Aravossis K, Vliamos S, Anagnostopoulos P, et al. An innovative cost-benefit-analysis decision support system for the evaluation of alternative scenarios of water resources management. Fresenius Environmental Bulletin, Parlar Scientific Publications, 2003, 12(12): 1433-1443.
[2]
Argent R M, Perrand J M, Rahman J M, et al. A new approach to water quality modeling and environmental decision support systems[J]. Environmental Modelling & Software, 2009, 24: 809-818.
[3]
National Center for Environmental Assessment Office of Research and Development. BASINS 4.0 Climate Assessment Tool (CAT): Supporting Documentation and User's Manual. United States Environmental Protection Agency, 2009.
[4]
Waston F G R, Vertessy R A , Grayson R B, et al. Towards parsimony in large scale hydrological modeling-Australian and Californian experience with the Macaque model//Fall AGU Meeting 1998, Paper H72D-21,1998.
Cheng Guodong, Zhao Chuanyan. An integrated study of ecological and hydrological processes in the inland river basin of the arid regions, China[J]. Advances in Earth Science, 2008, 23(10): 1005-1012. [程国栋, 赵传燕. 干旱区内陆河流域生态水文综合集成研究[J]. 地球科学进展, 2008, 23(10): 1005-1012.]
[7]
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.]
[8]
Li Xin, Cheng Guodong, Ma Mingguo, et al. Digital Heihe River Basin. 4: Watershed observing system[J]. Advances in Earth Science, 2010, 25(8): 866-876. [李新, 程国栋, 马明国, 等. 数字黑河的思考与实践4: 流域观测系统[J]. 地球科学进展, 2010, 25(8): 866-876.]
[9]
Kogan F N. Remote sensing of weather impacts on vegetation in non-homogenous areas[J]. International Journal of Remote Sensing, 1990, 11(1): 405-419.
[10]
Gillies R R, Carlson T N, Cui J, et al. A verification of the 'triangle' method for obtaining surface soil water content and energy fluxes from remote measurement of the Normalized Difference Vegetation Index (NDVI) and surface radiant temperature[J]. International Journal of Remote Sensing, 1997, 18: 3145-3166.
[11]
Liu Liangyun, Zhang Bing, Zheng Lanfang, et al. Target classification and soil water content regression using land surface temperature (LST) and vegetation index (Ⅳ)[J]. Journal of Infrared and Millimeter Waves, 2002, 21(4): 269-273. [刘良云, 张兵, 郑兰芬, 等. 利用温度和植被指数进行地物分类和土壤水分反演[J]. 红外与毫米波学报, 2002, 21(4): 269-273.]
[12]
Yang Shengtian, Liu Changming, Wang Pengxin. The method of calculating soil water in Yellow River Basin by remote sensing[J]. Progress in Geography, 2003, 22(5): 454-463. [杨胜天, 刘昌明, 王鹏新. 黄河流域土壤水分遥感估算[J]. 地理科学进展, 2003, 22(5): 454-463.]
[13]
Zhang Zhiming, Qin Qiming, A buduwasiti Wulamu, et al. New method on soil water observation based on NIR-Red spectrum feature space[J]. Science in China (D: Earth Sciences), 2006, 36(11): 1020-1026. [詹志明, 秦其明, 阿布都瓦斯提·吾拉木, 等. 基于NIR-Red光谱特征空间的土壤水分监测新方法[J]. 中国科学(D辑: 地球科学), 2006, 36(11): 1020-1026.]
[14]
Carlson T N, Gillie R R, Perry E M. A method to make use of thermal infrared temperature and NDVI measurements to infer surface soil water content and fractional vegetation cover[J]. Remote Sensing Rev., 1994, 9: 161-173.
[15]
Zhao Tianjie, Zhang Lixin, Jiang Lingmei. Joint inversion of soil moisture using active and passive microwave data[J]. Advances in Earth Science, 2009, 24(7): 769-775. [赵天杰, 张立新, 蒋玲梅, 等. 利用主被动微波数据联合反演土壤水分[J]. 地球科学进展, 2009, 24(7): 769-775.]
[16]
Wang Shuguo, Li Xin, Han Xunjun, et al. Derivation of surface soil moisture in the Middle stream of Heihe River Basin using multi-temporal ASAR images[J]. Remote Sensing Technology and Application, 2009, 24(5): 582-587.
[17]
Qin Yanfang, Chen Xi, Zhou Kefa, et al. Using GPR to sound the spatial and temporal distributions of dune surface water contents before and after snowmelt in the early spring[J]. Journal of Glaciology and Geocryology, 2012, 34(3): 690-697. [秦艳芳, 陈曦, 周可法, 等.利用探地雷达观测分析早春融雪前后沙丘表层土壤含水量的时空分布[J]. 冰川冻土, 2012, 34(3): 690-697.]
[18]
Swenson S, Wahr J, Milly P. Estimated accuracies of regional water storage variations inferred from the gravity recovery and climate experiment (GRACE)[J]. Water Resources Research, 2003, 39(8): 11. DOI: 10.1029/2002 WR 001808.
[19]
Cao Yanping, Nan Zhuotong. Monitoring water storage variations in the Heihe River Basin by the GRACE gravity satellite[J]. Remote Sensing Technology and Application, 2011, 26(6): 719-727. [曹艳萍, 南卓铜. 利用GRACE重力卫星监测黑河流域水储量变化[J]. 遥感技术与应用, 2011, 26(6): 719-727.]
[20]
Zhao Guo, Chu Rongzhong, Zhang Tong, et al. An improvement of polarimetric radar rainfall estimates[J]. Plateau Meteorology, 2011, 30(2): 498-507. [赵果, 楚荣忠, 张彤, 等. 偏振多普勒雷达定量测量降雨精度的改进[J]. 高原气象, 2011, 30(2): 498-507.]
[21]
Li X M, Yang W F, Ling L, et al. Estimation of evapotranspiration in an arid region by remote sensing-A case study in the middle reaches of the Heihe River Basin[J]. International Journal of Applied Earth Observation and Geoinformation, 2012, doi: 10.1016/j.jag.2011.09.008.
[22]
Maxwell T, Costanza R. An open geographic modeling environment[J]. Simulation. 1997, 68(3): 175-185.
[23]
Ouyang Bin, Che Tao, Dai Liyun, et al. Estimating mean daily surface temperature over the Tibetan Plateau based on MODIS LST products[J]. Journal of Glaciology and Geocryology, 2012, 34(2)296-303. [欧阳斌, 车涛, 戴礼云, 等. 基于MODIS LST产品估算青藏高原地区的日平均地表温度[J]. 冰川冻土, 2012, 34(2)296-303.]
[24]
Liu Junfeng, Chen Rensheng. Validation of MODIS snow covered days by the combined using of MODIS Aqua and Terra snow cover products and in-situ observations all over China[J]. Journal of Glaciology and Geocryology, 2011, 33(3): 504-511. [刘俊峰, 陈仁升.基于MODIS双星积雪遥感数据的积雪日数空间分布研究[J]. 冰川冻土, 2011, 33(3): 504-511.]
[25]
Lin Jintang, Feng Xuezhi, Xiao Pengfeng, et al. Spatial and temporal characteristics of satellite snow cover in a typical area of Tianshan mountains[J]. Journal of Glaciology and Geocryology, 2011, 33(5): 971-978. [林金堂, 冯学智, 肖鹏峰, 等. 天山典型区卫星雪盖时空特征研究[J]. 冰川冻土, 2011, 33(5): 971-978.]
[26]
Huang C L, Li X, Wang J M, et al. Assimilation of remote sensing data products into common land model for evapotranspiration forecasting//Zhang JX, Goodchild MF. The 8th International Symposium on Spatial Accuracy Assessment in Natural Resources and Environmental Sciences, Vol.1. Shanghai, China: World Academic Press, 2008: 234-241.
[27]
Rosegrant M W, Cai X M, Cline S A. Global Water Outlook to 2025: Averting An Impending Crisis. IFPRI-IWMI Technical Report. Washington, DC, WA, 2002.
[28]
Fedra K. Interactive water-quality simulation in a regional framework: a management-oriented approach to lake and watershed modeling[J]. Ecological Modeling, 1984, 21(4): 209-232.
[29]
Power D J. A brief history of decision support systems. DSSResources.com, World Wide Web, Http://DSSResource.COM/history/dsshistory.html, 2007.
[30]
Arnott D, Pervan G. Eight key issues for the decision support systems discipline[J]. Decision Support Systems, 2008, 44: 657-672.
[31]
Turban E, Aronson J, Liang T, Sharda R. Decision support and business intelligence systems, 8th Edition Prentice Hall, Upper Saddle River NJ. 2007.
[32]
Mackrell D, Kerr D, von Hellens L. A qualitative case study of the adoption and use of an agricultural decision support system in the Australian cotton industry: The socio-technical view[J]. Decision Support System, 2009, 47: 143-153.
[33]
Power D J. What is a DSS?[J]. The On-Line Executive Journal for Data-Intensive Decision Support, 1997, 1(3). Retrived October 20, 2004 from http://dssresources.com/papers/whatisdss/index.html.
[34]
Hashemi F, Decker W. Using climatic information and weather forecast for decisions in economizing irrigation water[J]. Agricultural Meteorology, 1969, 6(4): 245-257.
[35]
Andersen J C, Hiskey H H, Lackawathana S. Application of statistical decision theory to water use analysis in Sevier County, Utah[J]. Water Resources Research, 1971, 7(3): 443-452.
[36]
Kumar R, Khepar S D. Decision models for optimal cropping patterns in irrigations based on crop water production functions[J]. Agricultural Water Management, 1980, 3(1): 65-76.
[37]
Loucks D P, Salewicz K A. IRIS: An Interactive River System Simulation Program, General Introduction and Description. International Institute for Applied Systems Analysis, Laxenburg, Austria, 1989.
[38]
Ward V. Towards a theory of a state-non-state actors: a grid-group cultural approach[M]//Jacquin-Berdal D, Oros A, Verweij M. Culture in World Politics. London, New York: MacMilan, 1998: 206-244.
[39]
Crossland M D. Individual Decision-Maker Performance With and Without a Geographic Information System: An Empirical Investigation. Doctoral Dissertation at Indiana University completed in June, 1992
[40]
Crossland M D, Wynne B E, Perkins W C. Spatial decision support systems: an overview of technology and a test of efficacy[J]. Decision Support Systems, 1995, 14: 219-235.
[41]
Liu C W. Decision support system for managing ground water resources in the Choushui River alluvial in Taiwan[J]. Journal of the American Water Resources Association, 2004, 40: 431-442.
[42]
Cai Ximing, Kumar P, Liang Z. Remote sensing based decision support system for the restoration of an arid basin ecosystem: application to the Hei River Basin in China.
[43]
Ralph H. Spragure. A framework for the development of decision support systems[J]. MIS Quarterly, 1980, 4(4): 1-10.
[44]
Bonczak R H, Holsapple C W, Whinston A B. Foundations of Decision Support Systems[M]. New York: Academic Press, 1981.
[45]
Recio B, Ibanez J, Rubio F, et al. A decision support system for analyzing the impact of water restriction policies[J]. Decision Support Systems, 2005, 39: 385-402.
[46]
Trepel M, Kluge W. WETTRANS: a flow-path-oriented decision support system for the assessment of water and nitrogen exchange in riparian peatlands[J]. Hydrological Processes, 2004, 18: 357-371.
[47]
Monte L, Brittain J E, Gallego E, et al. MOIRA-PLUS: A decision support system for the management of complex fresh water ecosystem contaminated by radionuclides and heavy metals[J]. Computer & Geosciences, 2009, 35: 880-896.
[48]
Engle B A, Choi J Y, Harbor J, Pandey S. Web-based DSS for hydrologic impact evaluation of small watershed land use changes[J]. Computers and Electronics in Agriculture, 2003, 39: 241-249.
[49]
Stansbury J, Woldt W, Bogardi I, Bleed A. Decision support system for water transfer evaluation[J]. Water Resources Research, 1991, 27(4): 443-451.
[50]
Chen Xing, Cheng Jilin, Zhou Jiankang. Study of decision-making support system for optimal distribution of water resources based on GIS[J]. Journal of Water Resources & Water Engineering, 2008, 19(5): 15-19. [陈兴, 程吉林, 周健康.基于GIS的水资源优化配置决策支持系统的研究[J].水资源与水工程学报, 2008, 19(5): 15-19.]
[51]
Labadie J. River Basin Network Model for Water Rights Planning, MODSIM: Technical Manual[J]. Department of Civil Engineering, Colorado State University, Fort Collins, CO., 1995.
[52]
Fredericks J W, Labadie J, Altenhofen M. Decision support system for conjunctive stream-aquifer management[J]. Journal of Water Resources Planning and Management, 1998, 124(2): 69-78.
[53]
Soncini-Sessa R, Castelletti A, Weber E. A DSS for planning and managing water reservoir systems[J]. Environmental Modelling & Software, 2003, 18: 395-404.
[54]
Liu Zhihui. Decision support system for water supply management in drainage basin[J]. Arid Land Geography, 2000, 23(3): 259-263. [刘志辉. 流域供水管理决策支持系统总体设计[J]. 干旱区地理, 2000, 23(3): 259-263.]
[55]
Ge Yingchun, Li Xin. Design and implementation of water resources management and decision support system in the Middle Reaches of Heihe River[J]. Journal of Glaciology and Geocryology, 2011, 33(1): 190-196. [盖迎春, 李新. 黑河流域中游水资源管理决策支持系统设计与实现[J]. 冰川冻土, 2011, 33(1): 190-196.]
[56]
Cheng Guodong, Xiao Honglang, Xu Zhongmin, et al. Water issue and its countermeasure in the inland river basins of Northwest China -A case study in Heihe River Basin[J]. Journal of Glaciology and Geocryology, 2006, 28(3): 406-413. [程国栋, 肖洪浪, 徐中民, 等. 中国西北内陆河水问题及其应对策略[J]. 冰川冻土, 2006, 28(3): 406-413.]
[57]
Salewicz K A, Nakayama M. Development of a web-based decision support system (DSS) for managing large international rivers[J]. Global Environmental Change-human and Policy Dimensions 14 SU, 2004(Suppl.1): 25-37.
[58]
Zagona E A, Fulp T J, Goranflo H M, et al. RiverWare: a general river and reservoir modeling environment//Proceedings of the First Federal Interagency Hydrologic Modeling Conference, Las Vegas, NV, 1998: 5-113
[59]
Zagona E A, Fulp T J, Shane R, et al. RiverWare[J]. Journal of American Water Resources Association, 2001, 37(4): 913-929.
[60]
Andreu J, Capilla J, Sanchis E. AQUATOOL, a generalized decision-support system for water-resources planning and operational management[J]. Journal of Hydrology, 1996, 177: 269-291.
[61]
Holmes M G R, Young A R, Goodwin T H, et al. A catchment-based water resource decision-support tool for the United Kingdom[J]. Environmental Modelling & Software, 2005, 20: 197-202.
[62]
Li Yan, Li Manchun. A study on the construction of water resources regulation decision support system of the Yellow River[J]. Areal Research and Development, 2009, 28(5): 140-144. [李燕, 李满春. 黄河水量调度管理决策支持系统建设研究[J]. 地域研究与开发, 2009, 28(5): 140-144.]
[63]
Wei Jiahua, Wang Guangqian, Liu Ronghua. Decision support system for water resources unified regulation of the Tarim River Basin[J]. South North Water Transfers and Water Science & Technology, 2009, 7(1): 17-21. [魏加华, 王光谦, 刘荣华. 塔里木河流域水量调度决策支持系统[J]. 南水北调与水利科技, 2009, 7(1): 17-21.]
[64]
Zhu Changjun, Wang Ming, Li Shuwen, et al. Management decision support system of regional water resources in Handan area[J]. Journal of Liaoning Technical University (Natural Science), 2008, 27(Suppl.): 323-325. [朱长军, 王明, 李树文, 等. 邯郸地区水资源管理决策支持系统[J]. 辽宁工程技术大学学报(自然科学版), 2008, 27(Suppl.): 323-325.]
[65]
Xu Jianxin, Bai Xuemei, Shen Jin, el al. Decision-making software for real-time optimal allocation of water resources in irrigation area[J]. Advances in Water Science, 2003, 14(2): 178-183. [徐建新, 白雪梅, 沈晋, 等. 灌区水资源实时优化调配决策软件研制[J]. 水科学进展, 2003, 14(2): 178-183.]
[66]
Harald Vacik, Manfred J Lexer. Application of a spatial decision support system in managing the protection forests of Vienna for sustained yield of water resources[J]. Forest Ecology and Management, 2001, 1433: 65-76.
[67]
Loucks D P, Stedinger J R, Haith D A. Water Resource Systems Planning and Analysis[M]. Englewood Cliffs, NJ: Prentice Hall, 1981.
[68]
Pallottino S, Sechi G M, Zuddas P. A DSS for water resources management under uncertainty by scenario analysis[J]. Environmental Modelling & Software, 2005, 20: 1031-1042
[69]
Swart R J, Raskin P, Robinson J. The problem of the future: sustainability science and scenario analysis[J]. Global Environmental Change, 2004, 14: 137-146.
[70]
Ron S Dembo. Scenario optimization[J]. Annals of Operations Research, 1991, 30: 63-80.
[71]
Nan Zhuotong, Shu Lele, Zhao Yanbo, et al. Study of integrated modeling environment and its application in Heihe River Basin[J]. Science in China(Technology), 2011, 41(8): 1043-1054. [南卓铜, 舒乐乐, 赵彦博, 等. 集成建模环境研究及其在黑河流域的初步应用[J]. 中国科学(技术科学), 2011, 41(8): 1043-1054.]
[72]
Jo Ellen Brandmeyer, Hassan A Karimi. Coupling methodologies for environmental models[J]. Environmental Modelling & Software, 2000, 15: 479-488.
[73]
Li Xin, Cheng Guodong, Kang Ersi, et al. Digital Heihe River Basin. 3: Model integration[J]. Advances in Earth Science, 2010, 25(8): 852-865. [李新, 程国栋, 康尔泗, 等. 数字黑河的思考与实践3: 模型集成[J]. 地球科学进展, 2010, 25(8): 852-865.]
[74]
Chenoweth T, Dowling K L, St Louis R D. Convincing DSS users that complex models are worth the effort[J]. Decision Support System, 2004, 37: 71-83.
[75]
Argent R M, Vertessy R A, Watson F G R. A framework for catchment prediction modeling//Proceedings of 26th National and 3rd International Hydrology and Water Resources Symposium, Vol. 2. The Institution of Engineers, Australia, Perth, 2000: 706-711.
[76]
http: //www.uvm.edu/giee/SME3/SME3.html.
[77]
http: //www.scec.org/cme/sectionc1.html.
[78]
Leavesley G H, Markstrom S L, Brewer M S, et al. The modular modeling system (MMS)-The physical process modeling component of a database-centred decision support system for water and power management[J]. Water, Air and Soil Pollution, 1996, 90: 303-311.
