heihe River Basin[M]. Beijing: Science Press, 2009:581.[程国栋. 黑河流域水—生态—经济系统综合管理研究[M]. 北京: 科学出版社, 2009:581.] [3] Li Xin, Cheng Guodong. On the watershed observing and modeling systems[J]. Advance in Earth Sciences,2008, 23(7): 756-764.[李新, 程国栋. 流域科学研究中的观测和模型系统建设[J]. 地球科学进展, 2008, 23(7): 756-764.] [4] Arnold J G, Fohrer N. SWAT2000: Current capabilities and research opportunities in applied watershed modeling[J]. Hydrological Processes,2005, 19(3): 563-572. [5] Gassman P W, Reyes, Green C H, et al. The soil and water assessment tool: Historical development, applications, and future research directions[J].Transaction of the ASABE,2007, 50(4): 1 211-1 250. [6] EPA. Better Assessment Science Integrating Point and Nonpoint Sources: Basins Version 3.0[R]. EPA, 2001:337. [7] Markstrom S L, Niswonger R G, Regan R S,et al. GSFLOW-Coupled Ground-water and Surface-water FLOW Model Based on the Integration of the Precipitation-Runoff Modeling System (PRMS) and the Modular Ground-Water Flow Model (MODFLOW-2005)[R]. U.S. Geological Survey, 2008:240. [8] Graham D N, Butts M B. Flexible, integrated watershed modelling with MIKE SHE[C]//Singh V P, Frevert D K,eds. Watershed Models.CRC Press, 2005:245-272. [9] DHI. MIKE BASIN 2003: A Versatile Decision Support Tool for Integrated Water Resources Management Planning[R/OL].http://www.dhigroup.com/software/water Resources/ MIKEBA-SIN/References, 2003. [10] Kollet S J, Maxwell R M. Integrated surface-groundwater flow modeling: A free-surface overland flow boundary condition in a parallel groundwater flow model [J]. Advances in Water Resources,2006, 29(7): 945-958. [11] Westervelt J.Simulated Modeling for Watershed Management[M].[流域管理的模拟建模[M]. 程国栋, 李新, 王书功译. 郑州: 黄河水利出版社, 2004:131.] [12] Dolk D R. An introduction to model integration and integrated modeling environments[J].Decision Support Systems,1993, 10(3): 249-254. [13] ESMF Joint Specification Team. Earth System Modeling Framework: ESMF Requirements [R]. NASA Earth Science Technology Office, 2005. [14] Price A, Lenton T, Cox C, et al. GENIE: Grid enabled Integrated Earth System Model [J]. ERCIM News,2005, 61: 15-16. [15] Leavesley G H, Restrepo P J, Markstrom S L, et al. The modular modeling system(MMS)-Use′s manual [R]. Report 96-151, U.S. Geological Survey, 1996:142. [16] Maxwell T. The Spatial Modeling Environment Users Guide[M/OL]. http://www.uvm.edu/giee/SME3/2002. [17] David O, Markstrom S L, Rojas K W, et al. The Object Modeling System[C]//Agricultural System Models in Field Research and Technology Transfer.CRC Press, 2002:317-330. [18] Argent R M, Houghton B. Land and water resources model integration: Software engineering and beyond[J].Advances in Environmental Research,2001, 5(4): 351-359. [19] Argent R M. An overview of model integration for environmental application-components, frameworks and semantics[J]. Environmental Modelling & Software,2004, 19(3): 219-234. [20] Li Xin, Cheng Guodong, Wu Lizong. Digital Heihe river basin. 1: An information infrastructure for the watershed science[J].Advances in Earth Science,2010, 25(3): 297-305.[李新, 程国栋, 吴立宗. 数字黑河的思考与实践1:为流域科学服务的数字流域 [J]. 地球科学进展, 2010, 25(3): 297-305.] [21] Dolk D R, Kottemann J E. Model integration and a theory of models [J].Decision Support Systems,1993, 9(1): 51-63. [22] Tang Xijin. Model integration[J].Journal of System Engineering,2001, 16(5): 322-329.[唐锡晋.模型集成[J]. 系统工程学报, 2001, 16(5): 322-329.] [23] Li Xin, Wu Lizong, Ma Mingguo, et al. Digital Heihe river basin. 2: Data integration[J]. Advances in Earth Science, 2010, 25(3): 306-316. [李新, 吴立宗, 马明国, 等. 数字黑河的思考与实践2:数据集成[J]. 地球科学进展, 2010, 25(3): 306-316.] [24] Savenije H H G. HESS Opinions “The art of hydrology”[J].Hydrology and Earth System Sciences,2009, 13(2): 157-161. [25] Surridge B, Harris B. Science-driven integrated river basin management: A mirage?[J]. Interdisciplinary Science Reviews, 2007, 32(3): 298-312. [26] Consortium of Universities for the Advancement of Hydrologic Science. Hydrology of a Dynamic Earth[R]. Consortium of Universities for the Advancement of Hydrologic Science, Inc., 2007. [27] 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 climatic changes[J].Science in China(Series D),1999, 42(suppl.1): 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1): 47-54.] [28] Kang Ersi, Cheng Guodong, Lan Yongchao, et al. Application of a conceptual hydrological model in the runoff forecast of a mountainous watershed[J]. Advances in Earth Science,2002, 17(1): 18-26.[康尔泗,程国栋,蓝永超,等.概念性水文模型在出山径流预报中的应用[J]. 地球科学进展, 2002, 17(1): 18-26.] [29] Chen Rensheng, Kang Ersi, Yang Jianping, et al. Application of Topmodel to simulate runoff from Heihe mainstream mountainous basin[J].Journal of Desert Research,2003, 23(4):428-434.[陈仁升,康尔泗,杨建平,等.Topmodel模型在黑河干流出山径流模拟中的应用[J].中国沙漠, 2003, 23(4): 428-434.] [30] Wang Jian, Li Shuo. Effect of climatic change on snowmelt runoffs in mountainous regions of inland rivers in northwestern China[J]. Science in China (Series D),2006, 49(8): 881-888.[王建, 李硕. 气候变化对中国内陆干旱区山区融雪径流的影响[J].中国科学:D辑, 2005, 35(7): 664-670.] [31] Wang Shugong. Study on Parameter Estimation for Hydrological Model and Uncertainty in Estimated Parameters[D]. Graduate University of Chinese Academy of Sciences, 2006.[王书功.水文模型参数估计方法及参数估计不确定性研究[D].中国科学院研究生院, 2006.] [32] Cheng Guodong, Li Xin, Kang Ersi, et al. Integrated Model Development and Modeling Environment Building for Interdisciplinary Studies in the Heihe River Basin[R]. Lanzhou: Cold and Arid Regions Environmental and Engineering Research Institute, CAS, 2008:352.[程国栋, 李新, 康尔泗,等.黑河流域交叉集成研究的模型开发和模拟环境建设结题报告[R].兰州:中国科学院寒区旱区环境与工程研究所, 2008:352.] [33] Xia Jun, Wang Gangsheng, Lv Aifeng, et al. A research on distributed time variant gain modeling[J].Acta Geographica Sinica,2003, 58(5): 789-796.[夏军, 王纲胜, 吕爱锋,等.分布式时变增益流域水循环模拟[J]. 地理学报, 2003, 58(5): 789-796.] [34] Xia Jun, Wang Gangsheng, Tan Ge, et al. Development of distributed time-variant gain model for nonlinear hydrological systems[J].Science in China (Series D),2005, 48(6): 713-723.[夏军, 王纲胜, 谈戈,等.水文非线性系统与分布式时变增益模型[J]. 中国科学:D辑, 2004, 34(11): 1 062-1 071.] [35] Huang Qinghua, Zhang Wanchang. Improvement and application of GIS-based distributed SWAT hydrological modeling on high altitude, cold, semi-arid catchment of Heihe river basin, China[J].Journal of Nanjing Forestry University (Natural Sciences Edition),2004, 28(2): 22-26.[黄清华, 张万昌. SWAT分布式水文模型在黑河干流山区流域的改进及应用[J]. 南京林业大学学报:自然科学版, 2004, 28(2): 22-26.] [36] Li Z L, Xu Z X, Shao Q X, et al. Parameter estimation and uncertainty analysis of SWAT model in upper reaches of the Heihe river basin[J].Hydrological Processes, 2009, 23(19): 2 744-2 753. [37] Wang Zhonggen, Liu Changming, Huang Youbo. The theory of SWAT model and its application in Heihe basin[J].Progress in Geography,2003, 22(1): 79-86. [王中根, 刘昌明, 黄友波. SWAT模型的原理、结构及应用研究[J]. 地理科学进展, 2003, 22(1): 79-86.] [38] Zhou Jian, Li Xin, Wang Genxu, et al. An improved precipitation-runoff model based on MMS and its application in the upstream basin of the Heihe river[J].Journal of Natural Resources,2008, 23(4): 724-736. [周剑, 李新, 王根绪, 等.一种基于MMS的改进降水径流模型在中国西北地区黑河上游流域的应用[J]. 自然资源学报, 2008, 23(4): 724-736.] [39] He C S, De Marchi C, Croley T E, et al. Hydrologic modeling of the Heihe Watershed by DLBRM in northwest China[J].Journal of Glaciology and Geocryology,2009, 31(3): 410-421. [40] Jia Yangwen, Wang Hao, Yan Denghua. Distributed model of hydrological cycle system in Heihe river basin. I. Model development and verification[J].Journal of Hydraulic Engineering,2006, 37(5): 534-542. [贾仰文, 王浩, 严登华.黑河流域水循环系统的分布式模拟(I)——模型开发与验证[J]. 水利学报, 2006, 37(5): 534-542.] [41] Jia Yangwen, Wang Hao, Yan Denghua. Distributed model of hydrological cycle system in Heihe river basin. II. Applications[J].Journal of Hydraulic Engineering,2006, 37(6): 655-661.[贾仰文, 王浩, 严登华. 黑河流域水循环系统的分布式模拟(II)——模型应用 [J]. 水利学报, 2006, 37(6): 655-661.] [42] Jia Y W, Ding X, Qin C, et al. Distributed modeling of landsurface water and energy budgets in the inland Heihe river basin of China[J].Hydrology and Earth System Sciences,2009, 13(10): 1 849-1 866. [43] Chen Rensheng, Lv Shihua, Kang Ersi, et al. A Distributed Water-Heat Coupled (DWHC) model for mountainous watershed of an inland river 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,等.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.] [44] Chen R S, Lv S H, Kang E S, et al. A distributed water-heat coupled model for mountainous watershed of an inland river basin of northwest China (I) model structure and equations[J].Environmental Geology,2008, 53(6): 1 299-1 309. [45] Gao Y H, Lv S H, Cheng G D. Simulation of rainfall-runoff and watershed convergence process in the upper reaches of Heihe River Basin, July 2002[J]. Science in China (Series D),2004, 47(Special Issue): 1-8. [46] Wang L, Koike T, Yang K, et al. Frozen soil parameterization in a distributed biosphere hydrological model[J].Hydrology and Earth System Sciences,2010, 14(3): 557-571. [47] Wang Xusheng, Zhou Jian. Advances in numerical modeling of groundwater flow in Heihe river basin[J]. Geotechnical Investigation and Surveying,2009, (9): 35-38.[王旭升, 周剑. 黑河流域地下水流数值模拟的研究进展[J]. 工程勘察, 2009, (9): 35-38.][48] Wen X H, Wu Y Q, Lee L, et al. Groundwater flow modeling in the zhangye basin, northwestern China[J]. Environmental Geology, 2007, 53(1): 77-84. [49] Li Shoubo, Zhao Chuanyan, Feng Zhaodong. Modeling of temporal and spatial distribution of groundwater level in the water table fluctuant belt of the lower reaches of Heihe river[J].Arid Land Geography,2009, 32(3): 391-396.[李守波, 赵传燕, 冯兆东. 黑河下游地下水波动带地下水时空分布模拟研究-FEFLLOW模型应用[J]. 干旱区地理, 2009, 32(3): 391-396.] [50] Zhou Jian, Cheng Guodong, Wang Genxu, et al. Integrating remote sensing and groundwater numerical modeling for the analysis of surface-groundwater transformation and its impact on landuse in the middle reaches of the Heihe river basin[J]. Progress in Natural Science,2009, 19(12): 1 343-1 354.[周剑, 程国栋, 王根绪,等.综合遥感和地下水数值模拟分析黑河中游三水转化及其对土地利用的响应[J]. 自然科学进展, 2009, 19(12): 1 343-1 354.] [51] Zhang Guanghui, Liu Shaoyu, Xie Yuebo, et al. Water Cycle and Groundwater Formation and Evolution in the Inland Heihe River Basin, Northwestern China [M]. Beijing: Geology Press, 2004:398.[张光辉, 刘少玉, 谢悦波,等. 西北内陆黑河流域水循环与地下水形成演化模式[M]. 北京: 地质出版社, 2004:398.] [52] Wu Xuanmin, Chen Chongxi, Shi Shengsheng, et al. Three-dimensional numerical simulation of groundwater system in Ejina basin, Heihe river, northwestern China[J].Earth Science (Journal of China University of Geosciences),2003, 28(5): 527-532.[武选民,陈崇希,史生胜,等. 西北黑河额济纳盆地水资源管理研究——三维地下水流数值模拟[J]. 地球科学:中国地质大学学报, 2003, 28(5): 527-532.] [53] Wu Qiang, Xu Junxiang, Zhang Zizhong,et al. Coupled modeling of surface water-groundwater system II. Application[J].Journal of Hydraulic Engineering,2005, 36(6): 754-758. [武强, 徐军祥, 张自忠,等.地表河网—地下水流系统耦合模拟II:应用实例[J]. 水利学报, 2005, 36(6): 754-758.] [54] Hu L T, Chen C X, Jiao J J, et al. Simulated groundwater interaction with rivers and springs in the Heihe river basin[J].Hydrological Processes,2007, 21(20): 2 794-2 806. [55] Hu Litang. Integrated model for surface water and groundwater in arid inland river regions and its application[J].Jounrnal of Hydraulic Engineering,2008, 39(4): 410-418.[胡立堂.干旱内陆河地区地表水和地下水集成模型及应用[J]. 水利学报, 2008, 39(4): 410-418.] [56] Wang X S, Ma M G, Li X, et al. Groundwater response to leakage of surface water through a thick vadose zone in the middle reaches area of Heihe River Basin, in China[J].Hydrology and Earth System Sciences, 2010, 14(4): 639-650. [57] Wang Xusheng. AquiferFlow: A Variable Satuated Groundwater Flow Model Based on Three Dimensional Finite Difference Method[R]. Beijing: School of Water Resources and Environment, China University of Geosciences, 2007:49.[王旭升. AquiferFlow含水层变饱和度地下水流的三维有限差分模型[R]. 北京: 中国地质大学(北京)水资源与环境学院, 2007:49.] [58] Jazira·Abderazah. Study on Water Balance Model of Irrigation Area in the Middle Reaches of Heihe Basin[D]. Nanjing: Hohai University, 2006:92.[加孜拉·阿布都拉扎克. 黑河流域中游灌区水平衡模型研究[D]. 南京: 河海大学, 2006:92.] [59] Hu Yinqiao, Gao Youxi, Wang Jiemin, et al. Some achievements in scientific research during HEIFE [J].Plateau Meteorology,1994, 13(3): 225-236.[胡隐樵,高由禧,王介民, 等.黑河实验(HEIFE)的一些研究成果[J]. 高原气象, 1994, 13(3): 225-236.] [60] Niu Guoyue, Wang Jiemin. A numerical simulation of one-dimensional land-surface process model[J].Plateau Meteorology, 1992, 11(4): 411-422.[牛国跃, 王介民. 简易一维陆面过程的数值模拟[J]. 高原气象, 1992, 11(4): 411-422.] [61] 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, 2004, 34(6): 544-551.] [62] Ji Xibin, Kang Ersi, Zhao Wenzhi, et al. Simulation of the evaporation from irrigational farmlands in the oases of the Heihe River Basin [J].Journal of Glaciology and Geocryology, 2004, 26(6): 713-719.[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, 2004, 26(6): 713-719.] [63] Zhou Jian, Li Xin, Wang Genxu, et al. Coupled land surface model SiB2 with the unsaturated seepage model and its application[J].Advances in Earth Science, 2008, 23(6): 570-579.[周剑, 李新, 王根绪,等.陆面过程模式SIB2与包气带入渗模型的耦合及其应用[J].地球科学进展, 2008, 23(6): 570-579.] [64] Feng Qi, Zhang Yanwu, Si Jianhua, et al. Simulation experiment on energy transfer in SPAC system at lower reaches of the Heihe river[J]. Journal of Desert Research,2008, 28(6): 1 145-1 150.[冯起, 张艳武, 司建华,等.黑河下游典型植被下垫面与大气间能量传输模拟研究 [J]. 中国沙漠, 2008, 28(6): 1 145-1 150.] [65] Zhu Y H, Ren L L, Skaggs T H, et al.Simulation of populus euphratica root uptake of groundwater in an arid woodland of the Ejina basin, China[J]. Hydrological Processes,2009, 23(17):2 460-2 469. [66] Ji Xibin, Kang Ersi, Zhao Wenzhi, et al. Simulation of soil moisture content dynamics in SPAC system of irrigated farmland in inland oasis, northwest China[J].Journal of Desert Research,2006, 26(2): 194-201.[吉喜斌, 康尔泗, 赵文智,等.内陆绿洲灌溉农田SPAC系统土壤水分动态模拟研究[J].中国沙漠, 2006, 26(2): 194-201.] [67] Ji X B, Kang E S, Chen R S, et al. A mathematical model for simulating water balances in cropped sandy soil with conventional flood irrigation applied[J].Agricultural Water Management,2007, 87(3): 337-346. [68] Xin X Z, Liu Q H. The two-layer surface energy balance parameterization scheme (TSEBPS) for estimation of land surface heat fluxes[J]. Hydrology and Earth System Sciences,2010, 14(3): 491-504. [69] Zhang Hua, Zhang Bo, Meng Bao,et al. Land use and land cover change modeling in Zhangye city[J]. Remote Sensing Technology and Application,2004, 19(5): 359-363.[张华, 张勃, 孟宝,等.张掖市土地利用/覆盖变化模拟[J]. 遥感技术与应用, 2004, 19(5): 359-363.] [70] Lu Ling, Li Xin, Veroustraete F. Estimation of net primary productivity of Heihe River Basin using remote sensing[J]. Journal of Desert Research,2005, 25(6): 823-830.[卢玲, 李新, Veroustraete F. 黑河流域植被净初级生产力的遥感估算[J]. 中国沙漠, 2005, 25(6): 823-830.] [71] Lu L, Li X, Veroustraete F, et al. Analyzing the forcing mechanisms for net primary productivity changes in the Heihe River Basin, northwest China[J].International Journal of Remote Sensing,2009, 30(3): 793-816. [72] Chen Zhenghua, Ma Qingyuan, Wang Jian, et al. Estimation of Heihe basin net primary productivity using the CASA model[J]. Journal of Natural Resources,2008, 23(2): 263-273.[陈正华, 麻清源, 王建,等.利用CASA模型估算黑河流域净第一性生产力[J]. 自然资源学报, 2008, 23(2): 263-273.] [73] Peng Hongchun. Study on Dynamic Simulation of Ecosystem in the Heihe River Basin[D]. Graduate University of Chinese Academy of Sciences, 2007:136.[彭红春. 黑河流域生态系统动态模拟研究[D]. 中国科学院研究生院, 2007:136.] [74] Fang Chuanglin, Bao Chao. The coupling model of water-ecology-economy coordinated development and its application in Heihe river basin[J]. Acta Geographica Sinica,2004, 59(5): 781-790.[方创琳, 鲍超. 黑河流域水—生态—经济发展耦合模型及应用[J]. 地理学报, 2004, 59(5): 781-790.] [75] Xu Zhongmin. A scenario-based framework for multi criteria decision analysis in water carrying capacity[J]. Journal of Glaciology and Geocryology, 21(2): 99-106.[徐中民. 情景基础的水资源承载力多目标分析理论及应用[J]. 冰川冻土, 1999, 21(2): 99-106.] [76] Xu Zhongmin, Zhang Zhiqiang, Cheng Guodong. Theory, Method and Applications of the Ecological Economy[M]. Zhengzhou: Yellow River Conservancy Press, 2003:306.[徐中民, 张志强, 程国栋. 生态经济学理论方法与应用[M]. 郑州: 黄河水利出版社, 2003:306.] [77] Chen Dongjing. Construction and application of an integrated environmental and economic model—A case study of Zhangye city in the Heihe river basin[J].Journal of Lanzhou University (Natural Sciences),2006, 42(2): 6-11.[陈东景.环境经济综合模型的构建及应用研究——以黑河流域张掖市为例[J]. 兰州大学学报:自然科学版, 2006, 42(2): 6-11.] [78] Wang J F, Cheng G D, Gao Y G, et al. Optimal water resource allocation in arid and semi-arid areas[J]. Water Resources Management,2008, 22(2): 239-258. [79] Seyfried M S, Wilcox B P. Scale and the nature of spatial variability: Field examples having implications for hydrological modeling[J].Water Resources Research,1995, 31(1): 173-184. [80] Famiglietti J. Community modeling in hydrologic science[J].EOS,2008, 89(32), doi:10.1029/2008EO320005. |