共查询到18条相似文献,搜索用时 375 毫秒
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尼洋河流域水环境质量现状评价研究——基于模糊综合评价法 总被引:1,自引:0,他引:1
尼洋河流域水资源十分丰富,水能蕴藏量巨大,生态环境良好。随着西藏经济的发展,必将出现大规模开发利用水资源的趋势,探讨流域水资源和环境的现状及可持续发展具有十分重要的现实意义。本文对尼洋河流域基础资料的收集与整理,分析尼洋河流域的特点与现存的问题,根据收集的水质监测资料,分析了流域污染源概况和构成,以未进行水环境功能区划为前提,选择模糊综合评价法对尼洋河流域水环境质量进行现状评价,并对超标断面进行了原因分析,通过对2012年尼洋河流域14个监测断面监测成果的评价,得出尼洋河流域水质现状良好的结论,为以后的水功能区划分、水质目标的确定以及水环境功能区划分提供依据。 相似文献
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根据沂沭河流域的水文特征和水质状况,建立了沂沭河流域河流水环境容量数学模型和计算方法,依据该流域水环境功能区划,计算出流域内各水功能区和各河流的环境容量及最大允许排污量,从而为沂沭河流域实施水污染物总量控制和南水北调东线工程山东段水质达标提供基础数据。 相似文献
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黄山市新安江流域水环境质量评价与管理措施 总被引:1,自引:0,他引:1
新安江是我国江南跨省级行政区的一条重要河流,其水质和水量对下游浙江省的生态安全和资源支持具有重要作用。针对安徽省黄山市境内新安江流域内存在的主要水环境问题,采用尼梅罗水质指数和超标加权法对新安江流域水环境质量进行了评价和分析。结果表明,新安江流域水环境质量整体较好,达到Ⅱ、Ⅲ类标准,大部分河段均能满足地表水环境功能要求;下游河段水质略差,但符合地表水Ⅲ类标准。在此基础上,提出了新安江流域水环境管理措施。 相似文献
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本文研究了沱江流域水资源的开发利用问题。由于流域内水资源贫乏和开发利用程度较高,枯水期中下游区无法保证水资源的需要。随着工业的发展,沱江水质污染将日趋严重致使枯水期有限的水资源变成不能使用的污水。因此,本文较详细地研究了沱江水质保护规划。在水目标、水污染控制最优方案、总量控制标准、流域水质保护区划等方面进行了探讨,文中从水量和水质两方面着手,根据系统工程原理求得解决水资源问题的最佳方案。 相似文献
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四川三台鲁班水库属于大型湖库,多年来除具有特色景观作为旅游景点外,主要用于发展水产养殖业。随着时间的延续,养殖规模的不断扩大,湖库的自净能力越来越差,使有机物污染不断加重,水质越来越差,出现富营养化现象,对水环境造成了不利影响。近年来,为了改变湖库水环境质量,调整转化湖库功能,恢复水环境质量,加强了对其水质的监测,其中的营养状态指标是湖库水环境质量的主要评价指标。评价结果,除秋季和冬季个别月份外,其余各月均有测点达到轻度富营养化及中度富营养化。 相似文献
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本文在对不同时段察汗乌苏河水质监测结果的分析中,确认该河流存在水质中Pb含量偏高问题。通过对该流域自然影响因素的分析,提出了Pb含量偏高主要受自然因素影响,但流域内矿产资源的开发、污染物排放加重了影响程度。为保证察汗乌苏河水质按功能达标,提出了对察汗乌苏河流域都兰段Pb含量偏高现象进行进一步调查,并加强县城饮用水源地水质监测的建议。 相似文献
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正从2014年起,大别山区水环境生态补偿机制启动,据安徽省财政厅、省环境保护厅印发的《安徽省大别山区水环境生态补偿办法》规定,按照"谁受益、谁补偿,谁破坏、谁承担"的原则,在合肥市、六安市和岳西县启动实施大别山区水环境生态补偿机制,旨在加快推进大别山流域水污染防治,保护饮用水源地环境安全。办法明确,大别山区水环境生态补偿以保护水质为目的,以水质监测结果为依据,通过设立补偿资金,对流域上下游地区经济利益关 相似文献
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以流域为单元进行水资源综合规划和管理是实现水环境改善的重要途径。本文以太湖流域第二大省界湖泊—淀山湖为例,在综合分析流域水环境质量基础上,利用GIS 分析工具划分流域治理片区并制定分区管控策略。根据流域所含骨干河流流向、骨干河流与淀山湖交汇特点、上中下游不同河段及镇域行政边界,将淀山湖流域分为吴淞江流域、千灯浦- 淀山湖流域、昆南湖荡流域、元荡湖荡流域、太浦河流域五大片区138 个子评价单元。通过水环境容量与压力两类空间叠加分析,构建形成污染重点减排区、污染综合治理区、产业绿色化提升区、生态环境保育区等四个类型区域,并提出差异化的产业准入和环境治理措施。本研究不仅为以流域为治理单元的水环境治理规划提供了较为可行的技术体系,而且为太湖流域水环境综合整治思路创新提供了可借鉴的案例。 相似文献
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Toward Integrated Environmental Management for Challenges in Water Environmental Protection of Lake Taihu Basin in China 总被引:5,自引:3,他引:2
Lake Taihu is the third largest freshwater lake in China. It serves many social, economic, and ecological purposes in the
drainage basin. Unfortunately, the water has been heavily polluted due to rapid industrialization and urbanization during
the last two decades. Notwithstanding great efforts made so far to improve the water quality, the environmental situation
is still far from being optimistic. The basin and the lake are facing a range of severe environmental challenges: rapid socio-economic
development continues to place great pressures on the environment, current pollution control projects have many problems from
the viewpoint of effectiveness and efficiency of their implementations, and the non-point sources of pollution such as agricultural
fields, for which control is more difficult than for industrial point sources, have become the main contributors to serious
eutrophication of the lake. Considering the characteristics of the environmental challenges and problems confronting the basin
and the lake, we focus on integrated environmental management (IEM) as a promising and effective approach to overcome these
predicaments. Current practices and problems of environmental management in the basin are examined, and potential future developments
are discussed. Three aspects of the IEM are emphasized: institutional cooperation, public participation, and internalization
of environmental externalities. We think these are the most critical for not only the basin but also for the whole of China
to achieve a sustainable society. 相似文献
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产品贸易及水权交易使得水资源问题"跨流域化",不再单纯是流域内部管理问题。本文从流域比较视角出发,在区分蓝、绿、灰三种水足迹的基础上,应用水足迹模型,测算了两流域典型地区的水足迹,进行流域水资源问题对比分析,并分析了经济发展模式对流域水资源可持续性的影响。结果发现,杭州市经济用水中灰色水足迹占总量的90%,而张掖市经济用水中绿色水足迹占总量的60.8%,说明钱塘江流域水资源问题在于质,而黑河流域水资源问题在于量;经济发展模式中的产业结构、水资源开发效率、工业化路径等影响流域水资源可持续利用,同时基于GDP导向的流域间的水资源逆向配置,更加剧了流域水资源矛盾。最后根据流域对比结果提出治理措施,从而形成流域间协作的良性循环。 相似文献
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An online water quality monitoring and management system developed for the Liming River basin in Daqing, China 总被引:3,自引:1,他引:2
This paper describes an online water quality monitoring and management system that was developed by combining a chemical oxygen demand sensor with an artificial neural network technology and a virtual instrument technique. The system was used to model the hydrological environment of the Liming River basin in Daqing City, China, in an effort to maintain the water quality in this basin at a level compatible with the status of Daqing City as a scenic resort. Operation of the system during the past 2 years has shown that an optimal allocation of water (including water released from an environmental reservoir to mitigate pollution events) could be achieved for the basin using the information gathered by the system; using mathematic models established for this system, the quantity of water released from the reservoir is adequate to improve the overall water environment. The results demonstrate that the system provides an effective approach to water quality control for environmental protection. 相似文献
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Benjamin M. Jones Christopher D. Arp Kenneth M. Hinkel Richard A. Beck Joel A. Schmutz Barry Winston 《Environmental management》2009,43(6):1071-1084
Lakes are dominant landforms in the National Petroleum Reserve Alaska (NPRA) as well as important social and ecological resources.
Of recent importance is the management of these freshwater ecosystems because lakes deeper than maximum ice thickness provide
an important and often sole source of liquid water for aquatic biota, villages, and industry during winter. To better understand
seasonal and annual hydrodynamics in the context of lake morphometry, we analyzed lakes in two adjacent areas where winter
water use is expected to increase in the near future because of industrial expansion. Landsat Thematic Mapper and Enhanced
Thematic Mapper Plus imagery acquired between 1985 and 2007 were analyzed and compared with climate data to understand interannual
variability. Measured changes in lake area extent varied by 0.6% and were significantly correlated to total precipitation
in the preceding 12 months (p < 0.05). Using this relation, the modeled lake area extent from 1985 to 2007 showed no long-term trends. In addition, high-resolution
aerial photography, bathymetric surveys, water-level monitoring, and lake-ice thickness measurements and growth models were
used to better understand seasonal hydrodynamics, surface area-to-volume relations, winter water availability, and more permanent
changes related to geomorphic change. Together, these results describe how lakes vary seasonally and annually in two critical
areas of the NPRA and provide simple models to help better predict variation in lake-water supply. Our findings suggest that
both overestimation and underestimation of actual available winter water volume may occur regularly, and this understanding
may help better inform management strategies as future resource use expands in the NPRA. 相似文献
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