水质型缺水地区节水型社会评价体系与激励机制研究
|
摘要
日益严重的缺水问题导致的水危机已经成为我国社会经济发展的重要制约因素。节水型社会建设因此成为了资源节约型和环境友好型社会建设的重要内容和关键环节。我国南方地区属于丰水地区,水资源量虽然相对丰富,但水环境污染问题较为突出,成为“水质型缺水地区”。研究和探讨水质型缺水地区建设节水型社会的理论、方法和实践,以达到既符合区域社会经济、生态环境协调发展的战略决策,又充分体现区域水资源特点的目标,是一个重要意义的理论和实践问题。
论文以“水质型缺水地区如何建设节水型社会”为主线,在分析水质型缺水地区节水型社会的内涵、特征和发展阶段的基础上,从产业用水、社会用水和水生态足迹三个水资源利用和节约用水层次,从节水型社会建设中的计划管理机制、市场引导机制和公众参与机制三个用水和节水主体激励机制方面,采用系统学、经济学和环境学等学科交叉视角,运用理论研究与实证分析相结合的方法,系统探讨和提出了水质型缺水地区节水型社会评价体系与激励机制,并以上海地区为例开展节水型社会建设的实证研究。
论文主要内容和结果包括:
(1)分析了水质型缺水地区节水型社会的基本内涵、特征、发展阶段。在分析比较国内外节水型社会论点论述的基础上,将水质型缺水地区节水型社会的基本内涵定义为:在多利益方共同参与下,建立健全的水资源管理体制,优化水资源配置,完善市场机制,形成政府调控、市场引导、公众参与的节水机制,实现社会生产方式和生活方式的根本变革,符合区域生态完整性,以达到资源、经济、社会、生态环境的协调发展。进而提出了水质型缺水地区节水型社会具有差异性、动态性、阈值性、针对性以及可控性等基本特征,并依据Logistic模型,将水质型缺水地区的节水型社会建设划分为强制发展阶段、自律式发展阶段和自觉发展阶段。
(2)初步提出了水质型缺水地区节水型社会评价体系。从“产业用水和水生态足迹”的水资源利用和节约用水层次,分别构建了“基于产业用水协调的节水型社会评价系统”和“基于水生态足迹的节水型社会评价系统”:①提出促进可持续发展的目标原则、面向适应性管理的实施原则、多利益方共同参与的参与原则等评价原则以及可持续性、系统整体性、动态适应性以及多方参与性等节水管理原则。②设计基于资料收集与目标设定、系统分析与框架设计、现状调查和综合分析、管理对策和优化措施等4个环节的评价基本程序。③以水生态足迹为纽带,在影响因素分析的基础上,对节水型社会建设进行结构分析;给出评价指标体系、评价标准。并应用模糊综合指数模型确定其评价方法。④从目标集成和程序集成二维视角探讨节水型社会评价在节水管理中的应用。
(3)从节水型社会建设中的计划管理机制、市场引导机制和公众参与机制三个用水和节水主体激励机制方面,相应初步构建了工业需水定额机制、水价机制和公众参与机制。①在分析工业用水现状问题的基础上,尝试性给出工业最小需水定额。②在分析目前水资源价格存在问题的基础上,初步构建了工业和生活水资源价格模型。③从公众参与操作层面对问卷调查中公众的范围、选取、调查问卷的形式和内容、调查结果的对策研究等方面进行初步探讨。
(4)以作为水质型缺水地区的上海地区为实证区域,尝试性将本文构建的水质型缺水地区的节水型社会理论与方法为基础,开展节水型社会评价的应用研究论文以上海地区2005年节水情况为评价对象,尝试利用评价方法和基本程序,结合社会经济、生态环境资料及水资源、节水数据,对上海地区节水状况进行定量化评价。评估结果表明,上海地区产业用水系统基本有序,发展比较协调,其用水综合效益较大,但距离最优状态尚有潜力可挖;其中,农业用水子系统的发展较为欠缺,在未来用水规划中应予以重视;节水型社会综合水平处于初级阶段。其中,生态环境子系统与水资源子系统发展不协调,反映了该地区的水质型缺水问题;在分析未来年的预测指标值与国际先进性水平的差距的基础上,探讨影响各节水指标的主要驱动力因子,找出上海节水体制存在的问题。
(5)从计划管理调控机制、市场引导机制和公众参与机制等方面构建的节水型社会建设激励机制,尝试给出上海地区节水型社会建设的相关方案:①论文以上海2004年纺织行业为例,应用论文构建的模型测算该行业需水定额。②以上海工业和生活用水为研究对象,采用水价模型进行计算,测算得上海地区工业水价和生活阶梯水价。并通过对工业和生活水价的情景分析,认为通过建立合理的工业和生活水价体系有利于进一步推行上海地区节水型社会的建设。③以上海地区节水型社区公众调查为例,结果显示居民家庭用水较为浪费,节水意识与相关措施有待加强。而强化供水管网监控管理、普及节水器具、研发废水资源化的措施、加大政策节水力度和加强宣传教育等是小区节水的有效措施。④基于上海地区节水型社会系统的重点分析和综合评价结果,设定上海地区水污染控制和节水管理对策主要包括:水体环境修复(如水质修复等)、污染控制管理、水资源节约管理和节水技术开发等部分。
Water crisis due to the increasingly serious water pollution has become a major factor that constraints the development of society and economy of China. The building of water conservation society occupies the most improtant role in the implementation of sustainable development strategy and contributes much as well to the harmonious development of social economy and ecological environment, especially in the southern areas of China, known as the 'quality-induced water shortage' areas, where the water is abundant but the water quality is very poor because of the deterioration of eco-environment.
The thesis systematically studies on the assessment system and incentive mechanisms of water conservation society based on multi-disciplinary knowledge that includes the system science, the economics science and the environmental science. The results achieved in the paper will contribute much to the establishment of research system on the quality-induced water shortage society and promote the water resource sustainable utilization.
Based on much internal and external literature related to the study on the water conservation society, the conceptualization and characterization as well as development stages the of water conservation society are illustrated and discussed. The assessment system for the water conservation society is put forward with respect to regional water-utility compatibility and water footprint. The basis of three water-saving angles, the water demand quota mechanism, the water price mechanism and the public participation mechanism are established using the component of incentive mechanisms. Taking Shanghai as the study case, the concept of water conservation society has been put into practice by using the theory and method of pollution induced water shortage areas, and the channels to construct the water conservation society are suggested. The achievements acquired in this paper mainly include the following aspects:
(1) The concept about the water conservation society of pollution induced water shortage areas is put forward followed by the essence of water conservation society consistently admitted by the relevant studies internal and external. Through the multi-stakeholder participating in the process, the sensible water resources management system and market mechanism is established. Meanwhile, the water conservation mechanism is constituted, including: the government regulation, the market guidance and the public participation. As a result, the modes of social production and lifestyles are changed to promote the coordinated development of resources, economy, society and environment. The basic characteristics of "water conservation society", including the diversity, the dynamicity, the threshold, the pertinence and the controllability, are discussed based on the characteristics of water resources system and the regional investigation. In addition, the development stages of water conservation society is studied by using the logistic model.
(2) The assessment method of regional water use for industry is established using the systematology harmony theory. With respect to the water footprint available, the evaluation system is established for the assessment of water conservation society in the pollution induced water shortage areas. The principles of assessment are suggested including the ones oriented to the promotion of sustainable development, the adaptability of management and the multi-stakeholder participation; and the management principles, including the sustainability, the system integration, the dynamic adaptability and the stakeholder involvement, are demonstrated. The four-stage assessment procedure is construted, which consists of the data collection and goal-setting stage, the prliminary investiagion and investigation and framework design stage, the detailed investigation and comprehesive analysis stage as well as the adaptive management stage. Meanwhile, the water conservation society is analysed base on the influential factors; the indicator system and the assessment methods are put forward; the development of water conservation society assessment in water resoures management is discussed.
(3) The mechanism of the water price system and the water quota as well as the public participation are discussed. The water price model and quota model for industry and living are established according to the questions about the water price and the amount of water use. Meanwhile, some key problems related to the investigation, including the range and choice of public, the form and function of questionnaires as well as the analysis on the results public survey, are preliminarily discussed.
(4) Taking Shanghai area as an example, the assessment methods for the pollution induced water shortage areas put forward in this paper are managed to be applied to the assessment of water conservation level in the year 2005 according to the socio-economic conditions, the ecological environment and water saving data issued in public by the local government (Shanghai). The results show that the coordination degree of industry water use system in Shanghai is fairly good. Whereas, there still be some space for promoting the water use system in Shanghai area. It is suggested that more attention should be paid on the agriculture water use system in the future programming of water use system in Shanghai. Moreover, the forecasting indicators of the water conservation level in Shanghai are analysed and compared with that of the advanced level in the world. The results manifest the comprehensive level of water conservation in Shanghai is still lower than that in the developed countries. Through making an analysis of this gap, the problems of water-saving system in Shanghai are found.
(5) The incentive mechanism of water-conservation society system is constructed in this paper from different sides.①Taking the textile industry of Shanghai in year 2004 as a case study, the water quota calculation method for the production is calculated.②The water price model is used to estimate the water price for industry and living, respectively, in Shanghai. The implementation of price for industry water and living water will partly contribute to the establishment of water-saving society in Shanghai.③The questionnaire survey of water consumption and water saving in typical Shanghai residential areas shows that the consciousness of water conservation should be strengthened among people, and more related measures are to be made to decrease the waste of household water use. The effective measures taken to save the living water mainly include: improving the management of water supply system, popularizing the water saving utensils for living; developing recovering resource technology from wastewater, strengthening the residential water-saving consciousness through intensive propaganda.④The water conservation management and corresponding measures, mainly concerned about the restoration of water environment, pollution control and the development of water-saving technology, are dicussed in detail based on the comprehesive assessment of water conservation society in Shanghai.
论文以“水质型缺水地区如何建设节水型社会”为主线,在分析水质型缺水地区节水型社会的内涵、特征和发展阶段的基础上,从产业用水、社会用水和水生态足迹三个水资源利用和节约用水层次,从节水型社会建设中的计划管理机制、市场引导机制和公众参与机制三个用水和节水主体激励机制方面,采用系统学、经济学和环境学等学科交叉视角,运用理论研究与实证分析相结合的方法,系统探讨和提出了水质型缺水地区节水型社会评价体系与激励机制,并以上海地区为例开展节水型社会建设的实证研究。
论文主要内容和结果包括:
(1)分析了水质型缺水地区节水型社会的基本内涵、特征、发展阶段。在分析比较国内外节水型社会论点论述的基础上,将水质型缺水地区节水型社会的基本内涵定义为:在多利益方共同参与下,建立健全的水资源管理体制,优化水资源配置,完善市场机制,形成政府调控、市场引导、公众参与的节水机制,实现社会生产方式和生活方式的根本变革,符合区域生态完整性,以达到资源、经济、社会、生态环境的协调发展。进而提出了水质型缺水地区节水型社会具有差异性、动态性、阈值性、针对性以及可控性等基本特征,并依据Logistic模型,将水质型缺水地区的节水型社会建设划分为强制发展阶段、自律式发展阶段和自觉发展阶段。
(2)初步提出了水质型缺水地区节水型社会评价体系。从“产业用水和水生态足迹”的水资源利用和节约用水层次,分别构建了“基于产业用水协调的节水型社会评价系统”和“基于水生态足迹的节水型社会评价系统”:①提出促进可持续发展的目标原则、面向适应性管理的实施原则、多利益方共同参与的参与原则等评价原则以及可持续性、系统整体性、动态适应性以及多方参与性等节水管理原则。②设计基于资料收集与目标设定、系统分析与框架设计、现状调查和综合分析、管理对策和优化措施等4个环节的评价基本程序。③以水生态足迹为纽带,在影响因素分析的基础上,对节水型社会建设进行结构分析;给出评价指标体系、评价标准。并应用模糊综合指数模型确定其评价方法。④从目标集成和程序集成二维视角探讨节水型社会评价在节水管理中的应用。
(3)从节水型社会建设中的计划管理机制、市场引导机制和公众参与机制三个用水和节水主体激励机制方面,相应初步构建了工业需水定额机制、水价机制和公众参与机制。①在分析工业用水现状问题的基础上,尝试性给出工业最小需水定额。②在分析目前水资源价格存在问题的基础上,初步构建了工业和生活水资源价格模型。③从公众参与操作层面对问卷调查中公众的范围、选取、调查问卷的形式和内容、调查结果的对策研究等方面进行初步探讨。
(4)以作为水质型缺水地区的上海地区为实证区域,尝试性将本文构建的水质型缺水地区的节水型社会理论与方法为基础,开展节水型社会评价的应用研究论文以上海地区2005年节水情况为评价对象,尝试利用评价方法和基本程序,结合社会经济、生态环境资料及水资源、节水数据,对上海地区节水状况进行定量化评价。评估结果表明,上海地区产业用水系统基本有序,发展比较协调,其用水综合效益较大,但距离最优状态尚有潜力可挖;其中,农业用水子系统的发展较为欠缺,在未来用水规划中应予以重视;节水型社会综合水平处于初级阶段。其中,生态环境子系统与水资源子系统发展不协调,反映了该地区的水质型缺水问题;在分析未来年的预测指标值与国际先进性水平的差距的基础上,探讨影响各节水指标的主要驱动力因子,找出上海节水体制存在的问题。
(5)从计划管理调控机制、市场引导机制和公众参与机制等方面构建的节水型社会建设激励机制,尝试给出上海地区节水型社会建设的相关方案:①论文以上海2004年纺织行业为例,应用论文构建的模型测算该行业需水定额。②以上海工业和生活用水为研究对象,采用水价模型进行计算,测算得上海地区工业水价和生活阶梯水价。并通过对工业和生活水价的情景分析,认为通过建立合理的工业和生活水价体系有利于进一步推行上海地区节水型社会的建设。③以上海地区节水型社区公众调查为例,结果显示居民家庭用水较为浪费,节水意识与相关措施有待加强。而强化供水管网监控管理、普及节水器具、研发废水资源化的措施、加大政策节水力度和加强宣传教育等是小区节水的有效措施。④基于上海地区节水型社会系统的重点分析和综合评价结果,设定上海地区水污染控制和节水管理对策主要包括:水体环境修复(如水质修复等)、污染控制管理、水资源节约管理和节水技术开发等部分。
Water crisis due to the increasingly serious water pollution has become a major factor that constraints the development of society and economy of China. The building of water conservation society occupies the most improtant role in the implementation of sustainable development strategy and contributes much as well to the harmonious development of social economy and ecological environment, especially in the southern areas of China, known as the 'quality-induced water shortage' areas, where the water is abundant but the water quality is very poor because of the deterioration of eco-environment.
The thesis systematically studies on the assessment system and incentive mechanisms of water conservation society based on multi-disciplinary knowledge that includes the system science, the economics science and the environmental science. The results achieved in the paper will contribute much to the establishment of research system on the quality-induced water shortage society and promote the water resource sustainable utilization.
Based on much internal and external literature related to the study on the water conservation society, the conceptualization and characterization as well as development stages the of water conservation society are illustrated and discussed. The assessment system for the water conservation society is put forward with respect to regional water-utility compatibility and water footprint. The basis of three water-saving angles, the water demand quota mechanism, the water price mechanism and the public participation mechanism are established using the component of incentive mechanisms. Taking Shanghai as the study case, the concept of water conservation society has been put into practice by using the theory and method of pollution induced water shortage areas, and the channels to construct the water conservation society are suggested. The achievements acquired in this paper mainly include the following aspects:
(1) The concept about the water conservation society of pollution induced water shortage areas is put forward followed by the essence of water conservation society consistently admitted by the relevant studies internal and external. Through the multi-stakeholder participating in the process, the sensible water resources management system and market mechanism is established. Meanwhile, the water conservation mechanism is constituted, including: the government regulation, the market guidance and the public participation. As a result, the modes of social production and lifestyles are changed to promote the coordinated development of resources, economy, society and environment. The basic characteristics of "water conservation society", including the diversity, the dynamicity, the threshold, the pertinence and the controllability, are discussed based on the characteristics of water resources system and the regional investigation. In addition, the development stages of water conservation society is studied by using the logistic model.
(2) The assessment method of regional water use for industry is established using the systematology harmony theory. With respect to the water footprint available, the evaluation system is established for the assessment of water conservation society in the pollution induced water shortage areas. The principles of assessment are suggested including the ones oriented to the promotion of sustainable development, the adaptability of management and the multi-stakeholder participation; and the management principles, including the sustainability, the system integration, the dynamic adaptability and the stakeholder involvement, are demonstrated. The four-stage assessment procedure is construted, which consists of the data collection and goal-setting stage, the prliminary investiagion and investigation and framework design stage, the detailed investigation and comprehesive analysis stage as well as the adaptive management stage. Meanwhile, the water conservation society is analysed base on the influential factors; the indicator system and the assessment methods are put forward; the development of water conservation society assessment in water resoures management is discussed.
(3) The mechanism of the water price system and the water quota as well as the public participation are discussed. The water price model and quota model for industry and living are established according to the questions about the water price and the amount of water use. Meanwhile, some key problems related to the investigation, including the range and choice of public, the form and function of questionnaires as well as the analysis on the results public survey, are preliminarily discussed.
(4) Taking Shanghai area as an example, the assessment methods for the pollution induced water shortage areas put forward in this paper are managed to be applied to the assessment of water conservation level in the year 2005 according to the socio-economic conditions, the ecological environment and water saving data issued in public by the local government (Shanghai). The results show that the coordination degree of industry water use system in Shanghai is fairly good. Whereas, there still be some space for promoting the water use system in Shanghai area. It is suggested that more attention should be paid on the agriculture water use system in the future programming of water use system in Shanghai. Moreover, the forecasting indicators of the water conservation level in Shanghai are analysed and compared with that of the advanced level in the world. The results manifest the comprehensive level of water conservation in Shanghai is still lower than that in the developed countries. Through making an analysis of this gap, the problems of water-saving system in Shanghai are found.
(5) The incentive mechanism of water-conservation society system is constructed in this paper from different sides.①Taking the textile industry of Shanghai in year 2004 as a case study, the water quota calculation method for the production is calculated.②The water price model is used to estimate the water price for industry and living, respectively, in Shanghai. The implementation of price for industry water and living water will partly contribute to the establishment of water-saving society in Shanghai.③The questionnaire survey of water consumption and water saving in typical Shanghai residential areas shows that the consciousness of water conservation should be strengthened among people, and more related measures are to be made to decrease the waste of household water use. The effective measures taken to save the living water mainly include: improving the management of water supply system, popularizing the water saving utensils for living; developing recovering resource technology from wastewater, strengthening the residential water-saving consciousness through intensive propaganda.④The water conservation management and corresponding measures, mainly concerned about the restoration of water environment, pollution control and the development of water-saving technology, are dicussed in detail based on the comprehesive assessment of water conservation society in Shanghai.
引文
[1] Abdel M, Ebrahim S, AI-Tabtabaei M. Advanced technologies for municipal wastewater purification: technical and economic assessment[J]. Desalination, 1999,124: 251-261.
[2] Adil A R. Integrated water resources management (IWRM): an approach to face the challenges of the next century and to avert future crises [J]. Desalination, 1999,124(1-3): 145-153.
[3] Adolphson D L, Cornia G C, Walters L C. Railroad property valuation using data envelopment analysis[J].Interfaces, 1989, 19(3), 18-26.
[4] Ahmad M. Water Pricing and Markets in the Near East: Policy Issues and Options[J]. Water Policy, 2000(2):229-242.
[5] Ahn B S. The analytic hierarchy process in an uncertain environment: A simulation approach by Hauser and Tadikamalla[J]. European Journal of Operational Research, 2000,124(1): 217-218.
[6] Allan C, Curtis A, Stankey G, et al. Adaptive management and watersheds: a social science perspective[J].Journal of the American Water Resources Association, 2008, 44(1), 166-174.
[7] Allan J A , Jennifer C O. Politics, economics and (virtual) water: A discursive analysis of water policies in the Middle East and North Africa[J]. Research in Middle East Economics, 2003, 5(1): 53-78.
[8] Allan J A. Virtual water: a long term solution for water short Middle Eastern economies? [EB/OL] http://www.soas. ac. uk/Geography/Waterlssues/Occasional Papers/home. Html, 2005-03-12.
[9] Allan J A. Virtual Water-the Water, Food and Trade Nexus Useful Concept or Misleading Metaphor?[J]. Water International, 2003, 28(1): 106-113.
[10] Allan T. "Virtual water"A Long Term Solution for Water Short Middle Eastern Economies?[C]. Paper Presented at the 1997 British Ass ociation Festival of Science, Roger Stevens Lecture Theatre, University of Leeds, Water and Development Session. 1997,9.
[11] Al-Weshah R. The Role of UNESCO in Sustainable Water Resources Management in the Arab World[J].Desalination, 2002, 152: 1-13.
[12] Andersen P, Petersen N C. A procedure for ranking efficient units in data envelopment analysis[J]. Management Science, 1993, 39: 1261-1264.
[13] Andesson C L, Peterson J N. Water allocation: the role of value sandprices[J]. J of Environment System, 1985,15(1): 71-79.
[14] Arrow K. The information of economics[M]. Cambridge, Mass: Belknap Press, 1984.
[15] Asano T, Levine A D. Wastewater Reuse: A Valuable Link in Water Resources Management[J]. Water Quality International, 1995, 4: 20-24.
[16] Asano T, Richard D, Crites R W, Tchobanoglous G Evolution of tertiary treatment requirements for wastewater reuse in California[J]. Water Environ. Techno., 1992, 4(2): 36-41.
[17] Asano T. Proposed California Regulations for Groundwater Recharge with Reclaimed Municipal Wastewater[J].Wat. Sci.&Tech., 1993, 27(7): 157-164.
[18] Asno T. Irrigation with treated sewage effluents[J]. Advanced Series in Agricultural Sciences, 1994, 22: 199-228.
[19] Bakir H A. Sustainable wastewater management for small communities in the Middle East and North Africa[J].Journal of Environmental Management, 2001, 61(4): 319-328.
[20] Banker R D. Estimating most productive scale size using data envelopment analysis[J]. European Journal of Operational Research, 1984 (17): 35-44.
[21] Batchelor C. Improving Water Use Efficiency as Part of Integrated Catchment ManagementP[J]. Agricultural Water Management, 1999, 40: 249-263.
[22] Beecher J A, Mann P C, Hegazy Y, et al. Revenue Effects of Water Conservation and Conservation Pricing:Issues and Practices[D]. National Regulatory Research Institute, Ohio State University, USA, 1994.
[23] Berk R A, Cooley T F, LaCivita C J, et al. Reducing Consumption in Period so f Acute Scarcity: The Case of Water[J]. Social Sci. Res., 1980, 9: 99-120.
[24] Bhalia R, Raheja S K. Multiple uses of water: a research proposal[J]. Submitted to International Irrigation Management Institute. Colombo, SriLanka. Draft, 1996.
[25] Billings R B, Day W M. Price Elasticity's For Water: A Case of Increasing Block Rates[J]. Land Economics.,1980, 56(1): 73-84.
[26] Bolloju N. Aggregation of analytic hierarchy process models based onsimilarities in decision makers? [J].European Journal of Operational Research, 2001,128: 499-508.
[27] Bonomo L, Nurizzo C, Role E. Advanced wastewater treatment and reuse: related problems and perspectives in Italy[J]. Water Science and Technology, 1999, 40(4-5): 21-28.
[28] Bowen R L, Young R A. Financial and economic irrigation net benefit functions for Egypt's Northern Delta[J].Water Resources Research, 1985,21(8): 1329-1335.
[29] Braden J B, Vanlerland E C. Balancing: The Economic Approach to Sustainable Water Management[J]. water Science and Technology, 1999, 39(5): 17-23.
[30] Bradley B R, Daigger G T. A sustainable development approach to wastewater infrastructure[J]. WEFTEC, 2000,60:1-17.
[31] Buras N. Scientific Allocation of Water Resources[M]. American Elsevier Publication Co., Inc., New York, 1972.
[32] Butler D, Parkinson J. Towards sustainable urban drainage[J]. Water Science and Technology, 1997, 35(9): 53-63.
[33] Chapagain A K, Hoekstra A Y, Savenije H G, Gautam R. The water footprint of cotton consumption An assessment of the impact of worldwide consumption of cotton products on the water resources in the cotton producing countries[J]. Ecological Economics, 2006, (60): 186-203.
[34] Chapagain A K, Hoekstra A Y. The water needed to have the Dutch drink tea[A]. Value of Water Research Report Series No. 15[C]. Netherlands, Delft: UNESCO 2IHE Institute for Water Education, 2003.
[35] Chapagain A K, Hoekstra A Y. The water needed to have the Dutch drink coffee[A]. Virtual Water Trade:Proceedings of the International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 1-38.
[36] Chapagain A K, Hoekstra A Y. Virtual water trade: a quantification of virtual water flows between nations in relation to international trade of livestock and livestock products[A]. Virtual Water Trade: Proceedings of the International Expert Meeting on Virtual Water Trade [C]. IHE Delft, 2003: 49-76.
[37] Chapagain A K, Hoekstra A Y. Water footprint s of nations [A], Value of Water Research Report Series No.16[C] .IHE Delft, 2004: 1-80.
[38] Charnes A, Cooper W W, Rhodes E, Measuring the efficiency of decision making units[J]. Eur.J.of Oper.Res.,1987, 2.
[39] Ciardelli G, Ranieri N. Technical note the treatment and reuse of wastewater in the textile industry) by means of Ozona ion and elect flocculation [J]. Water Research, 2001, 35(2): 567-572.
[40] Coelli T J. Recent developments in frontier modeling and efficiency measurement [J]. Austr J Agric Econ, 1995,39 (3): 219-245.
[41] Cornwell D A, et al. Water Stream Recycling: Its Effect on Water Quality[J]. AWWA. 1994, 86(11): 50-63.
[42] Cross P, Delneky G, Lothrop T. Worth Its Weight in Oranges: Florida City and County Turn Wastewater Effluent into Valuable Commodity[J]. Water Environment & Technology. 2000, 12(1): 26-30.
[43] Dai T, Labadie J W. River basin network model for integrated water quantity/quality management[J]. Journal of Water Resources Planning and Management, 2001, 127 (5): 295-305
[44] Doppler W, Salman A, Al-Karablieh EK, et al. The impact of water price strategies on the allocation of irrigation water: the case of the Jordan Valley[J]. Agricultural water management, 2002, 55: 171-182.
[45] Drewes E, Jekel M. Simulation of goundwater recharge with Advanced Treated Municipal Wastewater[J]. Wat.Sci.&Tech., 1996,33(11): 349-356.
[46] Drewes J E. Survey of Indirect Potable Reuse of Municipal Wastewater in the Southwestern United States[A].Proceedings Sino-Germany Workshop on Wastewater Treatment and Reuse. Beijing, China, 1996: 1-6.
[47] Easter K W, Hearne R. Water market and decentralized water[J]. Water Resources Bulletin, 1995, 31(1): 9-20.
[48] Eaton B C, Lipsey R G Product Differentiation[C]. Schmalensee R., Willig R.: Handbook of Industrial Organization. Amsterdam: North Holland, 1988, 723-770.
[49] Eberhard R. Supply Pricing of Urban Water in South Africa[R]. Report to the Water Research Commission on the Project "Pricing Water As an Economic Resource: Implications for South Africa", 1998.
[50] El-Fadel M, Maroun R. The concept of 'virtual water' and its applicability in Lebanon[A]. Virtual Water Trade:Proceedings of the International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 172-182.
[51] Elnaboulsi J C. Nonlinear pricing and capacity planning for water and wastewater services[J]. Water Resources Management, 2001, 2: 55-69.
[52] ESCAP(UN). Principles and practices of water allocation among water use sectors[R]. Water Resources Series,No.80, United Nations, New York, 2000.
[53] Fakeries S H. Naraganan. Rigidity and Quantity Rationing Rules under Stochastic Water Supply[J]. Water Resour.Res, 1984, 6: 20-23.
[54] Falkenmark M. Dilemma When Entering 21st Century Rapid Change but Lack of Sense of Urgency[J]. Water Policy, 1998, 4: 421-436.
[55] Farrell M J. The measurement of productive efficiency[J]. Journal of the Royal Statistics Society, 1957, A120(3):253-290.
[56] Ferguson B K. Storm Water Infiltration [M]. Lewis Publishers, 1996: 36-88.
[57] Frank A W, King J P. Economic Incentives for Agriculture Can Promote Water Conservation[A]. Proceedings of the New Mexico State University Water Conservation Conference, 1997.
[58] Graaf J, Meester H, Bruggeman W A, et al. Sustainable technological development for urban-water cycles [J].Water Science Technology, 1997, 35(10): 213-220.
[59] Gromaire-Mertz M C, Gamaud S, et al. Characterization of Urban Runoff Pollution in Paris[J]. Water Science &Technology, 1999, 39(2): 1-8.
[60] Guan D, Hubacek K. Assessment of regional trade and virtual water flows in China[J]. Ecological Economics,2006, 2(22): 1-12.
[61] Haddada M, Lindner K. Sustainable water demand management versus developing new and additional water in the Middle East: a critical review[J]. Water Policy, 2001(3): 143-163.
[62] Harris J M, Kennedy S, et al. Carrying capacity in Agriculture: Globe and regional issue[J]. Ecological Economics, 1999, 29(3): 443-461.
[63] Hauser D, Tadikamalla P. The analytic hierarchy process in an uncertain environment: A simulation approach[J].European Journal of Operational Research, 1996, 91: 27-37.
[64] He P J, Phan L, Gu G W. Reclaim municipal wastewater~a potential water resource in China[J]. Water Science and Technology, 2001, 43(10): 51-58.
[65] Hellstroma D, Jeppssonb U, Karrmanc E. A framework for systems analysis of sustainable urban water mnagement[J]. Environmental Impact Assessment Review, 2000, 20, 311- 321.
[66] Herbertson P W, Dovey W J. The Allocation of Fresh Water Resources of a Tidal estuary[J]. Optimal Allocation Water Resources (Proceedings of the Enter Symposium), 1982, 135.
[67] Hoekstra A Y, Hung P Q. Virtual Water Trade: A Quantification of Virtual Water Flows between Nations in Relation to International Crop Trade. Value of Water Research Series No.11[M]. IHE Delft, 2002: 15-17.
[68] Hotelling H. Stability in Competition[C]. Gabszewics J .Thisse J . Microeconomic Theories of Imperfect Competition ,Old Problems and New Perspectives. U K: Edward Elgar, 1999: 441-457.
[69] Hrlich, Anne H. Looking for the Ceiling: Estimates of the Earth's carrying capacity[M]. American Scientist,Research Triangle Park, 1996.
[70] Hui C W. Determining marginal values of intermediate materials and utilities using a site model[J]. Computers and Chemical Engineering, 2000, 24: 2-7.
[71] International Chamber of Commerce (I.C.C.), Environmental Auditing[R]. Report No.465, Paris, France, 1989.
[72] Javaid A, Noble D H. Optimization model for alternative use of different quality irrigation waters[J]. Journal of Irrigation and Drainage Engineering, 1992, 118(2): 218-228.
[73] Jonker L. Integrated water resources management: theory, practice, cases[J]. Physics and Chemistry of the Earth,2002(27): 719-720.
[74] Jordan J L. The Effectiveness of Pricing As A Stand- Alone Water Conservation Program[J]. Water Resource Bulletin, 1994, 30(5): 871-877.
[75] Jurdia M, Korfalib S I, etc., A Portotype Study for the Management of Surface Water Resources, Lebanon[J].Water Policy, 2001, (3): 41-46.
[76] Kirkpatrick W P, Asano T. Evaluation of tertiary treatment systems for wastewater reclamation and reuse[J].Water Science and Technology, 1986, 19(10): 83-95.
[77] Knapp K C. Irrigation Management and Investment Under Saline, Limited Drainage Conditions: Policy Analysis And Extensions[J]. Water Resources Research, 1992,28(12): 3099-3109.
[78] Kolokytha E G, Mylopoulos Y A, Mentes A K. Evaluating demand management aspects of urban water policy-a field survey in the city of Thessaloniki[J]. Greece. Urban Water, 2002, 4: 391-400.
[79] Kontos N, Asano T. Environmental assessment, for wastewater reclamation and reuse projects[J]. Water Science and Technology, 1996, 33(10-11): 473-486.
[80] Kristy A N, Bulleit. Achieving Sustainable Development: a Review of the Environmental Balancing Act in Two Key Clean Water Act Regulatory Programs[J]. Environmental Science & Policy, 2000, 3.
[81] Ladson A R, White L J. An index of stream condition: Reference manual (second edition)[M]. Melbourne:Department of Natural Resources and Environment, 1999: 1-65.
[82] Lancaster K. A New Approach to Consumer Theory[J]. Journal of Political Economy, 1966, 74: 132-157.
[83] Lancaster K. Consumer demand: a new approach[M]. New York: Columbia University Press, 1979.
[84] Levine J. Adaptive management in river restoration: theory vs. practice in western North America[J]. Water Resources Center Archives, University of Califorinia, 2004.
[85] Levite H, Sally H. Linkages between productivity and equitable allocation of water[J]. Physics and Chemistry of the Earth, 2002(27): 825-830.
[86] Loaiciga H A, Renehan S. Municipal water use and water rates driven by severe drought: A case study[J]. Journal of the American Water Resources Association, 1997,33(6): 1313-1326.
[87] Loslovich I, Gutman P O. A model for the global optimization of water prices and usage for the case[J].Mathematics and Computers in Simulation, 2001: 347-356.
[88] Lovell C AK. Production frontiers and productive efficiency[M]. In The measurement of productive efficiency. Oxford: Oxford University Press. 1993.
[89] Lovins A B. Soft Energy Paths: Toward a Durable Peace. Friends of the Earth InternationalfM], Ballinger Publishing Company, San Francisco and New York, 1977.
[90] Maimohe M, Labial M. Assessing Nassan County's Water Conservation Program[J]. Journal of Water Resources Planting and Management, 1994, 120(1).
[91] Malian R C, Horbulyk T M, Rowsec JG Market mechanisms and the efficient allocation of surface water resources in southern Alberta[J]. Socio-Economic Planning Sciences, 2002, 36: 25-49.
[92] Matheson Z, Ford S, Hill S. Waste Minimization Water Recycling-a Case Study at the Millennium Dome [J].IWA Yearbook, 2000: 30-32.
[93] Mercer L J. The efficiency of water pricing: A rate of return analysis for municipal water department[J]. Water Resource Bull., 1986, 23(2): 92-108.
[94] Meyer PS, Yung JW, Ausubel J H. A primer on logistic growth and substitution: the Mathematics of the Loglet Lab Software[J]. Technological Forecasting and Social Change, 1999, 61(3): 247-271
[95] Michael L J. Estimating Urban Residential Water Demand: Effects of Price Structure, Conservation and Education[J]. Water Resources Res, 1992, 28(3): 43-50.
[96] Mikkelsen P S, Adeler O F, Albrechtsen H J, Henze M. Collected Rainfall as a Water Source in Danish Households-What is the Potential and What are the Costs[J]. Water Science & Technology, 1999, 39(5): 49-56.
[97] Mitcnell V G, Mein R G McMahon T A. Modeling the Possible Utilization of Storm water and Wastewater within an Urban Coachmen[J]. AWWA 17th Federal Convention, 1997: 65-72.
[98] Moncur JET. Drought Episodes Management: the Role price[J]. Water Resour.Ball, 1988, 2.
[99] Mudege N, Taylor R. Implementing integrated water resources management in Southern Africa-A focus on capacity building efforts and strategies [EB/OL]. http://www.cap-net.org, 2003-01-20.
[100]Murdock S H. Role of Socio demographic characteristics in Projections of Water Use[J]. Journal of Water Resources Planning and Management, 1991, 2: 117.
[101] Narayanan R, Beladi H. Feasibility of seasonal water pricing considering metering costs[J]. Water Resources Research, 1987, 23(6): 1091-1099.
[102] Nelson R. On the measurement of capacity utilization[J]. J Indus Econ, 1989, 37(3): 12.
[103]Nkomo S, Pieter van der Zaag P. Equitable water allocation in a heavily committed international catchment area:the case of the Komati Catchment[J]. Physics and Chemistry of the Earth, 2004, (29): 1309-1317.
[104] Oki T, Sato M. Virtual water trade to Japan and in the world[A]. Virtual Water Trade: Proceedings of the International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 221-238.
[105]Otterpohl R, Albold A, Oldenburg M. Source control in urban sanitation and waste management: ten systems with reuse of resources[J]. Water Science and Technology, 1999, 39(5): 153-160.
[106] Otterpohl R, Grottkers M, SrgLange J. Sustainable water and waste management in urban areas[J]. Water Science and Technology, 1997, 35(9): 121-133.
[107]Panayotou T. Economic Instruments for Environmental Management and Sustainable Development [C].Environment Economics Series, paper No. 16, UNEP environment and Economic Unit, 1994, 12.
[108] Papaiacovou I. A Case study wastewater reuse in Girasol as an alternative water source[J]. Desalination, 2001, 38:55-59.
[109] Parliamentary Commissioner for the Environment. Ageing pipes and murky waters urban water system issues for the 21st century [EB/OL]. http://www. pce. Govt. nz. 2003.
[110] Pearson, Walsh P D. The Derivation and Use of Control Carves for the Regional Allocation of Water Resources[J]. Water Resources research, 1982, (7): 907-912.
[111] Pennacchio V F. Price elasticity of water demand with respect to the design of water rates[J]. Journal England water Works Association, 1986, 100(4): 442-452.
[112]Perrcia C, Oron G Optimal Operation of Regional System with Diverse Water Quality Sources[J]. Journal of Water Resources Planning and Management, 1997, 203(5): 230-237.
[113] Piegaya H, Dupontb P, Faby J A. Questions of Water Resources Management. Feed back on the implementation of the French SAGE and SDAGE Plans (1992-2001)[J]. Water Policy, 2002, (4): 239-262.
[114]Plester H R F, et al. The Evolution of Water Resource Development in North Ireland[J]. CIWEM, 1995, 9(6):272-280.
[115] Raftelis G A, Van Duson J D. Factors affecting water and wastewater rates[J]. Public Works, 1988, 2: 61-62.
[116]Reca J, Roldan J, Alcaide M, et al. Optimization model for water allocation in deficit irrigation systems Description of the model[J]. Agricultural water management, 2002(55): 171-182.
[117] Renault D. Value of virtual water in food: principles and virtues[A]. Hoekstra A Y, Virtual Water Trade:Proceedings ofthe International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 77-91.
[118]Renwick M E, Archibald S O. Demand Side Management Policies for Residential Water Use: Who Bears the Conservation Burden?[J]. Land Econom, 1998, 74: 343-359.
[119] Romijn E, Taminga M. Allocation of Water Resources[J]. Proceedings of the Symposium, 1982, 135.
[120] Rosegrant M. Sustainable food security for all by 2002[A]. Proceeding of an International Conference, Bonn.www.ifpri.org/pubs/books. 2001, 9: 2-6.
[121] Saatty T L. The sudan transport study[J]. Interfaces. 1997, 8(1).
[122] Salop S C. Monopolistic Competition wit h Out side Goods[J]. The Bell Journal of Economics, 1979, 10:141-156.
[123] Samer M, Jamal I. Egyptian experience in utilizing recycled water for irrigation purposes[J]. Desalination, 1995,11(93): 663-671.
[124] Sasikumar K, Mujumdar P P. Fuzzy optimization model for water quality management of a river system[J].Journal of Water Resources Planning and Management, 1998, 124(2): 79-84.
[125] Sato K. A Two-level Constant Elasticity of substitution Production Function[J]. Review of Economic Studies,1967, 34(2): 201-218.
[126] Scheider M L. Use-specific water demand elasticities[J]. Water Resource Planning and Management, 1991,117(1): 23-35.
[127] Schlette T C, Kemp D C. Setting rates to Encourage Water Conservation[J]. Water Engineer and Management,1991, (5): 25-29.
[128] Schneider M L. User-specific Water Demand Elasticity[J]. Journal of Water Resources Planning and Management, 1991, 117(1): 189-195.
[129] Schuck E C, Green G P. Supply-based Water Pricing in a Conjunctive Use System: Implications For Resource and Energy Use[J]. Resource and Energy Economics, 2002,24,175-192.
[130] Seckler D. The new era of water resources management[J]. Issues of Agriculture, 1996, 25(8): 146-158.
[131] Seidl I, Tisdell C A. Carrying capacity reconsidered: from Malthus' population theory to cultural carrying capacity[J]. Ecological Economics, 1999(31): 395-408
[132] Shapira A, Goldenberg M. AHP-Based Equipment selection Model for Construction Projects[J]. J. Constr. .Engrg.and Mgmt. 2005, 131(12), 1263-1273.
[133] Sheikh B, Cooper R C, Israel K E. Hygienic evaluation of reclaimed water used to irrigate food crops-a case study [J]. Water Science and Technology, 1999, 40(4-5): 261-267. -
[134] Sheriff D, et al. Strategic Resource Development Options in England and Wales[J]. CIWEM, 1996, 10(6):160-169.
[135]Shiklomanov I A. In Water in crisis: A guide to the world's fresh water resources[M]. New York: Oxford University Press, 1993:13-24.
[136] Shu-Hai Y, Dyt-Hwa T, Gia-Luen G. A case study on the wastewater reclamation and reuse in the semiconductor industry. Resources[J]. Conservation and Recycling, 2001, 32: 73-81.
[137] Shy O. Industrial Organization, Theory and Applications[M]. Cambridge: MIT Press, 1995.
[138] Simonnvic S P. Decision support system for sustainable management of water resources: 1. General Principles[J].Water International, 1996(21): 223-232.
[139] Somlyody L. Water Quality Management[J]. Water Science and technology. 1995, 31(8): 249-259.
[140] Sophocleous M. From safe yield to sustainable development of water resources-the Kansas experience[J]. Journal of Hydrology, 2000(235): 27-43.
[141] Stanley R H, Luiken R L. Water Rate Studies and Making Philosophy[J]. Public Works, 1982, 5: 70-73.
[142] Teerink J R, Nakashima M. Water allocation, Rights, and Pricing: Examples from Japan and the United States[C].World Bank paper No. 198, Washington, D.C, World Bank, 1993: 1-25.
[143] The Institution's Discussion Paper on "Water Resources Panning in England and Wales"[J]. CIWEM, 1996, 10(6):220-222.
[144] Timothy J D, et al. Sustainability of least cost policies for meeting Mexico City's future water demand[J]. Water Resources Research, 2000, 38(3): 2321-2328.
[145] Toset H P, Gleditsch N P. Conflict and shared rive[A]. Paper presented at the 40th Annual Convention of the International Studies Association. Washington, D. C, 1999, 2: 3.
[146]Udagawa T. Water recycling systems in Tokyo[J]. Desalination, 1994(98): 309-318.
[147] United Nations. Comprehensive Assessment of the Freshwater Resources of the World[R]. Commission for Sustainable Development, Stockholm Environment Institute, Stockholm, Sweden, 1997.
[148]Urbonas B R. Design of a Sand Filter for Storm water Quality Enhancement[J]. Water Environ. Res., 1999, 71(1):102-113.
[149] USEPA. Water Conservation Plan Guidelines[R]. US Environmental Protection Agency, Washington DC, 1998.
[150]Uzawa H. Production Functions wit h Constant Elasticities of Substitution[J]. Review of Economics Studies,1962,29:291-299.
[151] van der Zaag, P, Seyam IM, Savenije HHG Towards measurable criteria for the equitable sharing of international water resources[J].Water Policy,2002,4:19-32.
[152]Vans O,Lahtela V.Integrated water resources management along the Senegal River:Introducing an analytical framework[J].Water Resources Development,2002,18(4):501-521.
[153]Vickers A.The Emerging Demand-side Era in Water Management [J].AWWA,1991,83(10):35-43.
[154]Vijayan G,Nathan N S,Subramanian R S,et al.Management of water resources for quality and quantity[J].Journal of Indian Water Works Association,1999,(1-3):43-46.
[155]Wang M,Zheng C.Ground water management optimization using genetic algorithms and simulated annealing:Formulation and comparison[J].Journal of the American Water Resources Association,1998,34(3):519-530.
[156]Warren D R,et al.IRP:A Case Study from Kansas[J].AWWA,1995,88(6):57-71.
[157]Watkins D W,Kinney J M,Robust D C.Optimization for incorporating risk and uncertainty insustainable water resources planning[J].International Association of Hydrological Sciences,1995,231 (13):225-232.
[158]Wichelns D.The role of public policies in motivating virtual water trade,with an example from Egypt[A].Virtual Water Trade:Proceedings of the International Expert Meeting on Virtual Water Trade[C].IHE Delft,2003:147-158.
[159]Wicholns D.Motivating Reduction in Drain Water with Block-Rater Prices for irrigation water[J].Water Resour.Bull,.1991,4.
[160]Willis R,Yeh W W-G.Groundwater system planning and management[M].New jersey Prentice Hall,1987.
[161]World Metrological Organization.The Dublin Statement on Water and Sustainable Development[R].Dublin International Conference on Water and the Environment.1992:1-6.
[162]Yeh G Reservoir Management and Operations Models,A State-of the art Review[J].Water Resources Research,1985(12):1797-1818.
[163]Yevj evich V.Effects of area and time horizons in comprehensive and integrated water resources management [J].Water Science and Technology,1995,31(8):19-25.
[164]Zimmer D,Renault D.Virtual water in food production and global trade:review of methodological issues and preliminary results[A].Virtual Water Trade[C].IHE Delft,2003:93-107.
[165]安永会,唐桂英,张福存,姚秀菊.系统理论与频率分析法在水资源评价中的应用[J].勘察科学技术,2005,5:38-40.
[166]保罗·克鲁格曼.克鲁格曼国际贸易新理论[M].北京:中国社会科学出版社,1990.
[167]闭德华.大连市运用定额进行节水管理的思考[J].城镇供水,2006,4:41-42.
[168]蔡运龙.自然资源学原理[M].北京:科学出版社2000.
[169]蔡振禹,李思敏,任建华,王晓华.基于AHM模型的城市节水水平综合评价研究[J].中国给水排水,2006,22(7):54-56.
[170]曹建廷,李原园,张文胜,徐澎波,刘俊国.农畜产品虚拟水研究的背景、方法及意义[J].水科学进展,2004,15(6):829-834.
[171]曹军,胡万义.灰色系统理论与方法[M].东北林业大学出版社,1993,5.
[172]曹相生,孟雪征,张杰.循环型社会的基础-健康社会水循环[A].中国环境保护优秀论文精选[C],2005,第四篇,水污染防治技术:252-255.
[173]曹型荣,王宏义.关于编制工业用水定额工作之商榷[J].水利发展研究,2002,(7):11-14.
[174]畅建霞,黄强,王义民,薛小杰.基于耗散结构理论和灰色关联熵的水资源系统演化方向判别模型研究[J].水利学报,2002,11:107-112.
[175]车武,李俊奇.从第十届国际雨水利用大会看城市雨水利用的现状与趋势[J].给水排水,2002,28(3):12-14.
[176]车武,欧岚,汪慧珍,等.北京城区雨水径流水质及其主要影响因素[J].环境污染治理技术与设备,2002,3(1):33-3 7.
[177]陈东景,徐中民.关于水资源管理的几个问题的探讨[J].干旱区研究,2001,18(1):1-4.
[178]陈光吉.浅议城市雨水的开发利用[J].黎明职业大学学报,2003,38(1):71-74.
[179]陈建耀,刘昌明.城市节水潜力估算与用水管理水平评定[J].地理学报,1998,53(2):141-148.
[180]陈静,林逢春,杨凯.基于生态效益理念的企业环境绩效动态评估模型[J].中国环境科学,2007(5):717-720.
[181]陈静,杨凯,张勇,等.灰色协调度模型在产业用水系统分析中的应用[J].长江流域资源与环境,2008,17(5):694-698.
[182]陈静,杨凯,张勇等.基于节水理念的工业水资源价格模型[J].资源科学,2008,30(7):968-974.
[183]陈静,杨凯,张勇等.基于数据包络分析的行业最小需水定额研究[J].水利水运工程学报,2008,4:95-98.
[184]陈宁,张彦军.水资源可持续发展的概念、内涵及指标体系[J].地域研究与开发,1998,17(4):37-39.
[185]陈庆秋,陈晓宏.基于社会水循环概念的水资源管理理论探讨[J].地域研究与开发,2004,23(3):109-113.
[186]陈庆秋.珠江三角洲城市节水减污研究[D].广州:中山大学,2004.
[187]陈守煜.21世纪水资源开发利用的河海协同原理[J].大连理工大学学报,2003,43(6):697-700.
[188]陈学福,关洪林,刘军武.湖北省工业和城市生活用水定额研究[J].中国农村水利水电,2002,4:32-35.
[189]陈燕武,金式容.论水资源的合理配置[J].《福建行政学院福建经济管理干部学院学报》,2001,2:57-59.
[190]陈莹,刘昌明,赵勇.节水及节水型社会的分析和对比评价研究[J].水科学进展,2005,16(1):82-87.
[191]陈莹,赵勇,刘昌明.节水型社会的内涵及评价指标体系研究初探[J].干旱区研究,2004,21(2):125-129.
[192]陈莹,赵勇,刘昌明.节水型社会评价研究[J].资源科学,2004,(6):83-89.
[193]陈玉娟,查奇芬,黎晓兰.熵值法在城市可持续发展水平评价中的应用.江苏大学学报(社会科学
[194]陈云波,胡宜国,顾清泉.论水资源的经济特性[.J].黑龙江水利科技,2003,1:24.
[195]成金华,李世祥,吴巧生.关于中国水资源管理问题的思考[J].中国人口.资源与环境,2006,16(6):162-168.
[196]程国栋.虚拟水-中国水资源安全战略的新思路[C].中国科学院院刊,2003(4):260-265.
[197]程江,徐启新,杨凯,等.下凹式绿地雨水渗蓄效应及其影响因素[J].给水排水,2007,33(5):45-4 9.
[198]程江,徐启新,杨凯,等.国外城市雨水资源利用管理体系比较及启示[J].中国给水排水,2007,22(12):68-72.
[199]程江,杨凯,徐启新.高度城市化区域汇水域尺度LUCC的降雨径流调蓄效应—以上海城市绿地系统为例[J].生态学报,2008,28(7):2972-2980.
[200]程江.上海中心城区土地利用/土地覆被变化的环境水文效应研究[D].上海:华东师范大学,2007.
[201]褚俊英,王灿,王琦,等.水价对城市居民用水行为影响的研究进展[J].中国给水排水,2003,19(11):32-35.
[202]崔亚楠.虚拟水理论与北京地区用水结构分析[J].北京水利,2005(4):33-35.
[203]崔振才,郭林华.等.水资源系统模糊优化多维动态规划棋型与应用[J].水科学进展,2000,11(2):20-28.
[204]崔宗培.中国水利百科全书[M].北京:水利电力出版杜,1991.
[205]戴镇生,张杰.城市污水回用事业的展望[J].给水排水技术动态,1992,(2):25-27.
[206]邓聚龙.灰色系统基本方法[M].武汉:华中理工大学出版社,1994.
[207]邓晓军,谢世友,王李云,黄岩.城市水足迹计算与分析—以上海市为例[J].亚热带资源与环境学报,2008,3(1):62-68.
[208]丁立国,高悦,那利.统计分析法在工业用水定额制定中的应用[J].东北水利水电,2003,(9):12-13.
[209]董荌,董文虎.供水超定额累进加价收入的权属及价格核定方法[J].水利发展研究,2004,4(11):32-35,56.
[210]董辅祥,董欣东.城市与工业节约用水理论[M].北京:中国建筑工业出版社,2000.
[211]董辅祥.节约用水原理及方法指南[M].北京:中国建筑工业出版社,1995,11.
[212]樊自立,马映军.干早区水资源开发及合理利用的几个问题[J].干早区研究,2000,17(3):7-12.
[213]封晨辉,陈林.制定合理用水定额科学管理水资源[J].河北水利水电技术,2002,6:41-43.
[214]冯宝平,张展羽,贾仁辅.区域水资源可持续利用机理分析[J].水利学报,2006,37(1):16-20.
[215]冯宝平.区域水资源可持续利用理论与应用研究[D].南京:河海大学,2004.
[216]冯金华.社会项目评估研究[M].武汉大学出版社,1993.
[217]冯尚友,刘国全.水资源持续利用的框架[J].水科学进展,1997,8(4):301-307.
[218]冯尚友.水资源持续利用与管理导论[M].北京:科学出版社,2000.
[219]冯耀龙,练继建,韩文秀.区域水资源系统可持续发展评价研究[J].水利水电技术,2001,32(12):9-11.
[220]冯耀龙,练继建.水价制定理论分析研究的一种新思路[J].水利水电技术,2001,32(6):23-2 5.
[221]冯耀龙,王宏江.资源水价的研究[J].水利学报,2003,8:111-116.
[222]冯玉国.灰色优化理论模型在地下工程围岩稳定性分类中的应用[J].岩土工程学报,1996,18(3):62-66.
[223]傅伯杰,陈利顶,马克明,等,景观生态学原理及应用[M].北京:科学出版社,2005.
[224]傅冬绵.关于区域水资源的优化配置模型[J].国土资源科技管理.2001,18(4):15-18.
[225]傅立.灰色系统理论及其应用[M].北京:科学技术文献出版社,1992.
[226]傅平,张天柱.我国两部制水价对供水价格目标的影响[J].中国给水排水,2002,18(4):26-28.
[227]傅涛,张丽珍,常杪,魏保平.城市水价的定价目标、构成和原则[J].中国给水排水,2006,22(6):15-18.
[228]傅养,冯尚友.水资源持续利用(生态水利)原理的探讨[J].水科学进展,2000,11(4):436-440.
[229]高镔.水资源可持续利用的原则与保障条件[J].四川水利,2004,5:2-5.
[230]高健智,赵耀,邹志云,徐文学,等.基于AHP的多极模糊公路交通现代化综合评价研究[J].武汉理工大学学报,2007,31(2):243-246.
[231]高明,刘淑荣.价格调节与水资源集约利用[J].价格月刊,2006,1:20-21.
[232]高山晟.经济学中的分析方法[M].北京:中国人民大学出版社,2001.
[233]高湘,李耘.污水资源化是水资源可持续开发及利用的重要途径[J].地下水,2000.
[234]勾智慧.两部制水价制度的实践与探讨[J].黑龙江水利科技,2006,34(2):123-124.
[235]关春宇,刘峰,陈嘉焙.实施两部制水价的利与弊[J].黑龙江水利科技,2006,3:151-152.
[236]关业祥.对水资源配置的认识与思考[J].中国水利,2005,5:21-23.
[237]广州市水利局,长江水利委员会勘测规划设计研究院.广州市水利现代化建设规划纲要[R].2002.
[238]郭斌,任志远.陕西省2003年水资源足迹测评与分析[J].干旱地区农业研究,2006,24(6):178-182.
[239]郭青平,万日明,杨应健.天津市工业用水定额制定方法的探讨[J].海河水利,2003,(3):22-24.
[240]韩美,张丽娜.城市水价研究的理论与实践—以济南市自来水价研究为例[J].自然资源学报,2002,17(4):457-462.
[241]韩文秀,金锐,张俊艳.复合系统及其协调的一般理论[A].许国志,等.系统科学与工程研究[C].上海:上海科技教育出版社,2000,460-469.
[242]何锦峰,陈国阶.水资源动态完全成本定价的理论探讨[J].自然资源学报,2000,15(3):236-240.
[243]侯捷,赵秀娟.兰州市居民生活用水的可持续发展水价计算[J].东北水利水电,2007,25(4):61-64.
[244]侯捷.中国城市节水2010年技术进步发展规划[M].北京:中华人民共和国建设部城市建设司,文汇出版社出版,1998.
[245]胡鞍钢,王亚华.转型期水资源配置的公共政策:准市场和民主协商制度[J].中国软科学,2000,(5):5-11.
[246]胡昌暖.资源价格研究[M].北京:中国物价出版社,1993.
[247]胡浩.水资源价值与价格研究综述[J].石家庄经济学院学报,2003,26(3):229-232.
[248]胡庆和,胡军华.水资源管理模式发展趋势探析[J].人民长江,2007,38(1):66-68.
[249]黄金平,邓禾.澳、美水权制度对构建我国水权制度的启示[J].西南政法大学学报,2004,(6):124-128.
[250]黄乾,张保祥,黄继文.纪亚非,等.基于熵权的模糊物元模型在节水型社会评价中的应用[J].2007,10:413-416.
[251]黄涛珍,任淑林.Water Price Difference System and Its Parity Relations in Jiangsu Province[A].第四届流域管理与城市供水国际会议论文集[C],2004,226-238.
[252]黄涛珍.水利工程供水水价计算模型研究[J].水科学进展,1998(增刊):63-66.
[253]黄添元.深圳城市水务管理体制改革的探索[J].特区经济,1999(11):55-56.
[254]黄贤金.自然资源二元价值论及其稀缺价格研究[J].中国人口、资源与环境,1994,4(4):40-43.
[255]黄永基,陈晓军.我国水资源需求管理现状厦发展趋势分析[J].水科学进展,2000,11(2):218-220.
[256]贾绍凤,康德勇.提高水价对水资源需求的影响分析—以华北地区为例[J].水科学进展,2000,11(1):49-53.
[257]贾绍凤,王国,夏军,于贵瑞.社会经济系统水循环研究进展[J].地理学报,2003,58(2):255-262.
[258]减晓冬,张树山,庞静.区域公路网路段交通量综合预测模型研究[J].哈尔滨工业大学学报,2003,35(9):1135-1139.
[259]姜文来,武霞,林桐枫.水资源价值模型评价研究[J].地球科学进展,1998,13(2):178-183.
[260]姜文来,杨瑞珍.资源资产论[M].北京:科学出版社,2003:68-122.
[261]姜文来.21世纪中国水资源安全战略研究[J].中国水利,2000(8):41-44.
[262]姜文来.水资源价值对水利工程经济评价影响研究[J].水科学进展,1999,10(4):424-428.
[263]姜文来.水资源价值论[M].北京:科学出版社,1998,142-145.
[264]姜文来.水资源价值模型研究[J].资源科学,1998,20(1):35-43.
[265]姜文来.我国资源核算演变历程问题及展望[J].国土与自然资源研究,1999(3):43-46.
[266]蒋昕.公众参与问卷调查方法探讨[J].广州环境科学,2008,23(2):36-39.
[267]靖娟,秦大庸,,张占庞.节水型社会建设的全方位支撑体系研究[J].人民黄河,2007,29(1):45-47.
[268]柯兵,柳文华,段光明.虚拟水在解决农业生产和粮食安全问题中的作用研究[J].环境科学.2004,25(2):32-36.
[269]雷社平,解建仓,黄明聪,陈鸿起.区域产业用水系统的协调度分析[J].水利学报,2004,5:14-19.
[270]李广贺,刘兆昌,张旭.水资源利用工程与管理[M].北京:清华大学出版社,1998.
[271]李国欣,李旭东.污水资源化利用技术现状及其应用实例[J].给水排水,2001,20(5):15-19.
[272]李红梅,陈宝峰.宁夏节水型社会建设评价指标体系研究[J].水利水文自动化,2007,2:42-46.
[273]李建军.论经济社会发展中的环境问题[J].汉中科技,2007,3:45-46.
[274]李金昌.资源核算论[M].北京:海洋出版社,1991,85-90.
[275]李晶,宋守度,姜斌,等.水权与水价-国外经济研究与中国改革方向探讨[M].中国发展出版社,2003,11.
[276]李令跃,甘泓.试论水资源合理配置和承载能力概念与可持续发展之间的关系[J].水科学进展,2000,11(3):307-313.
[277]李文清.水循环对水污染的影响及防治对策[J].山西水利,2005,4:43-44.
[278]李亚伟.水资源系统模糊决策、评价与预测方法及应用[D].大连:大连理工大学,2005.
[279]李永根,王晓贞.天然水资源价值理论及其实用计算方法[J].水利经济,2003,21(3):30-32.
[280]林逢春,陈静.企业环境绩效评估指标体系及模糊综合指数评估模型[J].华东师范大学学报(自然科学版),2006(6):59-66.
[281]刘宝勤,封志明,姚治君.虚拟水研究的理论、方法及其主要进展[J].资源科学,2006,28(1):120-127.
[282]刘宝勤,姚治君,高迎春.北京市用水结构变化趋势及驱动力分析[J].资源科学,2003,25(2):38-43.
[283]刘斌.关于水权的概念辨析[J].中国水利,2003,1:32-33.
[284]刘昌明,何希吾,任鸿遵.中国水问题研究[M].北京:气象出版社,1996.
[285]刘春生.南水北调工程水价的合理确定[J].水科学进展,2004,15(6):808-812.
[286]刘丹,严冬,张乾元,王修贵.“节水型社会”建设模式选择研究[J].中国农村水利水电,2004,12:19-22.
[287]刘戈力.对节水问题的再认识[R].中国水情分析研究报告,2001,14.
[288]刘贵良.万家寨引黄入晋工程(一期)水价分析[J].水利经济,2001,19(6):33-35,39.
[289]刘恒.水资源可持续利用的原则与保障条件[J].中国水利,2000,8:51-53.
[290]刘健民,张世法.京津唐地区水资源大系统供水规划和调度优化的递阶模型[J].水科学进展,1993,4(2):98-105.
[291]刘吕叨,何希吾,等.中国21世纪水问题方略[M].北京:科学出版社,1996.
[292]刘荣珍,赵军.模糊评价模型在长江水质评价中的应用[J].兰州交通大学学报,2007,26(6):50-52.
[293]刘绍民.新疆塔里木河沿岸地区水资源优化分配模型研究[J].水利学报,1995,1:69-74.
[294]刘树杰.水利工程水价的形成机理[J].宏观经济研究,2000,10:32-36.
[295]刘思峰,郭天榜,党耀国,等.灰色系统理论及其应用(第二版)[M].北京:科学出版社,1999.
[296]刘小呀.我国排污收费制度及其价格体系的改革[J].中国人口资源与环境,2003,13(1):49-53.
[297]刘一明,卢瑛.我国水资源的分配体系及其有效性分析[J].国土与自然资源研究,2002,(1):5-6.
[298]刘应明.深圳市水资源安全对策研究[J].工程建设与设计,2003(1):20-22.
[299]龙爱华,徐中民,张志强.西北四省(区)2000年的水资源足迹[J].冰川冻土,2003,25(6):692-700.
[300]龙子泉.水利与流域经济可持续发展定量关系研究[D].武汉:武汉大学博士学位论文,2001.
[301]娄彦学,狄俊一.美国有关水价对采用节水灌溉技术影响的研究[J].水土保持科技情报,2002,(4):38-40.
[302]陆鼎言.对“水质型”缺水城市实行分质供水的探讨[J].水资源保护,2001,4:60-63.
[303]罗杰.泊曼,等.自然资源与环境经济学[M].北京:中国经济出版社,2002:250-252.
[304]马静,汪党献.虚拟水贸易在我国粮食安全问题中的应用[J].水科学进展,2006,17(1):102-107.
[305]马智杰,徐小元,居江.区域良性水循环的探讨和示范[J].中国水利水电科学研究院学报,2005,3(3):216-221.
[306]马忠玉,蒋洪强.水循环经济与水资源合理开发利用研究[J].生态环境,2006,15(2):416-423.
[307]毛春梅,袁汝华.黄河流域水资源价值的计算与分析[J].中国人口、资源与环境,2003,13(3):25-29.
[308]孟庆松,韩文秀,金锐.科技-经济系统协调模型研究[J].天津师范大学学报,1998,18(4):8-12.
[309]闵庆文,成升魁.全球化背景下的中国水资源安全与对策[J].资源科学,2002,24(4):49-55.
[310]牟海省.我国水资源持续开发的零增长模式初探闭地理研究[J].1995,14(1):80-84.
[311]倪红珍,王浩,阮本清,汪党献.基于环境价值论的商品水定价[J].水利学报,2003,10:101-107.
[312]欧邦才,王慧敏,李金祥.扩展线性支出系统在需求系统中的应用[J].现代管理科学,2001,(3):15-17.
[313]皮亚杰(Jean·Piaget).结构主义[M].倪连生,等译.北京:商务印书馆,1996.
[314]蒲晓东.我国节水型社会评价指标体系以及方法研究[D].南京:河海大学,2007.
[315]钱伯宁.济南市城市用水定额编制[D].武汉:武汉大学,2004.
[316]钱春健.从社会水循环概念看苏州水资源的开发利用现状[J].水利科技与经济,2008,14(5):377-378.
[317]钱易等.中国城市水资源可持续开发利用[M].北京:中国水利水电出版社,2002.
[318]钱正英,张辉.中国可持续发展水资源战略研究综合报告及各专业报告[M].中国水利水电出版社,2001:8.
[319]乔世珊,田玉龙.我国不同区域不同发展阶段节水型社会建设的特点[J].中国水利,2005,13:87-89.
[320]钦丽娟,曹剑峰,平建华,姜纪沂,等.模糊数学在郑州市水资源价值评价中的应用[J].吉林大学学报(地球科学版),2005,35(4):487-490,495.
[321]秦福兴,耿雷华,陈晓燕.确定万元GDP取水量定额方法的探索[J].水利学报,2004,(8):119-128.
[322]秦毅,王学凤.城市计划管理用水定额与其分析计算[J].西安理工大学学报,2001,(1):51-56.
[323]卿小燕,段昌群.产品虚拟水分析与计量方法[J].云南环境科学.2004,23(增刊1):26-28.
[324]邱林,和吉.用虚拟水战略解决我国水危机的思考[J].华北水利水电院学报,2005,26(1):13-15.
[325]茹继平,李大鹏.城市污水再生利用新模式的探讨[J].中国给水排水.2001,17(5):33-36.
[326]阮本清,粱瑞驹,王浩,等.流域水资源管理[M].北京:科学出版社,2000:134-135.
[327]上海市环境保护局.上海市环境质量报告书[R].2005.
[328]上海统计局.上海市统计年鉴.,2000-2006.
[329]深圳市水务局.长江勘测规划设计研究院.深圳市水务现代化规划纲要[R].北京:中国水利水电出版社,2002,1-32;94-116.
[330]沈大军,王浩,阮本清,等.水价理论与实践[M].北京:科学出版社,1999.
[331]沈露莹.上海城市水价形成机制研究[D].上海:同济大学,2002.
[332]沈泰.长江水资源保护与可持续发展[J].水资源保护,2002,(3):2-5.
[333]沈小南.中水回用实现污水资源化[A].21世纪国际城市污水处理及资源化发展战略研讲会与展览会[C],2001.
[334]石登荣,尤建军.太湖流域水环境问题探讨[J].上海师范大学学报,2000,29(3):80-87.
[335]史俊,文俊.节水型社会及其评价指标的应用[J].水科学与工程技术,2006,5:54-56.
[336]水利部发展研究中心.武汉大学:节水型社会实践与理论研究报告[R].2004.
[337]苏广实.自然资源价值及其评估方法研究[J].学术论坛,2007,4:77-80.
[338]孙风华.关于建立北京市合理供水价格体系的建议[J].北京水利,2000,(2):40-42.
[339]孙金华,陆桂华.水资源属性与水资源问题强相关分析[J].水资源保护,2007,23(5):87-90.
[340]孙义鹏.基于水足迹理论的水资源可持续利用研究[D].大连:大连理工大学,2007.
[341]唐本佑.自然资源价格构成因素研究.J].科技进步与对策,2004,6:161-163.
[342]唐鹤.国外城市节水技术与管理[M].北京:中国建筑工业出版社,1999.
[343]特伦斯.霍克斯.结构主义和符号学[M].上海:上海译文出版社,1987.
[344]田峰巍,解建仓.用非平衡系统理论认识水资源系统分析中的几个问题[J].西安理工大学学报,1997,13(4):314-320.
[345]佟春生,黄强,刘俊萍,刘涵.水资源系统界壳理论研究及其应用前景[J].西安理工大学学报,2004,20(1):21-25.
[346]汪恕诚.建设节水型社会工作要点[J].中国水利.2003,21:6-7.
[347]汪恕诚.水权和水市场-谈实现水资源优化配置的经济手段[J].水电能源科学,2001,19(3):1-5.
[348]汪恕诚.资源水利-人与自然和谐相处[M].北京:中国水利水电出版社,2005,1-256.
[349]汪松年,阮仁良.上海市水资源普查报告[M].上海:上海市科学技术出版社,2001.
[350]王浩,阮本清,沈大军.面向可持续发展的水价理论与实践[M].北京:科学出版社,2003.
[351]王浩,王建华,秦大庸,贾仰文.基于二元水循环模式的水资源评价理论方法[J].水利学报,2006,37(12):1496-1502.
[352]王红瑞,董艳艳,王军红,等.北京市农作物虚拟水含量分析[J].环境科学,2007,28(11):632-637.
[353]王红瑞,王岩,王军红,等.北京农业虚拟水结构变化及贸易研究[J].环境科学,2007,28(12):220-227.
[354]王慧敏.流域可持续发展系统理论与方法[M].南京:河海大学出版社,2000.
[355]王吉魁,龚孟建.大中型灌区现行低水价的弊端及其改革措施[J].中国农村水利水电,2001,(4):8-9.
[356]王季震,等.城市雨水资源化利用及工程方法[J].华北水利水电学院学报,2004,25(2):4-6.
[357]王劲峰,刘昌明,于静洁,陈红焱.区际调水时空优化配置理论模型探讨[J].水利学报,2001,4:7-14.
[358]王靖,张金锁.综合评价中确定权重向量的几种方法比较[J].河北工业大学学报,2001,30(2):52-57.
[359]王礼先,张志强.雨洪利用技术概述[J].新疆环境保护,1997,19(2):10-13.
[360]王莲芬,许树柏,层次分析法引论[M].北京:中国人民大学出版社,1990,6.
[361]王秋生.珠江三角洲水资源与流域经济的协调发展[J].中国水利,2003.(3):32-34.
[362]王舒曼,曲福田.水资源核算及对GDP的修正:以中国东部经济发达地区为例[J].南京农业大学学报,2001,24(2):115-118.
[363]王舒曼,王玉栋.自然资源定价方法研究[J].生态经济,2000,4:25-26.
[364]王树谦,梁灵君.浅析ET与农作物产品虚拟水之间的关系[J].水科学与工程技术,2005,(6):26-29.
[365]王喜春,黄介生.基于体系结构的水资源管理系统[J].中国农村水利水电,2006,1:48-51.
[366]王先甲,肖文.水资源的市场分配机制及其效率[J].水利学报,2001,12:26-31.
[367]王新华,徐中民,龙爱华.中国2000年水足迹的初步计算分析[J].冰川冻土,2005,27(5):774-780.
[368]王新华.中部四省虚拟水贸易的初步研究[J].华南农业大学学报,2004,3(3):33-38.
[369]王秀艳,朱坦,王启山,彭海.城市水循环途径及影响分析[J].城市环境与城市生态,2003,16(4):54-56.
[370]王学萌,张继忠,王荣著.灰色系统分析及实用计算程序[M].武汉:华中科技大学出版社,2001.
[371]王岩,王红瑞.北京市的水资源与产业结构优化[M].北京:中国环境科学出版社,2007.
[372]王龑,赵敏,毛春梅,赵海林.南水北调工程供水两部制水价确定方法研究[J].价格理论与实践,2004,3:31-32.
[373]吴阿娜.河流健康评价:理论、方法与实践[D].上海:华东师范大学,2008.
[374]吴国磺.北方交通大学的中水系统[J].北京节能,1994.3:28-29.
[375]吴健.环境和自然资源的价值评估与价值实现[J].中国人口资源与环境,2007,17(6):13-17.
[376]吴新民,潘根兴.自然资源价值的形成与评价方法浅议[J].经济地理,2003,23(3):323-326.
[377]吴泽宁,左其亭,张晨光.水资源配置中环境资源价值评估方法及应用[J].郑州工业大学学报.2001,(12):34-37.
[378]夏军,王中根,穆宏强.可持续水资源管理评价指标体系研究(一)[J].长江职工大学学报,2000,17(2):1-7.
[379]夏贤英.试论广州市的水资源管理现状与发展方向[J].广东水利水电,1997(2):370-375.
[380]夏星辉,杨志峰,沈珍瑶.从水质水量相结合的角度再论黄河的水资源[J].环境科学学报,2005,25(5):595-600.
[381]夏星辉,杨志峰,吴宇翔.结合生态需水的黄河水资源水质水量联合评价[J],环境科学学报,2007,27(1):151-156.
[382]项学敏,周笑白,周集体.工业产品虚拟水含量计算方法研究[J].大连理工大学学报.2006,46(2):179-184.
[383]肖明娟.北京地铁十号线十标段项目的影子价格分析[D].重庆:西南交通大学,2007.
[384]谢地,邵波.论我国自然资源价格形成机制的重构[J].学习与探索,2005,6:226-229.
[385]谢敬芬,丁占宽,解国琴.层次分析法在区域水权分配中的应用[J].河北水利,2006,1:35-36.
[386]邢相勤,李世祥.中国水价研究的若干进展[J].理论月刊,2006,12:71-74.
[387]邢秀凤,胡世明.加快居民生活水价改革积极实施阶梯水价[J].价格理论与实践,2005,7:42-43.
[388]徐方军.水资源配置的方法及建立市场应注意的一些问题[J].水利水电技术,2001,32(8):6-8.
[389]徐华飞.我国水资源产权与配置中的制度创新[J].中国人口.资源与环境,2001,11(2):43-48.
[390]徐建中,马瑞先.基于AHP的企业循环经济发展水平灰色综合评价研究[J].科技管理研究,2008,28(4):46-49.
[391]徐明,张天柱.中国经济系统的物质投入分析[J].中国环境科学,2005,25(3):324-328.
[392]徐晓鹏,武春友.水资源价格理论研究综述[J].甘肃社会科学,2005(3):218-221.
[393]徐中民,龙爱华,张志强.虚拟水的理论方法及在甘肃省的应用[J].地理学报,2003,58(6):861-868.
[394]许振成.环境质量资源有偿使用是实施可持续发展的重要举措[J].环境工作通讯,2003,(3):36-38.
[395]薛建枫.贯彻新的治水思路加快珠江治理与发展[J].人民珠江,2002,(2):1-3.
[396]杨建锋.城市化和雨水利用[J].北京水利,2001,1:22-23.
[397]杨进怀,孙艳红,张洪江,石健.我国水资源管理现状及发展趋势[J].水土保持研究,2007,14(6):250-255.
[398]杨力敏.水权定义与水权转让路径探索-兼论取水权转让的理论和现实基础[J].水利发展研究,2005,(6):12-16.
[399]杨丽华,何雪峰.基于熵值法的贸易可持续发展指数-以浙江省的实证研究为例[J].宁波大学学报(人文科学版),2007,20(1):22-27.
[400]杨玮,陈军飞,王慧敏,刘银.江苏省节水型社会建设评价研究[J].水利经济,2008,26(1):5-9.
[401]杨依杭.海水淡化技术产业化的可行性分析[D].北京:北方交通大学,2001.
[402]姚蓝.动植物虚拟水分析及虚拟水贸易[D].哈尔滨:哈尔滨理工大学,2006.
[403]姚治君,王建华,江东,陈传友.区域水资源承载力的研究进展及其理论探析[J].水科学进展,2002,13(1):111-115.
[404]易雯,于群.饮用水源水质评价指数法探讨[J].中国环境监测,2003,19(5):43-47.
[405]于连生,李静红,等.自然资源功能价值论初探[J].环境科学,1995,16(6):40-42.
[406]袁建平,方正,王晖.地理信息系统在城市水资源管理中的应用[J].中国给水排水,2005,21(11):23-25.
[407]袁汝华,朱九龙,陶晓燕,毛春梅.影子价格法在水资源价值理论测算中的应用[J].自然资源学报,2002,17(6):757-761.
[408]苑韶峰.水价及水资源节约问题探讨[J].价格理论与实践,2008,2:32-33.
[409]臧景红,杨印胜,刘俊良,储成林.生活计划用水定额及其指标体系[J].中国给水排水,2007,17(1):66-67.
[410]曾艳芹.饮用水源水质模糊评价与保护建议[J].环境科学与技术,2006,29(8):105-108.
[411]曾艳芹.饮用水源水质模糊评价与保护建议[J].环境科学与技术,2006,8:105-107.
[412]曾珍香,顾培亮.可待续发展的系统分析与评价[M].北京:科学出版社,2000,58-60.
[413]张成科.基于熵的水质模糊评价模型及应用[J].系统工程理论与实践,1998,(6):80-85.
[414]张德震,陈西庆.我国城市居民生活用水价格制定的思考[J].华东师范大学学报(自然科学版),2003,2:81-85.
[415]张范.从产权角度看水资源优化配置[J].中国水利,2001,6:38-39.
[416]张建龙,谢漠文.围岩失稳的灰色预报[J].武汉水利电力大学学报,1998,31(4):43-46.
[417]张健.论水资源价值与水资源管理[J].四川水利,2001,22(2):57-60.
[418]张军锋.城市雨水综合利用研究-沈阳城市雨水利用研究[D].沈阳:沈阳农业大学,2005.
[419]张牧.用幂函数、指数函数计算居民超计划用水加价收费的思考[J].给水排水动态,2006,1:34-36.
[420]张卫民.北京城市可持续发展综合评价研究[D].北京:北京工业大学,2002.
[421]张晓洁.关于城市节约用水水平评价方法的研究[J].安徽建筑工业学院学报,2001,9(3):54-57.
[422]张晓听.浅谈北京市城市污水处理综合利用的可行性[J].城市与节水,1999,3:6-9.
[423]张晓宇,窦世卿.我国水资源管理现状及对策[J].自然灾害学报,2006,15(3):91-95.
[424]张新天,罗晓辉.灰色理论与模型在交通预测中的应用[J].公路,2001,(8):4-7.
[425]张毅.炼油企业生产计划优化及其影子价格研究[D].哈尔滨:哈尔滨工业大学,2005.
[426]张岳.中国水资源与可持续发展[M].广西:广西科学技术出版社,2000.
[427]张志乐.水资源费或间接水价的数量分析方法[J].水利科技与经济,1997,3(1):4-5.
[428]赵建世,王忠静,翁文斌.水资源系统整体模型研究[J].《中国科学:E辑》,2004,34(1):60-73.
[429]郑垂勇,章仁俊,等.水资源与国民经济协调发展研究[M].南京:河海大学出版社,1996:35-52..
[430]郑兴灿.我国城市节水减污的技术与经济问题研究[D].哈尔滨:哈尔滨工业大学,2001,34-35.
[431]钟鸣.超定额超计划加价水费问题浅析[J].人民珠江,2007,3:6-7,19.
[432]周垂田.建立现代水资源管理系统初探[J].中国水利,2004,55(7):9-11.
[433]周广安.工业动态用水定额数学模型[J].中国给水排水,2002,18(6):64-67.
[434]周克钊.城市雨水资源化综述[J].西南给排水,2003,25(2):20-24.
[435]周彤.污水回用是解决城市缺水的有效途径[J].给水排水,2001,27(11):1-7.
[436]周玉玺,胡继连.基于水资源外部性特征的配置制度安排研究[J].山东科技大学学报(社会科学版),2002,4(1):67-70.
[437]朱斌,郗小林.21世纪水资源管理的对策[J].科学对社会的影响,1995,24(1):30-35.
[438]朱贵良,段志伟.城市雨水资源综合利用研究[J].科学进步与对策,2003,20(5):53-55.
[439]朱沁,刘祖源.AHP法在多船避碰决策中的应用与研究[J].武汉理工大学学报,2004,28(4):488-491.
[440]朱思诚.城市工业用水节水水平的定量评价[J].中国给水排水,1989,5(6):28-30.
[441]朱一中,夏军,谈戈.关于水资源承载力理论与方法的研究[J].地理科学进展,2003,21(2):180-188.
[442]朱照宁,邓清禄,周厚云,等.珠江三角洲经济区可持续发展中的水环境问题[J].环境科学学报,2001,21(4):405-410.
[443]邹志红,云逸,王惠文.两阶段模糊法在海河水系水质评价中的应用[J].环境科学学报,2008,28(4):799-803.
[2] Adil A R. Integrated water resources management (IWRM): an approach to face the challenges of the next century and to avert future crises [J]. Desalination, 1999,124(1-3): 145-153.
[3] Adolphson D L, Cornia G C, Walters L C. Railroad property valuation using data envelopment analysis[J].Interfaces, 1989, 19(3), 18-26.
[4] Ahmad M. Water Pricing and Markets in the Near East: Policy Issues and Options[J]. Water Policy, 2000(2):229-242.
[5] Ahn B S. The analytic hierarchy process in an uncertain environment: A simulation approach by Hauser and Tadikamalla[J]. European Journal of Operational Research, 2000,124(1): 217-218.
[6] Allan C, Curtis A, Stankey G, et al. Adaptive management and watersheds: a social science perspective[J].Journal of the American Water Resources Association, 2008, 44(1), 166-174.
[7] Allan J A , Jennifer C O. Politics, economics and (virtual) water: A discursive analysis of water policies in the Middle East and North Africa[J]. Research in Middle East Economics, 2003, 5(1): 53-78.
[8] Allan J A. Virtual water: a long term solution for water short Middle Eastern economies? [EB/OL] http://www.soas. ac. uk/Geography/Waterlssues/Occasional Papers/home. Html, 2005-03-12.
[9] Allan J A. Virtual Water-the Water, Food and Trade Nexus Useful Concept or Misleading Metaphor?[J]. Water International, 2003, 28(1): 106-113.
[10] Allan T. "Virtual water"A Long Term Solution for Water Short Middle Eastern Economies?[C]. Paper Presented at the 1997 British Ass ociation Festival of Science, Roger Stevens Lecture Theatre, University of Leeds, Water and Development Session. 1997,9.
[11] Al-Weshah R. The Role of UNESCO in Sustainable Water Resources Management in the Arab World[J].Desalination, 2002, 152: 1-13.
[12] Andersen P, Petersen N C. A procedure for ranking efficient units in data envelopment analysis[J]. Management Science, 1993, 39: 1261-1264.
[13] Andesson C L, Peterson J N. Water allocation: the role of value sandprices[J]. J of Environment System, 1985,15(1): 71-79.
[14] Arrow K. The information of economics[M]. Cambridge, Mass: Belknap Press, 1984.
[15] Asano T, Levine A D. Wastewater Reuse: A Valuable Link in Water Resources Management[J]. Water Quality International, 1995, 4: 20-24.
[16] Asano T, Richard D, Crites R W, Tchobanoglous G Evolution of tertiary treatment requirements for wastewater reuse in California[J]. Water Environ. Techno., 1992, 4(2): 36-41.
[17] Asano T. Proposed California Regulations for Groundwater Recharge with Reclaimed Municipal Wastewater[J].Wat. Sci.&Tech., 1993, 27(7): 157-164.
[18] Asno T. Irrigation with treated sewage effluents[J]. Advanced Series in Agricultural Sciences, 1994, 22: 199-228.
[19] Bakir H A. Sustainable wastewater management for small communities in the Middle East and North Africa[J].Journal of Environmental Management, 2001, 61(4): 319-328.
[20] Banker R D. Estimating most productive scale size using data envelopment analysis[J]. European Journal of Operational Research, 1984 (17): 35-44.
[21] Batchelor C. Improving Water Use Efficiency as Part of Integrated Catchment ManagementP[J]. Agricultural Water Management, 1999, 40: 249-263.
[22] Beecher J A, Mann P C, Hegazy Y, et al. Revenue Effects of Water Conservation and Conservation Pricing:Issues and Practices[D]. National Regulatory Research Institute, Ohio State University, USA, 1994.
[23] Berk R A, Cooley T F, LaCivita C J, et al. Reducing Consumption in Period so f Acute Scarcity: The Case of Water[J]. Social Sci. Res., 1980, 9: 99-120.
[24] Bhalia R, Raheja S K. Multiple uses of water: a research proposal[J]. Submitted to International Irrigation Management Institute. Colombo, SriLanka. Draft, 1996.
[25] Billings R B, Day W M. Price Elasticity's For Water: A Case of Increasing Block Rates[J]. Land Economics.,1980, 56(1): 73-84.
[26] Bolloju N. Aggregation of analytic hierarchy process models based onsimilarities in decision makers? [J].European Journal of Operational Research, 2001,128: 499-508.
[27] Bonomo L, Nurizzo C, Role E. Advanced wastewater treatment and reuse: related problems and perspectives in Italy[J]. Water Science and Technology, 1999, 40(4-5): 21-28.
[28] Bowen R L, Young R A. Financial and economic irrigation net benefit functions for Egypt's Northern Delta[J].Water Resources Research, 1985,21(8): 1329-1335.
[29] Braden J B, Vanlerland E C. Balancing: The Economic Approach to Sustainable Water Management[J]. water Science and Technology, 1999, 39(5): 17-23.
[30] Bradley B R, Daigger G T. A sustainable development approach to wastewater infrastructure[J]. WEFTEC, 2000,60:1-17.
[31] Buras N. Scientific Allocation of Water Resources[M]. American Elsevier Publication Co., Inc., New York, 1972.
[32] Butler D, Parkinson J. Towards sustainable urban drainage[J]. Water Science and Technology, 1997, 35(9): 53-63.
[33] Chapagain A K, Hoekstra A Y, Savenije H G, Gautam R. The water footprint of cotton consumption An assessment of the impact of worldwide consumption of cotton products on the water resources in the cotton producing countries[J]. Ecological Economics, 2006, (60): 186-203.
[34] Chapagain A K, Hoekstra A Y. The water needed to have the Dutch drink tea[A]. Value of Water Research Report Series No. 15[C]. Netherlands, Delft: UNESCO 2IHE Institute for Water Education, 2003.
[35] Chapagain A K, Hoekstra A Y. The water needed to have the Dutch drink coffee[A]. Virtual Water Trade:Proceedings of the International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 1-38.
[36] Chapagain A K, Hoekstra A Y. Virtual water trade: a quantification of virtual water flows between nations in relation to international trade of livestock and livestock products[A]. Virtual Water Trade: Proceedings of the International Expert Meeting on Virtual Water Trade [C]. IHE Delft, 2003: 49-76.
[37] Chapagain A K, Hoekstra A Y. Water footprint s of nations [A], Value of Water Research Report Series No.16[C] .IHE Delft, 2004: 1-80.
[38] Charnes A, Cooper W W, Rhodes E, Measuring the efficiency of decision making units[J]. Eur.J.of Oper.Res.,1987, 2.
[39] Ciardelli G, Ranieri N. Technical note the treatment and reuse of wastewater in the textile industry) by means of Ozona ion and elect flocculation [J]. Water Research, 2001, 35(2): 567-572.
[40] Coelli T J. Recent developments in frontier modeling and efficiency measurement [J]. Austr J Agric Econ, 1995,39 (3): 219-245.
[41] Cornwell D A, et al. Water Stream Recycling: Its Effect on Water Quality[J]. AWWA. 1994, 86(11): 50-63.
[42] Cross P, Delneky G, Lothrop T. Worth Its Weight in Oranges: Florida City and County Turn Wastewater Effluent into Valuable Commodity[J]. Water Environment & Technology. 2000, 12(1): 26-30.
[43] Dai T, Labadie J W. River basin network model for integrated water quantity/quality management[J]. Journal of Water Resources Planning and Management, 2001, 127 (5): 295-305
[44] Doppler W, Salman A, Al-Karablieh EK, et al. The impact of water price strategies on the allocation of irrigation water: the case of the Jordan Valley[J]. Agricultural water management, 2002, 55: 171-182.
[45] Drewes E, Jekel M. Simulation of goundwater recharge with Advanced Treated Municipal Wastewater[J]. Wat.Sci.&Tech., 1996,33(11): 349-356.
[46] Drewes J E. Survey of Indirect Potable Reuse of Municipal Wastewater in the Southwestern United States[A].Proceedings Sino-Germany Workshop on Wastewater Treatment and Reuse. Beijing, China, 1996: 1-6.
[47] Easter K W, Hearne R. Water market and decentralized water[J]. Water Resources Bulletin, 1995, 31(1): 9-20.
[48] Eaton B C, Lipsey R G Product Differentiation[C]. Schmalensee R., Willig R.: Handbook of Industrial Organization. Amsterdam: North Holland, 1988, 723-770.
[49] Eberhard R. Supply Pricing of Urban Water in South Africa[R]. Report to the Water Research Commission on the Project "Pricing Water As an Economic Resource: Implications for South Africa", 1998.
[50] El-Fadel M, Maroun R. The concept of 'virtual water' and its applicability in Lebanon[A]. Virtual Water Trade:Proceedings of the International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 172-182.
[51] Elnaboulsi J C. Nonlinear pricing and capacity planning for water and wastewater services[J]. Water Resources Management, 2001, 2: 55-69.
[52] ESCAP(UN). Principles and practices of water allocation among water use sectors[R]. Water Resources Series,No.80, United Nations, New York, 2000.
[53] Fakeries S H. Naraganan. Rigidity and Quantity Rationing Rules under Stochastic Water Supply[J]. Water Resour.Res, 1984, 6: 20-23.
[54] Falkenmark M. Dilemma When Entering 21st Century Rapid Change but Lack of Sense of Urgency[J]. Water Policy, 1998, 4: 421-436.
[55] Farrell M J. The measurement of productive efficiency[J]. Journal of the Royal Statistics Society, 1957, A120(3):253-290.
[56] Ferguson B K. Storm Water Infiltration [M]. Lewis Publishers, 1996: 36-88.
[57] Frank A W, King J P. Economic Incentives for Agriculture Can Promote Water Conservation[A]. Proceedings of the New Mexico State University Water Conservation Conference, 1997.
[58] Graaf J, Meester H, Bruggeman W A, et al. Sustainable technological development for urban-water cycles [J].Water Science Technology, 1997, 35(10): 213-220.
[59] Gromaire-Mertz M C, Gamaud S, et al. Characterization of Urban Runoff Pollution in Paris[J]. Water Science &Technology, 1999, 39(2): 1-8.
[60] Guan D, Hubacek K. Assessment of regional trade and virtual water flows in China[J]. Ecological Economics,2006, 2(22): 1-12.
[61] Haddada M, Lindner K. Sustainable water demand management versus developing new and additional water in the Middle East: a critical review[J]. Water Policy, 2001(3): 143-163.
[62] Harris J M, Kennedy S, et al. Carrying capacity in Agriculture: Globe and regional issue[J]. Ecological Economics, 1999, 29(3): 443-461.
[63] Hauser D, Tadikamalla P. The analytic hierarchy process in an uncertain environment: A simulation approach[J].European Journal of Operational Research, 1996, 91: 27-37.
[64] He P J, Phan L, Gu G W. Reclaim municipal wastewater~a potential water resource in China[J]. Water Science and Technology, 2001, 43(10): 51-58.
[65] Hellstroma D, Jeppssonb U, Karrmanc E. A framework for systems analysis of sustainable urban water mnagement[J]. Environmental Impact Assessment Review, 2000, 20, 311- 321.
[66] Herbertson P W, Dovey W J. The Allocation of Fresh Water Resources of a Tidal estuary[J]. Optimal Allocation Water Resources (Proceedings of the Enter Symposium), 1982, 135.
[67] Hoekstra A Y, Hung P Q. Virtual Water Trade: A Quantification of Virtual Water Flows between Nations in Relation to International Crop Trade. Value of Water Research Series No.11[M]. IHE Delft, 2002: 15-17.
[68] Hotelling H. Stability in Competition[C]. Gabszewics J .Thisse J . Microeconomic Theories of Imperfect Competition ,Old Problems and New Perspectives. U K: Edward Elgar, 1999: 441-457.
[69] Hrlich, Anne H. Looking for the Ceiling: Estimates of the Earth's carrying capacity[M]. American Scientist,Research Triangle Park, 1996.
[70] Hui C W. Determining marginal values of intermediate materials and utilities using a site model[J]. Computers and Chemical Engineering, 2000, 24: 2-7.
[71] International Chamber of Commerce (I.C.C.), Environmental Auditing[R]. Report No.465, Paris, France, 1989.
[72] Javaid A, Noble D H. Optimization model for alternative use of different quality irrigation waters[J]. Journal of Irrigation and Drainage Engineering, 1992, 118(2): 218-228.
[73] Jonker L. Integrated water resources management: theory, practice, cases[J]. Physics and Chemistry of the Earth,2002(27): 719-720.
[74] Jordan J L. The Effectiveness of Pricing As A Stand- Alone Water Conservation Program[J]. Water Resource Bulletin, 1994, 30(5): 871-877.
[75] Jurdia M, Korfalib S I, etc., A Portotype Study for the Management of Surface Water Resources, Lebanon[J].Water Policy, 2001, (3): 41-46.
[76] Kirkpatrick W P, Asano T. Evaluation of tertiary treatment systems for wastewater reclamation and reuse[J].Water Science and Technology, 1986, 19(10): 83-95.
[77] Knapp K C. Irrigation Management and Investment Under Saline, Limited Drainage Conditions: Policy Analysis And Extensions[J]. Water Resources Research, 1992,28(12): 3099-3109.
[78] Kolokytha E G, Mylopoulos Y A, Mentes A K. Evaluating demand management aspects of urban water policy-a field survey in the city of Thessaloniki[J]. Greece. Urban Water, 2002, 4: 391-400.
[79] Kontos N, Asano T. Environmental assessment, for wastewater reclamation and reuse projects[J]. Water Science and Technology, 1996, 33(10-11): 473-486.
[80] Kristy A N, Bulleit. Achieving Sustainable Development: a Review of the Environmental Balancing Act in Two Key Clean Water Act Regulatory Programs[J]. Environmental Science & Policy, 2000, 3.
[81] Ladson A R, White L J. An index of stream condition: Reference manual (second edition)[M]. Melbourne:Department of Natural Resources and Environment, 1999: 1-65.
[82] Lancaster K. A New Approach to Consumer Theory[J]. Journal of Political Economy, 1966, 74: 132-157.
[83] Lancaster K. Consumer demand: a new approach[M]. New York: Columbia University Press, 1979.
[84] Levine J. Adaptive management in river restoration: theory vs. practice in western North America[J]. Water Resources Center Archives, University of Califorinia, 2004.
[85] Levite H, Sally H. Linkages between productivity and equitable allocation of water[J]. Physics and Chemistry of the Earth, 2002(27): 825-830.
[86] Loaiciga H A, Renehan S. Municipal water use and water rates driven by severe drought: A case study[J]. Journal of the American Water Resources Association, 1997,33(6): 1313-1326.
[87] Loslovich I, Gutman P O. A model for the global optimization of water prices and usage for the case[J].Mathematics and Computers in Simulation, 2001: 347-356.
[88] Lovell C AK. Production frontiers and productive efficiency[M]. In The measurement of productive efficiency. Oxford: Oxford University Press. 1993.
[89] Lovins A B. Soft Energy Paths: Toward a Durable Peace. Friends of the Earth InternationalfM], Ballinger Publishing Company, San Francisco and New York, 1977.
[90] Maimohe M, Labial M. Assessing Nassan County's Water Conservation Program[J]. Journal of Water Resources Planting and Management, 1994, 120(1).
[91] Malian R C, Horbulyk T M, Rowsec JG Market mechanisms and the efficient allocation of surface water resources in southern Alberta[J]. Socio-Economic Planning Sciences, 2002, 36: 25-49.
[92] Matheson Z, Ford S, Hill S. Waste Minimization Water Recycling-a Case Study at the Millennium Dome [J].IWA Yearbook, 2000: 30-32.
[93] Mercer L J. The efficiency of water pricing: A rate of return analysis for municipal water department[J]. Water Resource Bull., 1986, 23(2): 92-108.
[94] Meyer PS, Yung JW, Ausubel J H. A primer on logistic growth and substitution: the Mathematics of the Loglet Lab Software[J]. Technological Forecasting and Social Change, 1999, 61(3): 247-271
[95] Michael L J. Estimating Urban Residential Water Demand: Effects of Price Structure, Conservation and Education[J]. Water Resources Res, 1992, 28(3): 43-50.
[96] Mikkelsen P S, Adeler O F, Albrechtsen H J, Henze M. Collected Rainfall as a Water Source in Danish Households-What is the Potential and What are the Costs[J]. Water Science & Technology, 1999, 39(5): 49-56.
[97] Mitcnell V G, Mein R G McMahon T A. Modeling the Possible Utilization of Storm water and Wastewater within an Urban Coachmen[J]. AWWA 17th Federal Convention, 1997: 65-72.
[98] Moncur JET. Drought Episodes Management: the Role price[J]. Water Resour.Ball, 1988, 2.
[99] Mudege N, Taylor R. Implementing integrated water resources management in Southern Africa-A focus on capacity building efforts and strategies [EB/OL]. http://www.cap-net.org, 2003-01-20.
[100]Murdock S H. Role of Socio demographic characteristics in Projections of Water Use[J]. Journal of Water Resources Planning and Management, 1991, 2: 117.
[101] Narayanan R, Beladi H. Feasibility of seasonal water pricing considering metering costs[J]. Water Resources Research, 1987, 23(6): 1091-1099.
[102] Nelson R. On the measurement of capacity utilization[J]. J Indus Econ, 1989, 37(3): 12.
[103]Nkomo S, Pieter van der Zaag P. Equitable water allocation in a heavily committed international catchment area:the case of the Komati Catchment[J]. Physics and Chemistry of the Earth, 2004, (29): 1309-1317.
[104] Oki T, Sato M. Virtual water trade to Japan and in the world[A]. Virtual Water Trade: Proceedings of the International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 221-238.
[105]Otterpohl R, Albold A, Oldenburg M. Source control in urban sanitation and waste management: ten systems with reuse of resources[J]. Water Science and Technology, 1999, 39(5): 153-160.
[106] Otterpohl R, Grottkers M, SrgLange J. Sustainable water and waste management in urban areas[J]. Water Science and Technology, 1997, 35(9): 121-133.
[107]Panayotou T. Economic Instruments for Environmental Management and Sustainable Development [C].Environment Economics Series, paper No. 16, UNEP environment and Economic Unit, 1994, 12.
[108] Papaiacovou I. A Case study wastewater reuse in Girasol as an alternative water source[J]. Desalination, 2001, 38:55-59.
[109] Parliamentary Commissioner for the Environment. Ageing pipes and murky waters urban water system issues for the 21st century [EB/OL]. http://www. pce. Govt. nz. 2003.
[110] Pearson, Walsh P D. The Derivation and Use of Control Carves for the Regional Allocation of Water Resources[J]. Water Resources research, 1982, (7): 907-912.
[111] Pennacchio V F. Price elasticity of water demand with respect to the design of water rates[J]. Journal England water Works Association, 1986, 100(4): 442-452.
[112]Perrcia C, Oron G Optimal Operation of Regional System with Diverse Water Quality Sources[J]. Journal of Water Resources Planning and Management, 1997, 203(5): 230-237.
[113] Piegaya H, Dupontb P, Faby J A. Questions of Water Resources Management. Feed back on the implementation of the French SAGE and SDAGE Plans (1992-2001)[J]. Water Policy, 2002, (4): 239-262.
[114]Plester H R F, et al. The Evolution of Water Resource Development in North Ireland[J]. CIWEM, 1995, 9(6):272-280.
[115] Raftelis G A, Van Duson J D. Factors affecting water and wastewater rates[J]. Public Works, 1988, 2: 61-62.
[116]Reca J, Roldan J, Alcaide M, et al. Optimization model for water allocation in deficit irrigation systems Description of the model[J]. Agricultural water management, 2002(55): 171-182.
[117] Renault D. Value of virtual water in food: principles and virtues[A]. Hoekstra A Y, Virtual Water Trade:Proceedings ofthe International Expert Meeting on Virtual Water Trade[C]. IHE Delft, 2003: 77-91.
[118]Renwick M E, Archibald S O. Demand Side Management Policies for Residential Water Use: Who Bears the Conservation Burden?[J]. Land Econom, 1998, 74: 343-359.
[119] Romijn E, Taminga M. Allocation of Water Resources[J]. Proceedings of the Symposium, 1982, 135.
[120] Rosegrant M. Sustainable food security for all by 2002[A]. Proceeding of an International Conference, Bonn.www.ifpri.org/pubs/books. 2001, 9: 2-6.
[121] Saatty T L. The sudan transport study[J]. Interfaces. 1997, 8(1).
[122] Salop S C. Monopolistic Competition wit h Out side Goods[J]. The Bell Journal of Economics, 1979, 10:141-156.
[123] Samer M, Jamal I. Egyptian experience in utilizing recycled water for irrigation purposes[J]. Desalination, 1995,11(93): 663-671.
[124] Sasikumar K, Mujumdar P P. Fuzzy optimization model for water quality management of a river system[J].Journal of Water Resources Planning and Management, 1998, 124(2): 79-84.
[125] Sato K. A Two-level Constant Elasticity of substitution Production Function[J]. Review of Economic Studies,1967, 34(2): 201-218.
[126] Scheider M L. Use-specific water demand elasticities[J]. Water Resource Planning and Management, 1991,117(1): 23-35.
[127] Schlette T C, Kemp D C. Setting rates to Encourage Water Conservation[J]. Water Engineer and Management,1991, (5): 25-29.
[128] Schneider M L. User-specific Water Demand Elasticity[J]. Journal of Water Resources Planning and Management, 1991, 117(1): 189-195.
[129] Schuck E C, Green G P. Supply-based Water Pricing in a Conjunctive Use System: Implications For Resource and Energy Use[J]. Resource and Energy Economics, 2002,24,175-192.
[130] Seckler D. The new era of water resources management[J]. Issues of Agriculture, 1996, 25(8): 146-158.
[131] Seidl I, Tisdell C A. Carrying capacity reconsidered: from Malthus' population theory to cultural carrying capacity[J]. Ecological Economics, 1999(31): 395-408
[132] Shapira A, Goldenberg M. AHP-Based Equipment selection Model for Construction Projects[J]. J. Constr. .Engrg.and Mgmt. 2005, 131(12), 1263-1273.
[133] Sheikh B, Cooper R C, Israel K E. Hygienic evaluation of reclaimed water used to irrigate food crops-a case study [J]. Water Science and Technology, 1999, 40(4-5): 261-267. -
[134] Sheriff D, et al. Strategic Resource Development Options in England and Wales[J]. CIWEM, 1996, 10(6):160-169.
[135]Shiklomanov I A. In Water in crisis: A guide to the world's fresh water resources[M]. New York: Oxford University Press, 1993:13-24.
[136] Shu-Hai Y, Dyt-Hwa T, Gia-Luen G. A case study on the wastewater reclamation and reuse in the semiconductor industry. Resources[J]. Conservation and Recycling, 2001, 32: 73-81.
[137] Shy O. Industrial Organization, Theory and Applications[M]. Cambridge: MIT Press, 1995.
[138] Simonnvic S P. Decision support system for sustainable management of water resources: 1. General Principles[J].Water International, 1996(21): 223-232.
[139] Somlyody L. Water Quality Management[J]. Water Science and technology. 1995, 31(8): 249-259.
[140] Sophocleous M. From safe yield to sustainable development of water resources-the Kansas experience[J]. Journal of Hydrology, 2000(235): 27-43.
[141] Stanley R H, Luiken R L. Water Rate Studies and Making Philosophy[J]. Public Works, 1982, 5: 70-73.
[142] Teerink J R, Nakashima M. Water allocation, Rights, and Pricing: Examples from Japan and the United States[C].World Bank paper No. 198, Washington, D.C, World Bank, 1993: 1-25.
[143] The Institution's Discussion Paper on "Water Resources Panning in England and Wales"[J]. CIWEM, 1996, 10(6):220-222.
[144] Timothy J D, et al. Sustainability of least cost policies for meeting Mexico City's future water demand[J]. Water Resources Research, 2000, 38(3): 2321-2328.
[145] Toset H P, Gleditsch N P. Conflict and shared rive[A]. Paper presented at the 40th Annual Convention of the International Studies Association. Washington, D. C, 1999, 2: 3.
[146]Udagawa T. Water recycling systems in Tokyo[J]. Desalination, 1994(98): 309-318.
[147] United Nations. Comprehensive Assessment of the Freshwater Resources of the World[R]. Commission for Sustainable Development, Stockholm Environment Institute, Stockholm, Sweden, 1997.
[148]Urbonas B R. Design of a Sand Filter for Storm water Quality Enhancement[J]. Water Environ. Res., 1999, 71(1):102-113.
[149] USEPA. Water Conservation Plan Guidelines[R]. US Environmental Protection Agency, Washington DC, 1998.
[150]Uzawa H. Production Functions wit h Constant Elasticities of Substitution[J]. Review of Economics Studies,1962,29:291-299.
[151] van der Zaag, P, Seyam IM, Savenije HHG Towards measurable criteria for the equitable sharing of international water resources[J].Water Policy,2002,4:19-32.
[152]Vans O,Lahtela V.Integrated water resources management along the Senegal River:Introducing an analytical framework[J].Water Resources Development,2002,18(4):501-521.
[153]Vickers A.The Emerging Demand-side Era in Water Management [J].AWWA,1991,83(10):35-43.
[154]Vijayan G,Nathan N S,Subramanian R S,et al.Management of water resources for quality and quantity[J].Journal of Indian Water Works Association,1999,(1-3):43-46.
[155]Wang M,Zheng C.Ground water management optimization using genetic algorithms and simulated annealing:Formulation and comparison[J].Journal of the American Water Resources Association,1998,34(3):519-530.
[156]Warren D R,et al.IRP:A Case Study from Kansas[J].AWWA,1995,88(6):57-71.
[157]Watkins D W,Kinney J M,Robust D C.Optimization for incorporating risk and uncertainty insustainable water resources planning[J].International Association of Hydrological Sciences,1995,231 (13):225-232.
[158]Wichelns D.The role of public policies in motivating virtual water trade,with an example from Egypt[A].Virtual Water Trade:Proceedings of the International Expert Meeting on Virtual Water Trade[C].IHE Delft,2003:147-158.
[159]Wicholns D.Motivating Reduction in Drain Water with Block-Rater Prices for irrigation water[J].Water Resour.Bull,.1991,4.
[160]Willis R,Yeh W W-G.Groundwater system planning and management[M].New jersey Prentice Hall,1987.
[161]World Metrological Organization.The Dublin Statement on Water and Sustainable Development[R].Dublin International Conference on Water and the Environment.1992:1-6.
[162]Yeh G Reservoir Management and Operations Models,A State-of the art Review[J].Water Resources Research,1985(12):1797-1818.
[163]Yevj evich V.Effects of area and time horizons in comprehensive and integrated water resources management [J].Water Science and Technology,1995,31(8):19-25.
[164]Zimmer D,Renault D.Virtual water in food production and global trade:review of methodological issues and preliminary results[A].Virtual Water Trade[C].IHE Delft,2003:93-107.
[165]安永会,唐桂英,张福存,姚秀菊.系统理论与频率分析法在水资源评价中的应用[J].勘察科学技术,2005,5:38-40.
[166]保罗·克鲁格曼.克鲁格曼国际贸易新理论[M].北京:中国社会科学出版社,1990.
[167]闭德华.大连市运用定额进行节水管理的思考[J].城镇供水,2006,4:41-42.
[168]蔡运龙.自然资源学原理[M].北京:科学出版社2000.
[169]蔡振禹,李思敏,任建华,王晓华.基于AHM模型的城市节水水平综合评价研究[J].中国给水排水,2006,22(7):54-56.
[170]曹建廷,李原园,张文胜,徐澎波,刘俊国.农畜产品虚拟水研究的背景、方法及意义[J].水科学进展,2004,15(6):829-834.
[171]曹军,胡万义.灰色系统理论与方法[M].东北林业大学出版社,1993,5.
[172]曹相生,孟雪征,张杰.循环型社会的基础-健康社会水循环[A].中国环境保护优秀论文精选[C],2005,第四篇,水污染防治技术:252-255.
[173]曹型荣,王宏义.关于编制工业用水定额工作之商榷[J].水利发展研究,2002,(7):11-14.
[174]畅建霞,黄强,王义民,薛小杰.基于耗散结构理论和灰色关联熵的水资源系统演化方向判别模型研究[J].水利学报,2002,11:107-112.
[175]车武,李俊奇.从第十届国际雨水利用大会看城市雨水利用的现状与趋势[J].给水排水,2002,28(3):12-14.
[176]车武,欧岚,汪慧珍,等.北京城区雨水径流水质及其主要影响因素[J].环境污染治理技术与设备,2002,3(1):33-3 7.
[177]陈东景,徐中民.关于水资源管理的几个问题的探讨[J].干旱区研究,2001,18(1):1-4.
[178]陈光吉.浅议城市雨水的开发利用[J].黎明职业大学学报,2003,38(1):71-74.
[179]陈建耀,刘昌明.城市节水潜力估算与用水管理水平评定[J].地理学报,1998,53(2):141-148.
[180]陈静,林逢春,杨凯.基于生态效益理念的企业环境绩效动态评估模型[J].中国环境科学,2007(5):717-720.
[181]陈静,杨凯,张勇,等.灰色协调度模型在产业用水系统分析中的应用[J].长江流域资源与环境,2008,17(5):694-698.
[182]陈静,杨凯,张勇等.基于节水理念的工业水资源价格模型[J].资源科学,2008,30(7):968-974.
[183]陈静,杨凯,张勇等.基于数据包络分析的行业最小需水定额研究[J].水利水运工程学报,2008,4:95-98.
[184]陈宁,张彦军.水资源可持续发展的概念、内涵及指标体系[J].地域研究与开发,1998,17(4):37-39.
[185]陈庆秋,陈晓宏.基于社会水循环概念的水资源管理理论探讨[J].地域研究与开发,2004,23(3):109-113.
[186]陈庆秋.珠江三角洲城市节水减污研究[D].广州:中山大学,2004.
[187]陈守煜.21世纪水资源开发利用的河海协同原理[J].大连理工大学学报,2003,43(6):697-700.
[188]陈学福,关洪林,刘军武.湖北省工业和城市生活用水定额研究[J].中国农村水利水电,2002,4:32-35.
[189]陈燕武,金式容.论水资源的合理配置[J].《福建行政学院福建经济管理干部学院学报》,2001,2:57-59.
[190]陈莹,刘昌明,赵勇.节水及节水型社会的分析和对比评价研究[J].水科学进展,2005,16(1):82-87.
[191]陈莹,赵勇,刘昌明.节水型社会的内涵及评价指标体系研究初探[J].干旱区研究,2004,21(2):125-129.
[192]陈莹,赵勇,刘昌明.节水型社会评价研究[J].资源科学,2004,(6):83-89.
[193]陈玉娟,查奇芬,黎晓兰.熵值法在城市可持续发展水平评价中的应用.江苏大学学报(社会科学
[194]陈云波,胡宜国,顾清泉.论水资源的经济特性[.J].黑龙江水利科技,2003,1:24.
[195]成金华,李世祥,吴巧生.关于中国水资源管理问题的思考[J].中国人口.资源与环境,2006,16(6):162-168.
[196]程国栋.虚拟水-中国水资源安全战略的新思路[C].中国科学院院刊,2003(4):260-265.
[197]程江,徐启新,杨凯,等.下凹式绿地雨水渗蓄效应及其影响因素[J].给水排水,2007,33(5):45-4 9.
[198]程江,徐启新,杨凯,等.国外城市雨水资源利用管理体系比较及启示[J].中国给水排水,2007,22(12):68-72.
[199]程江,杨凯,徐启新.高度城市化区域汇水域尺度LUCC的降雨径流调蓄效应—以上海城市绿地系统为例[J].生态学报,2008,28(7):2972-2980.
[200]程江.上海中心城区土地利用/土地覆被变化的环境水文效应研究[D].上海:华东师范大学,2007.
[201]褚俊英,王灿,王琦,等.水价对城市居民用水行为影响的研究进展[J].中国给水排水,2003,19(11):32-35.
[202]崔亚楠.虚拟水理论与北京地区用水结构分析[J].北京水利,2005(4):33-35.
[203]崔振才,郭林华.等.水资源系统模糊优化多维动态规划棋型与应用[J].水科学进展,2000,11(2):20-28.
[204]崔宗培.中国水利百科全书[M].北京:水利电力出版杜,1991.
[205]戴镇生,张杰.城市污水回用事业的展望[J].给水排水技术动态,1992,(2):25-27.
[206]邓聚龙.灰色系统基本方法[M].武汉:华中理工大学出版社,1994.
[207]邓晓军,谢世友,王李云,黄岩.城市水足迹计算与分析—以上海市为例[J].亚热带资源与环境学报,2008,3(1):62-68.
[208]丁立国,高悦,那利.统计分析法在工业用水定额制定中的应用[J].东北水利水电,2003,(9):12-13.
[209]董荌,董文虎.供水超定额累进加价收入的权属及价格核定方法[J].水利发展研究,2004,4(11):32-35,56.
[210]董辅祥,董欣东.城市与工业节约用水理论[M].北京:中国建筑工业出版社,2000.
[211]董辅祥.节约用水原理及方法指南[M].北京:中国建筑工业出版社,1995,11.
[212]樊自立,马映军.干早区水资源开发及合理利用的几个问题[J].干早区研究,2000,17(3):7-12.
[213]封晨辉,陈林.制定合理用水定额科学管理水资源[J].河北水利水电技术,2002,6:41-43.
[214]冯宝平,张展羽,贾仁辅.区域水资源可持续利用机理分析[J].水利学报,2006,37(1):16-20.
[215]冯宝平.区域水资源可持续利用理论与应用研究[D].南京:河海大学,2004.
[216]冯金华.社会项目评估研究[M].武汉大学出版社,1993.
[217]冯尚友,刘国全.水资源持续利用的框架[J].水科学进展,1997,8(4):301-307.
[218]冯尚友.水资源持续利用与管理导论[M].北京:科学出版社,2000.
[219]冯耀龙,练继建,韩文秀.区域水资源系统可持续发展评价研究[J].水利水电技术,2001,32(12):9-11.
[220]冯耀龙,练继建.水价制定理论分析研究的一种新思路[J].水利水电技术,2001,32(6):23-2 5.
[221]冯耀龙,王宏江.资源水价的研究[J].水利学报,2003,8:111-116.
[222]冯玉国.灰色优化理论模型在地下工程围岩稳定性分类中的应用[J].岩土工程学报,1996,18(3):62-66.
[223]傅伯杰,陈利顶,马克明,等,景观生态学原理及应用[M].北京:科学出版社,2005.
[224]傅冬绵.关于区域水资源的优化配置模型[J].国土资源科技管理.2001,18(4):15-18.
[225]傅立.灰色系统理论及其应用[M].北京:科学技术文献出版社,1992.
[226]傅平,张天柱.我国两部制水价对供水价格目标的影响[J].中国给水排水,2002,18(4):26-28.
[227]傅涛,张丽珍,常杪,魏保平.城市水价的定价目标、构成和原则[J].中国给水排水,2006,22(6):15-18.
[228]傅养,冯尚友.水资源持续利用(生态水利)原理的探讨[J].水科学进展,2000,11(4):436-440.
[229]高镔.水资源可持续利用的原则与保障条件[J].四川水利,2004,5:2-5.
[230]高健智,赵耀,邹志云,徐文学,等.基于AHP的多极模糊公路交通现代化综合评价研究[J].武汉理工大学学报,2007,31(2):243-246.
[231]高明,刘淑荣.价格调节与水资源集约利用[J].价格月刊,2006,1:20-21.
[232]高山晟.经济学中的分析方法[M].北京:中国人民大学出版社,2001.
[233]高湘,李耘.污水资源化是水资源可持续开发及利用的重要途径[J].地下水,2000.
[234]勾智慧.两部制水价制度的实践与探讨[J].黑龙江水利科技,2006,34(2):123-124.
[235]关春宇,刘峰,陈嘉焙.实施两部制水价的利与弊[J].黑龙江水利科技,2006,3:151-152.
[236]关业祥.对水资源配置的认识与思考[J].中国水利,2005,5:21-23.
[237]广州市水利局,长江水利委员会勘测规划设计研究院.广州市水利现代化建设规划纲要[R].2002.
[238]郭斌,任志远.陕西省2003年水资源足迹测评与分析[J].干旱地区农业研究,2006,24(6):178-182.
[239]郭青平,万日明,杨应健.天津市工业用水定额制定方法的探讨[J].海河水利,2003,(3):22-24.
[240]韩美,张丽娜.城市水价研究的理论与实践—以济南市自来水价研究为例[J].自然资源学报,2002,17(4):457-462.
[241]韩文秀,金锐,张俊艳.复合系统及其协调的一般理论[A].许国志,等.系统科学与工程研究[C].上海:上海科技教育出版社,2000,460-469.
[242]何锦峰,陈国阶.水资源动态完全成本定价的理论探讨[J].自然资源学报,2000,15(3):236-240.
[243]侯捷,赵秀娟.兰州市居民生活用水的可持续发展水价计算[J].东北水利水电,2007,25(4):61-64.
[244]侯捷.中国城市节水2010年技术进步发展规划[M].北京:中华人民共和国建设部城市建设司,文汇出版社出版,1998.
[245]胡鞍钢,王亚华.转型期水资源配置的公共政策:准市场和民主协商制度[J].中国软科学,2000,(5):5-11.
[246]胡昌暖.资源价格研究[M].北京:中国物价出版社,1993.
[247]胡浩.水资源价值与价格研究综述[J].石家庄经济学院学报,2003,26(3):229-232.
[248]胡庆和,胡军华.水资源管理模式发展趋势探析[J].人民长江,2007,38(1):66-68.
[249]黄金平,邓禾.澳、美水权制度对构建我国水权制度的启示[J].西南政法大学学报,2004,(6):124-128.
[250]黄乾,张保祥,黄继文.纪亚非,等.基于熵权的模糊物元模型在节水型社会评价中的应用[J].2007,10:413-416.
[251]黄涛珍,任淑林.Water Price Difference System and Its Parity Relations in Jiangsu Province[A].第四届流域管理与城市供水国际会议论文集[C],2004,226-238.
[252]黄涛珍.水利工程供水水价计算模型研究[J].水科学进展,1998(增刊):63-66.
[253]黄添元.深圳城市水务管理体制改革的探索[J].特区经济,1999(11):55-56.
[254]黄贤金.自然资源二元价值论及其稀缺价格研究[J].中国人口、资源与环境,1994,4(4):40-43.
[255]黄永基,陈晓军.我国水资源需求管理现状厦发展趋势分析[J].水科学进展,2000,11(2):218-220.
[256]贾绍凤,康德勇.提高水价对水资源需求的影响分析—以华北地区为例[J].水科学进展,2000,11(1):49-53.
[257]贾绍凤,王国,夏军,于贵瑞.社会经济系统水循环研究进展[J].地理学报,2003,58(2):255-262.
[258]减晓冬,张树山,庞静.区域公路网路段交通量综合预测模型研究[J].哈尔滨工业大学学报,2003,35(9):1135-1139.
[259]姜文来,武霞,林桐枫.水资源价值模型评价研究[J].地球科学进展,1998,13(2):178-183.
[260]姜文来,杨瑞珍.资源资产论[M].北京:科学出版社,2003:68-122.
[261]姜文来.21世纪中国水资源安全战略研究[J].中国水利,2000(8):41-44.
[262]姜文来.水资源价值对水利工程经济评价影响研究[J].水科学进展,1999,10(4):424-428.
[263]姜文来.水资源价值论[M].北京:科学出版社,1998,142-145.
[264]姜文来.水资源价值模型研究[J].资源科学,1998,20(1):35-43.
[265]姜文来.我国资源核算演变历程问题及展望[J].国土与自然资源研究,1999(3):43-46.
[266]蒋昕.公众参与问卷调查方法探讨[J].广州环境科学,2008,23(2):36-39.
[267]靖娟,秦大庸,,张占庞.节水型社会建设的全方位支撑体系研究[J].人民黄河,2007,29(1):45-47.
[268]柯兵,柳文华,段光明.虚拟水在解决农业生产和粮食安全问题中的作用研究[J].环境科学.2004,25(2):32-36.
[269]雷社平,解建仓,黄明聪,陈鸿起.区域产业用水系统的协调度分析[J].水利学报,2004,5:14-19.
[270]李广贺,刘兆昌,张旭.水资源利用工程与管理[M].北京:清华大学出版社,1998.
[271]李国欣,李旭东.污水资源化利用技术现状及其应用实例[J].给水排水,2001,20(5):15-19.
[272]李红梅,陈宝峰.宁夏节水型社会建设评价指标体系研究[J].水利水文自动化,2007,2:42-46.
[273]李建军.论经济社会发展中的环境问题[J].汉中科技,2007,3:45-46.
[274]李金昌.资源核算论[M].北京:海洋出版社,1991,85-90.
[275]李晶,宋守度,姜斌,等.水权与水价-国外经济研究与中国改革方向探讨[M].中国发展出版社,2003,11.
[276]李令跃,甘泓.试论水资源合理配置和承载能力概念与可持续发展之间的关系[J].水科学进展,2000,11(3):307-313.
[277]李文清.水循环对水污染的影响及防治对策[J].山西水利,2005,4:43-44.
[278]李亚伟.水资源系统模糊决策、评价与预测方法及应用[D].大连:大连理工大学,2005.
[279]李永根,王晓贞.天然水资源价值理论及其实用计算方法[J].水利经济,2003,21(3):30-32.
[280]林逢春,陈静.企业环境绩效评估指标体系及模糊综合指数评估模型[J].华东师范大学学报(自然科学版),2006(6):59-66.
[281]刘宝勤,封志明,姚治君.虚拟水研究的理论、方法及其主要进展[J].资源科学,2006,28(1):120-127.
[282]刘宝勤,姚治君,高迎春.北京市用水结构变化趋势及驱动力分析[J].资源科学,2003,25(2):38-43.
[283]刘斌.关于水权的概念辨析[J].中国水利,2003,1:32-33.
[284]刘昌明,何希吾,任鸿遵.中国水问题研究[M].北京:气象出版社,1996.
[285]刘春生.南水北调工程水价的合理确定[J].水科学进展,2004,15(6):808-812.
[286]刘丹,严冬,张乾元,王修贵.“节水型社会”建设模式选择研究[J].中国农村水利水电,2004,12:19-22.
[287]刘戈力.对节水问题的再认识[R].中国水情分析研究报告,2001,14.
[288]刘贵良.万家寨引黄入晋工程(一期)水价分析[J].水利经济,2001,19(6):33-35,39.
[289]刘恒.水资源可持续利用的原则与保障条件[J].中国水利,2000,8:51-53.
[290]刘健民,张世法.京津唐地区水资源大系统供水规划和调度优化的递阶模型[J].水科学进展,1993,4(2):98-105.
[291]刘吕叨,何希吾,等.中国21世纪水问题方略[M].北京:科学出版社,1996.
[292]刘荣珍,赵军.模糊评价模型在长江水质评价中的应用[J].兰州交通大学学报,2007,26(6):50-52.
[293]刘绍民.新疆塔里木河沿岸地区水资源优化分配模型研究[J].水利学报,1995,1:69-74.
[294]刘树杰.水利工程水价的形成机理[J].宏观经济研究,2000,10:32-36.
[295]刘思峰,郭天榜,党耀国,等.灰色系统理论及其应用(第二版)[M].北京:科学出版社,1999.
[296]刘小呀.我国排污收费制度及其价格体系的改革[J].中国人口资源与环境,2003,13(1):49-53.
[297]刘一明,卢瑛.我国水资源的分配体系及其有效性分析[J].国土与自然资源研究,2002,(1):5-6.
[298]刘应明.深圳市水资源安全对策研究[J].工程建设与设计,2003(1):20-22.
[299]龙爱华,徐中民,张志强.西北四省(区)2000年的水资源足迹[J].冰川冻土,2003,25(6):692-700.
[300]龙子泉.水利与流域经济可持续发展定量关系研究[D].武汉:武汉大学博士学位论文,2001.
[301]娄彦学,狄俊一.美国有关水价对采用节水灌溉技术影响的研究[J].水土保持科技情报,2002,(4):38-40.
[302]陆鼎言.对“水质型”缺水城市实行分质供水的探讨[J].水资源保护,2001,4:60-63.
[303]罗杰.泊曼,等.自然资源与环境经济学[M].北京:中国经济出版社,2002:250-252.
[304]马静,汪党献.虚拟水贸易在我国粮食安全问题中的应用[J].水科学进展,2006,17(1):102-107.
[305]马智杰,徐小元,居江.区域良性水循环的探讨和示范[J].中国水利水电科学研究院学报,2005,3(3):216-221.
[306]马忠玉,蒋洪强.水循环经济与水资源合理开发利用研究[J].生态环境,2006,15(2):416-423.
[307]毛春梅,袁汝华.黄河流域水资源价值的计算与分析[J].中国人口、资源与环境,2003,13(3):25-29.
[308]孟庆松,韩文秀,金锐.科技-经济系统协调模型研究[J].天津师范大学学报,1998,18(4):8-12.
[309]闵庆文,成升魁.全球化背景下的中国水资源安全与对策[J].资源科学,2002,24(4):49-55.
[310]牟海省.我国水资源持续开发的零增长模式初探闭地理研究[J].1995,14(1):80-84.
[311]倪红珍,王浩,阮本清,汪党献.基于环境价值论的商品水定价[J].水利学报,2003,10:101-107.
[312]欧邦才,王慧敏,李金祥.扩展线性支出系统在需求系统中的应用[J].现代管理科学,2001,(3):15-17.
[313]皮亚杰(Jean·Piaget).结构主义[M].倪连生,等译.北京:商务印书馆,1996.
[314]蒲晓东.我国节水型社会评价指标体系以及方法研究[D].南京:河海大学,2007.
[315]钱伯宁.济南市城市用水定额编制[D].武汉:武汉大学,2004.
[316]钱春健.从社会水循环概念看苏州水资源的开发利用现状[J].水利科技与经济,2008,14(5):377-378.
[317]钱易等.中国城市水资源可持续开发利用[M].北京:中国水利水电出版社,2002.
[318]钱正英,张辉.中国可持续发展水资源战略研究综合报告及各专业报告[M].中国水利水电出版社,2001:8.
[319]乔世珊,田玉龙.我国不同区域不同发展阶段节水型社会建设的特点[J].中国水利,2005,13:87-89.
[320]钦丽娟,曹剑峰,平建华,姜纪沂,等.模糊数学在郑州市水资源价值评价中的应用[J].吉林大学学报(地球科学版),2005,35(4):487-490,495.
[321]秦福兴,耿雷华,陈晓燕.确定万元GDP取水量定额方法的探索[J].水利学报,2004,(8):119-128.
[322]秦毅,王学凤.城市计划管理用水定额与其分析计算[J].西安理工大学学报,2001,(1):51-56.
[323]卿小燕,段昌群.产品虚拟水分析与计量方法[J].云南环境科学.2004,23(增刊1):26-28.
[324]邱林,和吉.用虚拟水战略解决我国水危机的思考[J].华北水利水电院学报,2005,26(1):13-15.
[325]茹继平,李大鹏.城市污水再生利用新模式的探讨[J].中国给水排水.2001,17(5):33-36.
[326]阮本清,粱瑞驹,王浩,等.流域水资源管理[M].北京:科学出版社,2000:134-135.
[327]上海市环境保护局.上海市环境质量报告书[R].2005.
[328]上海统计局.上海市统计年鉴.,2000-2006.
[329]深圳市水务局.长江勘测规划设计研究院.深圳市水务现代化规划纲要[R].北京:中国水利水电出版社,2002,1-32;94-116.
[330]沈大军,王浩,阮本清,等.水价理论与实践[M].北京:科学出版社,1999.
[331]沈露莹.上海城市水价形成机制研究[D].上海:同济大学,2002.
[332]沈泰.长江水资源保护与可持续发展[J].水资源保护,2002,(3):2-5.
[333]沈小南.中水回用实现污水资源化[A].21世纪国际城市污水处理及资源化发展战略研讲会与展览会[C],2001.
[334]石登荣,尤建军.太湖流域水环境问题探讨[J].上海师范大学学报,2000,29(3):80-87.
[335]史俊,文俊.节水型社会及其评价指标的应用[J].水科学与工程技术,2006,5:54-56.
[336]水利部发展研究中心.武汉大学:节水型社会实践与理论研究报告[R].2004.
[337]苏广实.自然资源价值及其评估方法研究[J].学术论坛,2007,4:77-80.
[338]孙风华.关于建立北京市合理供水价格体系的建议[J].北京水利,2000,(2):40-42.
[339]孙金华,陆桂华.水资源属性与水资源问题强相关分析[J].水资源保护,2007,23(5):87-90.
[340]孙义鹏.基于水足迹理论的水资源可持续利用研究[D].大连:大连理工大学,2007.
[341]唐本佑.自然资源价格构成因素研究.J].科技进步与对策,2004,6:161-163.
[342]唐鹤.国外城市节水技术与管理[M].北京:中国建筑工业出版社,1999.
[343]特伦斯.霍克斯.结构主义和符号学[M].上海:上海译文出版社,1987.
[344]田峰巍,解建仓.用非平衡系统理论认识水资源系统分析中的几个问题[J].西安理工大学学报,1997,13(4):314-320.
[345]佟春生,黄强,刘俊萍,刘涵.水资源系统界壳理论研究及其应用前景[J].西安理工大学学报,2004,20(1):21-25.
[346]汪恕诚.建设节水型社会工作要点[J].中国水利.2003,21:6-7.
[347]汪恕诚.水权和水市场-谈实现水资源优化配置的经济手段[J].水电能源科学,2001,19(3):1-5.
[348]汪恕诚.资源水利-人与自然和谐相处[M].北京:中国水利水电出版社,2005,1-256.
[349]汪松年,阮仁良.上海市水资源普查报告[M].上海:上海市科学技术出版社,2001.
[350]王浩,阮本清,沈大军.面向可持续发展的水价理论与实践[M].北京:科学出版社,2003.
[351]王浩,王建华,秦大庸,贾仰文.基于二元水循环模式的水资源评价理论方法[J].水利学报,2006,37(12):1496-1502.
[352]王红瑞,董艳艳,王军红,等.北京市农作物虚拟水含量分析[J].环境科学,2007,28(11):632-637.
[353]王红瑞,王岩,王军红,等.北京农业虚拟水结构变化及贸易研究[J].环境科学,2007,28(12):220-227.
[354]王慧敏.流域可持续发展系统理论与方法[M].南京:河海大学出版社,2000.
[355]王吉魁,龚孟建.大中型灌区现行低水价的弊端及其改革措施[J].中国农村水利水电,2001,(4):8-9.
[356]王季震,等.城市雨水资源化利用及工程方法[J].华北水利水电学院学报,2004,25(2):4-6.
[357]王劲峰,刘昌明,于静洁,陈红焱.区际调水时空优化配置理论模型探讨[J].水利学报,2001,4:7-14.
[358]王靖,张金锁.综合评价中确定权重向量的几种方法比较[J].河北工业大学学报,2001,30(2):52-57.
[359]王礼先,张志强.雨洪利用技术概述[J].新疆环境保护,1997,19(2):10-13.
[360]王莲芬,许树柏,层次分析法引论[M].北京:中国人民大学出版社,1990,6.
[361]王秋生.珠江三角洲水资源与流域经济的协调发展[J].中国水利,2003.(3):32-34.
[362]王舒曼,曲福田.水资源核算及对GDP的修正:以中国东部经济发达地区为例[J].南京农业大学学报,2001,24(2):115-118.
[363]王舒曼,王玉栋.自然资源定价方法研究[J].生态经济,2000,4:25-26.
[364]王树谦,梁灵君.浅析ET与农作物产品虚拟水之间的关系[J].水科学与工程技术,2005,(6):26-29.
[365]王喜春,黄介生.基于体系结构的水资源管理系统[J].中国农村水利水电,2006,1:48-51.
[366]王先甲,肖文.水资源的市场分配机制及其效率[J].水利学报,2001,12:26-31.
[367]王新华,徐中民,龙爱华.中国2000年水足迹的初步计算分析[J].冰川冻土,2005,27(5):774-780.
[368]王新华.中部四省虚拟水贸易的初步研究[J].华南农业大学学报,2004,3(3):33-38.
[369]王秀艳,朱坦,王启山,彭海.城市水循环途径及影响分析[J].城市环境与城市生态,2003,16(4):54-56.
[370]王学萌,张继忠,王荣著.灰色系统分析及实用计算程序[M].武汉:华中科技大学出版社,2001.
[371]王岩,王红瑞.北京市的水资源与产业结构优化[M].北京:中国环境科学出版社,2007.
[372]王龑,赵敏,毛春梅,赵海林.南水北调工程供水两部制水价确定方法研究[J].价格理论与实践,2004,3:31-32.
[373]吴阿娜.河流健康评价:理论、方法与实践[D].上海:华东师范大学,2008.
[374]吴国磺.北方交通大学的中水系统[J].北京节能,1994.3:28-29.
[375]吴健.环境和自然资源的价值评估与价值实现[J].中国人口资源与环境,2007,17(6):13-17.
[376]吴新民,潘根兴.自然资源价值的形成与评价方法浅议[J].经济地理,2003,23(3):323-326.
[377]吴泽宁,左其亭,张晨光.水资源配置中环境资源价值评估方法及应用[J].郑州工业大学学报.2001,(12):34-37.
[378]夏军,王中根,穆宏强.可持续水资源管理评价指标体系研究(一)[J].长江职工大学学报,2000,17(2):1-7.
[379]夏贤英.试论广州市的水资源管理现状与发展方向[J].广东水利水电,1997(2):370-375.
[380]夏星辉,杨志峰,沈珍瑶.从水质水量相结合的角度再论黄河的水资源[J].环境科学学报,2005,25(5):595-600.
[381]夏星辉,杨志峰,吴宇翔.结合生态需水的黄河水资源水质水量联合评价[J],环境科学学报,2007,27(1):151-156.
[382]项学敏,周笑白,周集体.工业产品虚拟水含量计算方法研究[J].大连理工大学学报.2006,46(2):179-184.
[383]肖明娟.北京地铁十号线十标段项目的影子价格分析[D].重庆:西南交通大学,2007.
[384]谢地,邵波.论我国自然资源价格形成机制的重构[J].学习与探索,2005,6:226-229.
[385]谢敬芬,丁占宽,解国琴.层次分析法在区域水权分配中的应用[J].河北水利,2006,1:35-36.
[386]邢相勤,李世祥.中国水价研究的若干进展[J].理论月刊,2006,12:71-74.
[387]邢秀凤,胡世明.加快居民生活水价改革积极实施阶梯水价[J].价格理论与实践,2005,7:42-43.
[388]徐方军.水资源配置的方法及建立市场应注意的一些问题[J].水利水电技术,2001,32(8):6-8.
[389]徐华飞.我国水资源产权与配置中的制度创新[J].中国人口.资源与环境,2001,11(2):43-48.
[390]徐建中,马瑞先.基于AHP的企业循环经济发展水平灰色综合评价研究[J].科技管理研究,2008,28(4):46-49.
[391]徐明,张天柱.中国经济系统的物质投入分析[J].中国环境科学,2005,25(3):324-328.
[392]徐晓鹏,武春友.水资源价格理论研究综述[J].甘肃社会科学,2005(3):218-221.
[393]徐中民,龙爱华,张志强.虚拟水的理论方法及在甘肃省的应用[J].地理学报,2003,58(6):861-868.
[394]许振成.环境质量资源有偿使用是实施可持续发展的重要举措[J].环境工作通讯,2003,(3):36-38.
[395]薛建枫.贯彻新的治水思路加快珠江治理与发展[J].人民珠江,2002,(2):1-3.
[396]杨建锋.城市化和雨水利用[J].北京水利,2001,1:22-23.
[397]杨进怀,孙艳红,张洪江,石健.我国水资源管理现状及发展趋势[J].水土保持研究,2007,14(6):250-255.
[398]杨力敏.水权定义与水权转让路径探索-兼论取水权转让的理论和现实基础[J].水利发展研究,2005,(6):12-16.
[399]杨丽华,何雪峰.基于熵值法的贸易可持续发展指数-以浙江省的实证研究为例[J].宁波大学学报(人文科学版),2007,20(1):22-27.
[400]杨玮,陈军飞,王慧敏,刘银.江苏省节水型社会建设评价研究[J].水利经济,2008,26(1):5-9.
[401]杨依杭.海水淡化技术产业化的可行性分析[D].北京:北方交通大学,2001.
[402]姚蓝.动植物虚拟水分析及虚拟水贸易[D].哈尔滨:哈尔滨理工大学,2006.
[403]姚治君,王建华,江东,陈传友.区域水资源承载力的研究进展及其理论探析[J].水科学进展,2002,13(1):111-115.
[404]易雯,于群.饮用水源水质评价指数法探讨[J].中国环境监测,2003,19(5):43-47.
[405]于连生,李静红,等.自然资源功能价值论初探[J].环境科学,1995,16(6):40-42.
[406]袁建平,方正,王晖.地理信息系统在城市水资源管理中的应用[J].中国给水排水,2005,21(11):23-25.
[407]袁汝华,朱九龙,陶晓燕,毛春梅.影子价格法在水资源价值理论测算中的应用[J].自然资源学报,2002,17(6):757-761.
[408]苑韶峰.水价及水资源节约问题探讨[J].价格理论与实践,2008,2:32-33.
[409]臧景红,杨印胜,刘俊良,储成林.生活计划用水定额及其指标体系[J].中国给水排水,2007,17(1):66-67.
[410]曾艳芹.饮用水源水质模糊评价与保护建议[J].环境科学与技术,2006,29(8):105-108.
[411]曾艳芹.饮用水源水质模糊评价与保护建议[J].环境科学与技术,2006,8:105-107.
[412]曾珍香,顾培亮.可待续发展的系统分析与评价[M].北京:科学出版社,2000,58-60.
[413]张成科.基于熵的水质模糊评价模型及应用[J].系统工程理论与实践,1998,(6):80-85.
[414]张德震,陈西庆.我国城市居民生活用水价格制定的思考[J].华东师范大学学报(自然科学版),2003,2:81-85.
[415]张范.从产权角度看水资源优化配置[J].中国水利,2001,6:38-39.
[416]张建龙,谢漠文.围岩失稳的灰色预报[J].武汉水利电力大学学报,1998,31(4):43-46.
[417]张健.论水资源价值与水资源管理[J].四川水利,2001,22(2):57-60.
[418]张军锋.城市雨水综合利用研究-沈阳城市雨水利用研究[D].沈阳:沈阳农业大学,2005.
[419]张牧.用幂函数、指数函数计算居民超计划用水加价收费的思考[J].给水排水动态,2006,1:34-36.
[420]张卫民.北京城市可持续发展综合评价研究[D].北京:北京工业大学,2002.
[421]张晓洁.关于城市节约用水水平评价方法的研究[J].安徽建筑工业学院学报,2001,9(3):54-57.
[422]张晓听.浅谈北京市城市污水处理综合利用的可行性[J].城市与节水,1999,3:6-9.
[423]张晓宇,窦世卿.我国水资源管理现状及对策[J].自然灾害学报,2006,15(3):91-95.
[424]张新天,罗晓辉.灰色理论与模型在交通预测中的应用[J].公路,2001,(8):4-7.
[425]张毅.炼油企业生产计划优化及其影子价格研究[D].哈尔滨:哈尔滨工业大学,2005.
[426]张岳.中国水资源与可持续发展[M].广西:广西科学技术出版社,2000.
[427]张志乐.水资源费或间接水价的数量分析方法[J].水利科技与经济,1997,3(1):4-5.
[428]赵建世,王忠静,翁文斌.水资源系统整体模型研究[J].《中国科学:E辑》,2004,34(1):60-73.
[429]郑垂勇,章仁俊,等.水资源与国民经济协调发展研究[M].南京:河海大学出版社,1996:35-52..
[430]郑兴灿.我国城市节水减污的技术与经济问题研究[D].哈尔滨:哈尔滨工业大学,2001,34-35.
[431]钟鸣.超定额超计划加价水费问题浅析[J].人民珠江,2007,3:6-7,19.
[432]周垂田.建立现代水资源管理系统初探[J].中国水利,2004,55(7):9-11.
[433]周广安.工业动态用水定额数学模型[J].中国给水排水,2002,18(6):64-67.
[434]周克钊.城市雨水资源化综述[J].西南给排水,2003,25(2):20-24.
[435]周彤.污水回用是解决城市缺水的有效途径[J].给水排水,2001,27(11):1-7.
[436]周玉玺,胡继连.基于水资源外部性特征的配置制度安排研究[J].山东科技大学学报(社会科学版),2002,4(1):67-70.
[437]朱斌,郗小林.21世纪水资源管理的对策[J].科学对社会的影响,1995,24(1):30-35.
[438]朱贵良,段志伟.城市雨水资源综合利用研究[J].科学进步与对策,2003,20(5):53-55.
[439]朱沁,刘祖源.AHP法在多船避碰决策中的应用与研究[J].武汉理工大学学报,2004,28(4):488-491.
[440]朱思诚.城市工业用水节水水平的定量评价[J].中国给水排水,1989,5(6):28-30.
[441]朱一中,夏军,谈戈.关于水资源承载力理论与方法的研究[J].地理科学进展,2003,21(2):180-188.
[442]朱照宁,邓清禄,周厚云,等.珠江三角洲经济区可持续发展中的水环境问题[J].环境科学学报,2001,21(4):405-410.
[443]邹志红,云逸,王惠文.两阶段模糊法在海河水系水质评价中的应用[J].环境科学学报,2008,28(4):799-803.