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1.
流域水生态功能区划及其关键问题 总被引:5,自引:0,他引:5
作为流域生态系统管理和水资源保护的重要手段,如何科学合理地开展流域水生态功能区划,已成为世界各国可持续发展所面临的关键挑战之一.本文立足我国流域综合管理的特点和发展趋势,针对我国现行水功能区划的问题,结合国外流域水生态区划的经验,提出了基于流域生态学、地域分异规律、生态系统健康与生态完整性、流域生态系统管理等理论基础的,以恢复流域持续性、完整性生态系统健康为目标,反映流域水陆耦合体在不同时空尺度景观异质性的流域水生态功能区划及其原则,重点分析了流域水生态系统的空间格局、生态过程以及动态演替等3个区划的关键问题,并提出了区划的方法,以期为我国流域水生态功能区划和流域生态系统管理提供战略层次的科学依据. 相似文献
2.
状态空间法在省域主体功能区划中的应用——以湖南省为例 总被引:1,自引:0,他引:1
从资源环境承载力、开发密度和发展潜力等系统因素出发,确定了区域主体功能区划的指标体系,提出了基于状态空间理论的省域主体功能区划分的综合方法。以湖南省14个地级市(州)为基本空间单元,运用该方法进行了主体功能区类型划分。结果表明:除依法设立的各类自然保护区散布在各地级市外,属于省级重点开发或优化开发的区域主要分布在东部和中部地区,限制开发区则集中在西部地区。应用状况空间分析方法进行主体功能区划,能较好地反映区域的整体承载状况,为优化区域空间结构与布局,统筹区域可持续发展提供战略决策依据,并为我国主体功能区划提供理论方法参考。 相似文献
3.
西北地区种植业需水分析——以泾河流域为例 总被引:4,自引:0,他引:4
采用面积定额法估算泾河流域31个县的农作物需水量,从农作物需水结构着手,探讨农业用水存在的问题。结果表明,泾河流域农作物需水量总计740 543.20万m3,农作物需水占总需水量的比例较高,为41.58%。粮食作物需水定额较经济作物高;就具体作物而言,菜、瓜类、水稻、棉花等需水定额较高,向日葵、薯类、胡麻等较低。各县(区)单位面积需水量差异较大,平均值为4 583 m3.hm-2;泾阳县最高,为5 682 m3.hm-2,定边县最低,为4 022 m3.hm-2。由于事先设定大多数作物的需水定额不随县(区)的改变而改变,因此需水量与作物结构密切相关。农业用水浪费严重,使泾河流域农作物实际用水量远高于需水量的理论计算值。为此,提出合理利用泾河流域农业水土资源的4项对策:调整种植业结构;多角度实施农业节水;完善农业水土资源优化配置定量方法;退耕还林还草,发展生态林牧业。 相似文献
4.
完善我国流域生态补偿制度的思考——以东江流域为例 总被引:3,自引:0,他引:3
上下游对流域生态资源保护做出的贡献与生态利益享有的不平等导致区域间社会经济差距的扩大,需要通过生态补偿制度的建立和完善来实现区域统筹和谐发展,但我国现行生态补偿制度由于行政区界限制、相关法规建设不完善、补偿方式较单一、补偿标准测算困难等原因面临不少问题和困境。以东江流域现行生态补偿措施为视点,分析了当前生态补偿研究实践中存在的问题;进而以此为基点根据流域生态系统的连贯性与人类政治结构分割性之间的矛盾进行反思,提出打破流域行政区界限制,统筹构建流域“生态共同体”的理念;并在此理念指导下,提出采取“政府主导、市场运作”策略。即在明确界定流域范围后,首先由“政府主导”开展全流域综合规划、建立和完善省内流域统管机制、跨省流域生态共享共建统筹协商机制;其次以水质水量、出售许可交易权方式测算“生态共同体”之间核算补偿资金,并结合“市场运作”实施多样化并进补偿方式;同时建立流域生态补偿奖惩制度并将其纳入“生态共同体”干部绩效考核体系,构建流域补偿的长效机制,完善我国流域生态补偿制度。 相似文献
5.
水库流域生态补偿标准测算体系研究——以大伙房水库流域为例 总被引:4,自引:0,他引:4
生态补偿标准的测算是建立生态补偿机制的核心问题,也是难点所在。研究在对现有生态补偿标准计算方法进行总结分析的基础上,分别从供给方和需求方的角度探索建立了水库流域生态补偿标准测算体系。该体系对基于水库上游水源涵养区生态系统服务功能、生态保护建设总成本和基于下游用水城市意愿支付价格的补偿标准进行了比较分析,最终选择一个既能使水消费者承受得起,又能使生态保护者体会到有所回报的补偿金数额作为上下游协商确定补偿标准的依据。此体系较为全面地对补偿标准进行了测算,使得补偿标准更为公平、合理,进一步完善了水库流域生态补偿标准测算方法。并以大伙房水库流域为例,对其补偿标准进行测算,得出基于研究区生态系统服务功能的补偿标准为64661.3万元,基于研究区生态保护建设总成本的补偿标准为9221.4万元,基于下游用水城市意愿支付价格的补偿标准分别为8637.6万元、12956.4万元,最终认为10000万元是令补偿双方都比较容易接受的一个价格,可作为确定补偿标准的依据。 相似文献
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从区域的角度,研究土地利用/土地覆被变化导致的生态环境退化,对于丰富土地利用/土地覆被变化研究内容具有重要的理论意义,同时又对当地生态环境的保护与恢复具有现实的指导意义。文章以我国西北干旱区内陆河流域黑河为例,利用遥感和GIS技术,分析和评价近17年(1987—2004年)来该流域土地利用的动态变化及其对于整个流域环境的影响。研究结果表明,自1987—2004年黑河流域5种土地利用类型面积发生了显著的变化。具体表现在耕地面积由1987年的5178.0km2增加到2004年的5357.8km2,林地面积从1987年的6422.1km2增加到2004年的6450.4km2,城镇用地面积从1987年的115179.5km2增加到2004年的115791.4km2;另一方面,草地面积却从1987年的27710.6km2减少到2004年的27209.3km2,水域面积从1987年的1645.7km2减少到2004年的1386.4km2。同时又分别从黑河上、中、下游方面,对土地利用变化情况作了具体的分析。通过以上研究可以看出,近17年来,黑河流域土地利用发生了深刻的变化,由此造成了整个流域的生态环境退化问题,主要表现在水环境的变化、土地荒漠化、土壤盐渍化以及植被退化等方面。 相似文献
8.
铀在地表水中的主要迁移形式及其沉淀条件的模拟计算——以四川沱江流域绵远河为例 总被引:2,自引:0,他引:2
通过对沱江流域绵远河地表水系中化学成分分析,考察了铀及其他元素含量的空间分布特征.利用热力学方法计算了地表水系中U的迁移形式,及水体中不同U络合物的活度及比例.结果表明,地表水中铀主要以UO2(CO3)2-2形式迁移和存在,其次为UO2(CO3)0、UO2(CO3)4-3和UO2(OH)2.沱江流域绵远河水系自上游至下游各样品中U络合物活度百分比组成基本相同,U的溶解和迁移形式类似,物化性质(温度、压力、pH值、Eh等)没有发生明显变化.通过对影响U沉淀的物理化学条件的热力学计算,分析了铀在表生水体中的沉淀条件,较高的pH、Eh值将有利于U络合物在水系中稳定存在和迁移,而较低的pH、Eh值将会使水系中的U发生沉淀. 相似文献
9.
基于生态足迹模型的区域可持续发展定量评估——以东江流域东源县为例 总被引:1,自引:0,他引:1
可持续发展定量评价方法研究是当前可持续发展研究的前沿和热点.生态足迹分析模型是通过对区域人口对自然利用程度的测度,确定区域的发展是否处于生态承载力范围之内.运用生态足迹理论和计算方法,采用2004-2007年东源县统计年鉴、历年年初土地面积、2002世界粮农组织(FAO)和世界自然基金会(WWF)的相关数据,对重点饮用水源地--东源县14 a(1994-2007年)来人均生态足迹和人均生态承载力进行实证计算和分析.结果表明:2007年的东源县人均生态足迹需求为0.856 1 hm~2·cap~(-1),而实际人均生态空间面积(均衡承载力面积)为1.641 8 hm~2·cap~(-1),人均生态盈余为0.588 7hm~2·cap~(-1).14 a来东源县的生态承载力总体上几乎都是大于生态需求(除了1995年、1996年生态需求略大于生态供给外),处于生态盈余状态且生态盈余呈现稳中增长的趋势,区域生态系统处于一种相对可持续状态.其中,林地生态承载量最大,生态盈余最多,呈现逐年减少的态势;耕地生态承载量次之,生态足迹最大,生态赤字大,生态压力严重;水域和草地的生态压力逐年增大. 相似文献
10.
不同粒径近地表大气尘元素分配规律研究——以成都经济区为例 总被引:3,自引:0,他引:3
将不同地貌单元和城市不同功能区的近地表大气尘机械筛分,分析其粒度组成和化学组成特征及其相互关系,以探讨元素在不同粒径大气尘颗粒中的分配规律。研究结果表明:近地表大气尘颗粒粒径主要集中在300~400目(38.5~54μm),其中城市和丘陵地区质量分数最高,达56.596%~68.493%。化学组成上,人为扰动重金属元素,除Pb本底值比较高外,总体上城市高于丘陵和山区;Al2O3、Na2O、SiO2、Ti、Zr等稳定元素总体上,随粒径的减小,元素含量逐渐增大;Mn、P、S等元素,总体上随粒径的减小,元素含量逐渐减小。Pb、Zn、Cr等人为扰动元素,大粒径近地表大气尘元素含量稍大于小粒径元素含量,但小粒径元素含量总体上仍呈现随粒径的减小而逐渐增大的趋势。 相似文献
11.
Ecological network analysis (ENA) is introduced in this paper as a promising approach to study water use systems. Information indices from ENA involving total system throughput (TST), ascendency and overhead are calculated here. Two related aspects including organization inherent in system structures and synthesized water use intensity related with sustainable development of water use systems are analyzed. The indices of ascendency and overhead are applied for analyzing and characterizing water use network organization. For comparison of sustainability of water use systems from integrated aspects of environment, society and economy and based on TST, a new indicator termed as total system throughput intensity (TSTI) is constructed incorporating parameters of land, precipitation, population, GDP and environmental flow, which can be used as a measure of sustainability in terms of synthesized water use intensity. The Yellow River Basin in China during 1998–2006 is chosen as the case study and divided into subsystems according to the six river sections as from source to Lanzhou (S1-L1), Lanzhou to Toudaoguai (L1-T), Toudaoguai to Longmen (T-L2), Longmen to Sanmenxia (L2-S2), Sanmenxia to Huayuankou (S2-H) and Huayuankou to the mouth of Bo Sea (H-B). The results show that (i) the organization levels of L1-T and H-B are better than those of S1-L1 and T-L2, with those of L2-S2 and S2-H the worst; (ii) the synthesized water use intensity has been improving, of which T-L2, L2-S2 and S2-H are at the highest levels while H-B the lowest. In addition, the comparison between TSTI and other metrics and the relationship between ascendency and TSTI are discussed, from which the importance of TSTI is reflected and the optimization criterions for sustainable development of six subsystems are derived. It can be concluded that the application of ENA in water use systems can provide new angles for water resource management to address the challenges of assessing and optimizing options to obtain more sustainable water use. 相似文献
12.
基于生态环境需水的大凌河生态系统服务功能价值评估 总被引:1,自引:0,他引:1
目前对河流生态系统服务功能价值的评估,均没有考虑河流生态环境需水的问题。河流的来水量如果达不到河流生态环境需水量,河流的生态系统服务功能将不能正常发挥。对大凌河生态系统服务功能进行分类,用市场价值法、代替花费法和机会成本法经行计算,并且在计算供水功能价值、贮水功能价值和输沙功能价值时考虑了河流的生态环境需水,其它功能的实现也是在满足河流生态环境需水的基础上。结果表明:直接使用价值为92.64亿元/a,间接使用价值为215.17亿元/a,总价值为307.81亿元/a。通过分析,得出大凌河河流生态系统的核心服务功能是调蓄洪水功能、水产品功能和栖息地功能,应在充分发挥核心功能的同时兼顾其它功能。 相似文献
13.
In this paper, we describe the development of a simulation framework for allocating water from different sources to meet the
environmental flows of an urban river. The model permits the development of a rational balance in the utilization of storm
water, reclaimed water from wastewater treatment plants, and freshwater from reservoirs with consideration of the limited
capacities of different water resources. It is designed to permit the full utilization of unconventional water sources for
the restoration of river water quality by increasing river flow and improving water quality. To demonstrate practical use
of the model, a case study is presented in which the model was used to simulate the environmental water allocation for the
Liming River in Daqing City, China, based on the three water sources mentioned above. The results demonstrate that the model
provides an effective approach for helping managers allocate water to satisfy the river’s environmental water requirements. 相似文献
14.
The characteristics and sustainable management of water resources on a basin scale require that they should be managed using a holistic approach. In this study, a holistic methodology called the holistic approach in a basin scale (HABS) is proposed to determine the ecological water requirements of a whole basin. There are three principles in HABS. First, ecological water requirements in a basin scale indicate not only the coupling of hydrological and ecological systems, but also the exchange of matter and energy between each ecological type through all kinds of physical geography processes. Second, ecological water requirements can be divided into different types according to their functions, and water requirements of different types are compatible. Third, ecological water requirements are related to a multiple system including water quality, water quantity, and time and space, which interact with each other. The holistic approach in a basin scale was then used in the Yellow River Basin and it suggested that 265.0 × 108 m3 of water, 45% of the total surface water resources, should be allocated to ecological systems, such as rivers, lakes, wetlands and cities, to sustain its function and health. The ecological water requirements of inside river systems and outside river systems were respectively 261.0 × 108 and 3.65 × 108 m3. 相似文献
15.
Malaysia has abundant water resources and adequate rainfall and yet the nation has water shortages and water quality problem. Various measures have been taken by the government to address water issues but, in spite of these, quantity and quality of drinking water is still one of the main concerns of Malaysian consumers today. An exploratory study was undertaken to determine the level of awareness of respondents on water issues, assess their perception on drinking water quality, and identify measures undertaken by households to improve drinking water quality and to determine sustainable water practices. A cross-sectional research design, utilizing a survey was conducted among urban residents of Seremban town. Data showed that each household had a mean of five members, with an average household income of RM3788.00 (US$1000). The respondents were Chinese (70%), Indian (23%) and Malay (7%). The majority of respondents rated the quality of water supplied to their house as poor (70%), while 16% rated it very poor. The respondents indicated that colour, odour and taste were the main problems with their tap water. Due to the poor tap water quality perceived by respondents, most took additional measures to improve its quality. Most (85%) purchased domestic water filters, 41% boiled water and 17% bought bottled water. The reasons for purchasing water were: concern for health, perception of poor tap water quality, and increasing water contamination and pollution in the country. Almost a quarter of respondents that had water filters mentioned the convenience because they did not have to boil water. Sustainable use of water by respondents was moderate, with a mean of 2.9 on a scale of 1 (never) to 4 (all the time). Some aspects of conservation, such as the promptness of repairing leaking pipes, planning activities to conserve water, and method of car washing could be improved. Advantages and limitations of different water technologies are discussed. Sustainable water practices are also proposed. 相似文献
16.
黄河流域是中国重要的能源基地和粮食主产区,水资源短缺成为流域高质量发展的阻碍之一,而有效实现水资源公平性配置是解决此阻碍的重要手段.因此,通过构建三维水足迹模型分析黄河流域水足迹时空差异,并借助基尼系数反映流域内各省区的水足迹公平性且提出改进策略.研究结果表明:1)2005—2018年,黄河流域人均水足迹呈波动上升趋势... 相似文献
17.
雨水径流对景观水体中多环芳烃污染特征的影响 总被引:1,自引:0,他引:1
以北京市长河湾流域某排污口附近景观水体为研究对象,通过对水体中PAHs的连续检测,研究了雨水径流对景观水体中PAHs污染特征的影响,以期为景观水体中PAHs的控制和管理提供科学依据.结果表明,长河湾景观水体中∑16PAHs在降雨时的浓度变化与降雨强度及降雨量有关,长河湾水体中溶解态PAHs组分以3环和4环为主,2环组分所占的比例最少.水体底部沉积物中PAHs含量明显高于岸边,沉积物中∑16PAHs含量约为229.2μg.kg-1,岸边土壤中∑16PAHs含量约为185.6μg.kg-1,低于国内外一些水域沉积物中PAHs污染浓度. 相似文献
18.
Feng Li Dan Hu Xusheng Liu Rusong Wang Wenrui Yang Juergen Paulussen 《国际发展与全球生态学杂志》2013,20(6):524-533
SUMMARY Rapid urbanisation and serious environmental problems have led people worldwide to realise the significance of urban planning and management towards a sustainable environment. Beijing was used as a case study to develop a framework and strategies for sustainable development using ecological principles. At the regional level, Beijing-Tianjin agglomeration and Hebei Province are considered together. At the Beijing administrative level, some important measures are put forward for revision of the Beijing Urban Master Plan. At the Beijing plain level, the future spatial structure of Beijing city and the relationship between settlements, green space and transportation are considered, and three basic development patterns are proposed. At the inner district level, the ecological corridor system is suggested, based on ecosystem services. At the selected area level, a comprehensive strategy and key measures for conservation and renewal of old Beijing city core are provided. Once strategies for Beijing urban development are implemented step-by-step, a vision for future development can be achieved. This paper provides considerations for improvement of urban planning and management in China and other countries. 相似文献
19.
基于SPOT-VGT的黄河流域植被覆盖时空演变 总被引:1,自引:0,他引:1
植被是土地覆盖中的最主要部分,是连接土壤、大气和生物等要素的自然"纽带"。植被覆盖动态变化对全球能量循环和物质循环具有重要影响,是全球变化研究的重要内容之一。黄河流域作为我国重要的粮食生产基地,其环境变化直接影响到流域经济的可持续发展。为了快速准确地提取地表植被状况,了解黄河流域生态环境,利用1998—2011年的SPOT-VGT遥感数据,结合地理信息技术,采用均值法和趋势分析法对黄河流域植被NDVI时空分布特征和变化趋势进行了动态监测。结果表明,(1)黄河流域14年NDVI均值的空间分布整体特征是东南部平原、盆地和西部山地植被状况要好于北部地区。其次,黄河流域属于干旱半干旱地区,植被发育主要依赖于水文条件,所以沿黄河干流和支流区域也具有较高的植被NDVI值。(2)黄河流域植被NDVI年均值近14年间整体呈缓慢增长趋势,1998—2000年呈现急剧减少态势,2001—2003年出现了较为快速的增长,2004—2011年又出现了较长时间的连续增长过程。(3)黄河流域植被NDVI基本不变的区域约占研究区总面积的71.13%;植被NDVI轻微改善的区域约占流域总面积的27.30%,且主要分布于流域东南部的盆地、平原和西部的山地、丘陵地区,植被NDVI退化的区域面积约占流域总面积的0.98%。黄河流域自1998年以来,植被NDVI整体在不断提高,生态环境在不断改善。 相似文献
20.
植被是土地覆盖中的最主要部分,是连接土壤、大气和生物等要素的自然“纽带”。植被覆盖动态变化对全球能量循环和物质循环具有重要影响,是全球变化研究的重要内容之一。黄河流域作为我国重要的粮食生产基地,其环境变化直接影响到流域经济的可持续发展。为了快速准确地提取地表植被状况,了解黄河流域生态环境,利用1998—2011年的SPOT-VGT遥感数据,结合地理信息技术,采用均值法和趋势分析法对黄河流域植被NDVI时空分布特征和变化趋势进行了动态监测。结果表明,(1)黄河流域14年NDVI均值的空间分布整体特征是东南部平原、盆地和西部山地植被状况要好于北部地区。其次,黄河流域属于干旱半干旱地区,植被发育主要依赖于水文条件,所以沿黄河干流和支流区域也具有较高的植被NDVI值。(2)黄河流域植被NDVl年均值近14年间整体呈缓慢增长趋势,1998--2000年呈现急剧减少态势,2001--2003年出现了较为快速的增长,2004--2011年又出现了较长时间的连续增长过程。(3)黄河流域植被NDVI基本不变的区域约占研究区总面积的71.13%;植被NDVI轻微改善的区域约占流域总面积的27.30%,且主要分布于流域东南部的盆地、平原和西部的山地、丘陵地区,植被NDVI退化的区域面积约占流域总面积的0.98%。黄河流域自1998年以来,植被NDVI整体在不断提高,生态环境在不断改善。 相似文献