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1.
崔伟中 《湖泊科学》2004,16(Z1):77-82
流域管理是以水资源的自然流域特性和多功能属性为基础的管理制度,它的目标是使有限的水资源实现优化配置和发挥最大效益.流域管理的问题直接关系到以水资源的可持续利用支持经济社会的可持续发展的大局.通过分析我国流域管理存在的问题,借鉴国外成功的流域管理经验,提出要进一步明确流域管理和行政区域管理的事权,加快流域管理相应的法律法规建设,加大流域管理的支撑保障能力建设,充分发挥流域管理机构科学规划决策、有效配置调控和有力监督控制的作用,进一步探索适合不同流域的管理模式,加大构建公共参与和民主协商机制力度,探索建立流域水资源管理可持续利用的市场机制.  相似文献   

2.
流域是自然形成的水动力系统,流域管理是以水资源为中心的科学管理管理"是用法律、规范、条例、办法等来实现的,而流域是复杂的系统,具有整体性、动态性、耗散性, 同时它是人类赖以生存的资源环境.因此流域管理就应该顺应河流流水的动态变化.长江流域的管理是一项系统工程,应坚持以综合管理为根本、以科学预测为基础、以降低熵值为目标、以环境安全为核心.即在坚持整体综合全面统筹的前提下,其治理和开发必须以科学预测为基础,尤其是洪涝灾害的治理应该有中长期的灾害预测作为启动治理工程的根据;同时管理的目标是降低系统熵值以加大系统稳定性和有序性;还有长江流域管理的核心任务是流域环境安全,以保证流域经济、社会和生态的可持续发展.  相似文献   

3.
王秀辉  曲福田 《湖泊科学》2004,16(Z1):177-181
流域资源具有公共池塘资源的属性,私人在流域资源的开发过程中可能会产生外部性问题,因而要求政府对流域开发、利用进行管理.但由于实际上政府并不是只有单一目标的统一的组织,在分权体制下,不同区域、部门的政府单元掌握着实际权力.由于权力也存在外部性,各管理区域、部门之间存在利益冲突,导致政府的管理失效.解决政府权力外部性的办法一是要转变政府职能,改变政府的激励机制,二是严格界定各政府单元的权力界限,对流域进行统_管理.  相似文献   

4.
探索流域管理的理论与实践,不仅有助于理解流域演变的客观规律、提高管理效能,而且能为流域综合管理科学的逐步形成与完善以及流域综合管理实践提供有益参考.文章在总结回顾流域管理发展历程的基础上,着重分析流域管理发展的现状与问题,认为流域资源、环境与经济发展的综合协调与管理,建立行之有效的新型流域综合管理体制和管理机制,流域问题的跨学科综合研究与先进技术的应用等四个方面将是流域综合管理未来研究的主要趋势.  相似文献   

5.
太湖地区西苕溪流域营养盐污染负荷结构分析   总被引:6,自引:0,他引:6  
污染负荷研究是实施污染物总量控制、保护水质的基础,由于非点源污染一直是水环境研究的一个难题,致使河流污染负荷估算缺乏合理的估算方法.本项研究针对太湖的富营养化问题,选取太湖上游西苕溪流域,采用GIS的流域分析方法,选取单一土地利用类型的小流域,分析流域土地类型与径流量及流域出口浓度的统计关系,获取不同土地利用类型营养盐污染的产出率,合理估算了西苕溪流域的非点源营养盐污染负荷,并根据西苕溪流域社会经济统计数据及已有的污染产出率研究成果,估算了西苕溪的点源营养盐污染负荷,在此基础上估算了西苕溪流域的营养盐污染总负荷量,分析了不同污染源在总负荷量的比例.最后通过比较估算的总负荷量与实测负荷量,计算了西苕溪流域河网体系对营养盐的降解能力.研究得出, 林地产出径流浓度总氮0.715mg/L、总磷0.039mg/L,耕地产出径流浓度总氮为2.092mg/L, 总磷0.166mg/L,西苕溪流域总氮负荷量为3143.43t/a,非点源污染负荷量为1589.52t/a;总磷负荷量为226.32t/a,非点源为108.36t/a,西苕溪流域河网体系对总氮、总磷的年降解率分别为 35.39%、21.48%.  相似文献   

6.
黑河流域陆地水储量变化对流域下游等周边区域水资源的合理利用以及经济和社会发展等有着重要的意义.本文利用2003年1月至2013年12月的GRACE RL05数据反演了黑河流域陆地水储量长时间序列的变化,并针对重力场模型和数据处理中产生的信号泄漏问题,采用Forward-Modeling方法进行了改正并恢复泄漏信号;将GRACE获得的泄漏信号恢复前后的黑河流域水储量变化结果与全球水文模型GLDAS和CPC进行比较分析,结果表明泄漏信号改正后的结果与水文模型结果的时间序列相关性均有明显提高,从其空间分布结果可以看出Forward-Modeling方法有效地恢复初始信号、增强被湮没的信号,泄漏信号误差减小;通过分析黑河流域水储量变化的长时间序列结果,发现其具有明显的阶段性变化特征,即2003—2006年呈明显下降趋势,约为-0.86cm·a-1,在2007—2010年趋于平衡状态,而2011—2013年则呈现缓慢上升趋势约为0.14cm·a-1;联合GRACE数据和GLDAS数据反演了黑河流域地下水储量变化,并与全球降雨数据GPCC进行了比较分析,两者相关性可达到0.88以上.  相似文献   

7.
黑河流域浮游植物群落特征与环境因子的关系   总被引:5,自引:3,他引:2       下载免费PDF全文
分别于2009年夏季和2010年夏、秋季对黑河流域进行了2次全面调查,共选取76个采样断面进行水样采集,鉴定出浮游植物242种,隶属于8门11纲25目45科94属.其中硅藻门为优势类群,占物种总数的38.43%,绿藻门和蓝藻门次之;黑河流域优势种为尺骨针杆藻(Synedra ulna)、无常蓝纤维藻(Dactylococcopsis irregularis)和尖针杆藻(S.acus),优势度分别为0.060、0.031和0.021,出现频度分别为43.42%、43.42%和46.05%.生物多样性指数及相关指数分析表明,黑河流域中、下游浮游植物群落结构的复杂程度和稳定性均高于上游;同时,综合生物多样性指数及相关指数以及水质理化指标表明,黑河上游水质为无污染或轻度污染,中、下游水质为轻中度污染.浮游植物丰度与环境因子的相关性分析表明,上游浮游植物丰度与水体硬度呈显著正相关;中游浮游植物丰度则与各环境因子无显著相关性;下游浮游植物丰度与水体硬度呈显著负相关,而与总氮×总磷呈显著正相关;总溶解性固体、pH值和水体硬度与全流域浮游植物丰度呈显著正相关.黑河流域浮游植物的空间分布具有与河水水文分带相对应的垂直地带性和水平地带性分异特征.  相似文献   

8.
黄河水资源贫乏,水污染严重,水资源供需矛盾日益尖锐,黄河流域水资源保护面临着诸多的困难和压力.新《水法》的颁布,给黄河水资源保护带来新的机遇和挑战,依法建立法制化、社会化的流域与区域相结合的水资源保护管理体系,完善法规,建立健全执法体系,以水功能区划管理为重心,实施入河总量控制,建立和完善重大水污染事件快速反应机制,加强水质监测机制与技术创新,加强水资源保护前期和科研工作,建设水资源保护信息管理系统,采取多部门联合治污等项措施,是做好黄河流域水资源保护工作的重要前提和任务.  相似文献   

9.
多源水联合调度重构滇池流域健康水循环模式   总被引:1,自引:0,他引:1  
河湖生态用水被挤占并严重短缺是滇池水污染严重和恶化趋势难以遏制的根本原因之一.在对滇池流域"自然人工"二元水循环结构剖析的基础上,结合滇池治理"六大工程"实施现状及存在问题,以水资源的高效配置和循环利用为核心,提出了重构滇池流域健康水循环的总体框架.在水资源模拟系统MIKE BASIN平台上,通过水力联系将环湖截污、外流域调水与节水、入湖河道整治、农业农村面源治理、生态修复、生态清淤等整合为一个有机整体,以恢复流域自然水系循环为目标,将外流域引调水与本区水库水、滇池水、地下水、城市再生水等多源水资源进行水量和水质统一配置,得到滇池流域水资源总体配置方案.结果表明:在牛栏江向滇池年均补水5.72亿m3的前提下,昆明城市尾水可以全部直接外排至下游作为工业用水,削减滇池入湖污染负荷,从而加速滇池生态环境修复的进程.  相似文献   

10.
本文以鄱阳湖流域为例,所描述的流域可持续发展框架是一个基于流域系统理论和实践的生态系统模型.包括了三个主要的部分:(1)环境政策与规划;(2)地球空间信息系统;(3)社区发展与区域网络.框架将多个学科,如:流域生态学,环境规划,可持续发展与资源管理汇集一起,形成了一套综合的流域制图、模拟和监测的流域管理方法.  相似文献   

11.
A three-phase study was initiated as a way to promote Integrated Catchment Management approaches in the Limpopo River basin. This paper presents the situational assessment, which should enable De Beers to understand how their Venetia Mine operations are located within a broader and highly dynamic socio-economic and ecohydrological landscape as it pertains to water risks. The second phase, Risk assessment, aims to develop conservation interventions in the identified areas; the third phase will develop mechanisms for implementing water stewardship schemes to mitigate the shared water risks.Analysis of the social-ecological system (hydrological, climatic, ecological, socio-economic and governance systems) of the Limpopo River basin indicates that the institutional arrangement of the Limpopo River basin is neither simple nor effective. The basin is rapidly approaching closure in the sense that almost all of the available supplies of water have already been allocated to existing water users. If the proposed ecological flow requirements were to be met for all of the tributaries, the basin would be ‘closed’. On-going and projected land use changes and water resources developments in the upper reaches of the basin, coupled with projected rainfall reductions and temperature increases, and allocation of the flows for the ecological reserve, are likely to further reduce downstream river flows. The coupled increase in temperature and decrease in rainfall is of great concern for everyone in the basin, especially the poorer communities, who rely on rain-fed agriculture for their livelihoods. Increased temperatures also lead to increased evaporation from reservoirs and therefore result in a decrease in water availability. This will lead to increased abstraction of groundwater, especially from alluvial aquifers, and consequently an increase in river transmission losses and a decrease in river flows.  相似文献   

12.
郑丙辉  曹晶  王坤  储昭升  姜霞 《湖泊科学》2022,34(3):699-710
目前,我国湖泊富营养化及蓝藻水华问题十分突出,国家高度重视湖泊的生态环境保护.自“九五”以来,国家就投入太湖、巢湖、滇池“老三湖”等重污染湖泊的治理,但成本巨大,且历经近30年才初见成效.按照湖泊污染程度,湖泊治理与保护可分为“污染治理型”“防治结合型”“生态保育型”3大类.“老三湖”的治理是典型的“先污染、后治理”的模式,水质较好湖泊主要属于生态保育型湖泊,因此,“老三湖”治理模式不适用于水质较好湖泊的保护.本文系统总结了我国水质较好湖泊优先保护理念的形成和水质较好湖泊专项实施的历程.根据水质较好湖泊的特点,及其生态系统退化与修复的一般过程,提出了水质较好湖泊保护的基本思路.从热力学角度,阐明了氮磷营养盐输入湖泊生态系统中是熵增过程,也是湖泊生态系统退化的根本原因,湖泊氮磷污染负荷源头控制是关键.湖泊流域生态安全格局是确保湖泊生态系统健康的基础,从景观生态学角度,阐明了优化湖泊流域水土资源利用、优化发展模式是减轻湖泊环境压力的重要途径.在浅水湖泊生态系统,以沉水植物占优势的“清水态”和以浮游植物占优势的“浊水态”转换过程不是沿着同一条途径,存在上临界阈值和下临界阈值,水生态修复过程表现出一种迟滞的现象.从湖泊水生态系统稳态转换理论角度,阐明了湖泊生态修复工程应在湖泊生态系统发生退化转变之前实施,才能获得较高的环境效益.通过国家财政专项对81个水质较好湖泊的支持,既能促进湖泊流域经济社会发展,又能确保湖泊水环境质量变好,湖泊水生态系统逐步改善.建议加强不同类型湖泊保护模式的总结,深入对水质较好湖泊生态系统演替理论和保护技术研究,支撑国家系统开展水质较好湖泊保护.  相似文献   

13.
耿玉琴  朱威  王同生 《湖泊科学》2003,15(Z1):255-260
太湖流域水资源供需矛盾主要体现为"水质型缺水"问题,如何对"水质型缺水"进行定量描述,在太湖流域是一个难题.本文提出了"分质水资源量"的概念,以流域水资源四级分区为单元,以分区水质监测资料结合水资源量进行分析,分别统计分区分质水资源量.分析表明:太湖流域142×108 m3的地表水资源量中,Ⅲ类以上的适合于饮用水源和一般工业用水的优质水为35.8×108 m3,占25.2%;适合于电力冷却用水、农业灌溉的Ⅳ-Ⅴ类水为46.4×108 m3,占32.6%;不可利用的劣Ⅴ类水有59.9×108 m3,占42.2%.流域内优于Ⅴ类(含Ⅴ类)的地表水资源量为82.2×108 m3,占地表水总资源量的57.8%.而浅层地下水己基本被污染.需要指出,Ⅰ-Ⅲ类优质水虽仍有35.8×108 m3,但目前流域内对Ⅰ-Ⅲ类水的需求量己达60.6×108 m3,如将此两数对比,则优质水缺额为24.8×108 m3,但实际上,优质水的需求主要集中在流域中下游,而可供优质水水源则主要集中在流域上游地区山区水库和中游太湖湖心区、东部湖区和太浦河,供需两者的空间分布有较大出入,因此优质水资源缺额将更大,由此可见太湖流域水质型缺水形势十分严峻.  相似文献   

14.
In order to achieve the integrated river basin management in the arid and rapid developing region, the Heihe River Basin (HRB) in Northwestern China, one of critical river basins were selected as a representative example, while the Murray–Darling Basin (MDB) in Australia and the Colorado River Basin (CRB) in the USA were selected for comparative analysis in this paper. Firstly, the comparable characters and hydrological contexts of these three watersheds were introduced in this paper. Then, based on comparative studies on the river basin challenges in terms of the drought, intensive irrigation, and rapid industrialization, the hydrological background of the MDB, the CRB and the HRB was presented. Subsequently, the river management strategies were compared in three aspects: water allocation, water organizations, and water act and scientific projects. Finally, we proposed recommendations for integrated river basin management for the HRB: (1) Water allocation strategies should be based on laws and markets on the whole basin; (2) Public participation should be stressed by the channels between governance organizations and local communities; (3) Scientific research should be integrated into river management to understand the interactions between the human and nature.  相似文献   

15.
Water resources provide the foundation for human development and environmental sustainability. Water shortage occurs more or less in some regions, which usually causes sluggish economic activities, degraded ecology, and even conflicts and disputes over water use sectors. Game theory can better reflect the behaviors of involved stakeholders and has been increasingly employed in water resources management. This paper presents a framework for the allocation of river basin water in a cooperative way. The proposed framework applies the TOPSIS model combined with the entropy weight to determine stakeholders’ initial water share, reallocating water and net benefit by using four solution concepts for crisp and fuzzy games. Finally, the Fallback bargaining model was employed to achieve unanimous agreement over the four solution concepts. The framework was demonstrated with an application to the Dongjiang River Basin, South China. The results showed that, overall, the whole basin gained more total benefits when the players participated in fuzzy coalitions rather than in crisp coalitions, and \(\left\{ {NHS_{Fuzzy} \,and\, SV_{Crisp} } \right\}\) could better distribute the total benefit of the whole basin to each player. This study tested the effectiveness of this framework for the water allocation decision-making in the context of water management in river basins. The results provide technical support for water right trade among the stakeholders at basin scale and have the potential to relieve water use conflicts of the entire basin.  相似文献   

16.
叶寿仁 《湖泊科学》2004,16(Z1):11-15
太湖流域北抵长江,南邻钱塘江,东濒大海,面积3.69×104km2,人口 3887万.流域内河流纵横交错, 河网如织,湖泊星罗棋布.素有'苏湖熟,天下足'和"赋出天下,江南居什九"之说,是历朝历代重要的税赋之地.2003年全流域国内生产总值15100亿元,占全国的13%;财政收入4123亿元,占全国的19%;城镇化率达66.5%,是我国经济最发达、城市化程度最高的地区之一由于太湖流域重要的经济社会地位,因此历朝历代对太湖流域治理都极为重视六朝相继建都南京,将太湖流域作为重要经济区域,做了不少有名的水利工程,如开挖江南运河、頓塘等河道,修建鉴湖、练湖等灌溉工程;隋唐五代,兴筑大量塘坝,修建吴江塘路,拓浚整治河道,发展农业灌溉;北北宋时期,治理吴凇江,浚治支河、支港;元明清时期,基本是继承宋代疏导为主的治水方针,致力于下游排水出路整治,开挖范家浜, 冲出黄浦江;民国时期,战乱频繁,社会动荡,水利设施长期失修,削弱了抵御洪涝灾害的能力.新中国成立后,各级政府高度重视水利建设,流域内各地大规模兴建水库塘坝,拓浚整治河道,修建改造圩堤涵闸,新修排灌系统,区域防洪、除涝和供水能力有了很大的提高,水利建设成就斐然,为经济社会发展创造了条件.  相似文献   

17.
Abstract

Multidisciplinary models are useful for integrating different disciplines when addressing water planning and management problems. We combine water resources management, water quality and habitat analysis tools that were developed with the decision support system AQUATOOL at the basin scale. The water management model solves the allocation problem through network flow optimization and considers the environmental flows in some river stretches. Once volumes and flows are estimated, the water quality model is applied. Furthermore, the flows are evaluated from an ecological perspective using time series of aquatic species habitat indicators. This approach was applied in the Tormes River Water System, where agricultural demands jeopardize the environmental needs of the river ecosystem. Additionally, water quality problems in the lower part of the river result from wastewater loading and agricultural pollution. Our methodological framework can be used to define water management rules that maintain water supply, aquatic ecosystem and legal standards of water quality. The integration of ecological and water management criteria in a software platform with objective criteria and heuristic optimization procedures allows realistic assessment and application of environmental flows to be made. Here, we improve the general methodological framework by assessing the hydrological alteration of selected environmental flow regime scenarios.
Editor D. Koutsoyiannis; Guest editor M. Acreman

Citation Paredes-Arquiola, J., Solera, A., Martinez-Capel, F., Momblanch, A., and Andreu, J., 2014. Integrating water management, habitat modelling and water quality at the basin scale and environmental flow assessment: case study of the Tormes River, Spain. Hydrological Sciences Journal, 59 (3–4), 878–889.  相似文献   

18.
The state of Texas has implemented a modeling system for assessing the availability and reliability of water resources that consists of a generalized simulation model called the Water Rights Analysis Package (WRAP) and input datasets for the state's 23 river basins. Reservoir/river system management and water allocation practices are simulated using historical naturalized monthly streamflow sequences to represent basin hydrology. Institutional systems for allocating streamflow and reservoir storage resources among numerous water users are considered in detail in evaluating basinwide impacts of water management decisions. The generalized WRAP model is a flexible tool that may be applied to river basins anywhere. The Texas experience in implementing a statewide modeling system illustrates issues that are relevant to water management in many other regions of the world.  相似文献   

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