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1.
提高居民节水意识有助于推动居民节水行为,但由于意识难以客观测量,意识对行为的影响机理难以刻画,定量评估其影响路径的研究仍有待加强。基于计划行为理论,构建节水意识对节水行为的影响机制并设定相应的观测指标,设计问卷调查了黑河流域中游地区张掖市526户农村居民家庭,运用结构方程模型定量分析其影响路径。结果显示,节水态度、节水预期、行为控制、主观规范对节水行为的标准化路径系数分别为0.003、0.122、0.140、0.161,其中属于行为控制的自身经验与节水障碍预期、属于主观规范的管理部门信任度与邻里感知均对节水行为有显著的正向影响。虽然节水态度维度中,对水资源价值、保护环境和节约用水的因子载荷分别达到0.74、0.67、0.70,表明农村居民对水资源的生态、社会价值认同度很高,但向节水行为的转化过程中仍受经济效益预期的支配。提出了通过奖惩正式制度与邻里乡约非正式制度结合,以及高效节水产业政策引导,促进居民节水意识向节水行为的高效转化。 相似文献
2.
Chen Mengxiong 《Environmental Geology》1987,10(3):141-147
Since the establishment of new China, great attention has been paid by the government to the investigation of groundwater
resources. On the basis of regional hydrogeological mapping covering most parts of the territory, an overall evaluation of
groundwater resources in China is about 872 billion m3/a, in which the amounts of pore water, fissure water, and karst water are calculated separately, and the consumption of groundwater
is also accounted for. Much prospecting work has been carried out for the development of well irrigation as well as the urban
water supply of industrial cities. This extensive work has provided a scientific basis for the rational development and utilization
of groundwater resources.
According to statistics, 11.3 million ha of arable land are irrigated with water from wells, and the annual exploitation of
underground water has reached 40 billion m3. In 27 cities of North China, the output of groundwater reached 6.86 million m3/d, which amounted to 87% of the total water consumed. The distribution and different hydrogeological characteristics of groundwater
resources in various regions are discussed in this article, including some environmental hydrogeological problems related
to the exploitation and utilization of groundwater. In short, it is evident that groundwater resources play a significant
role in both urban and rural water supply, and promote the development of agriculture and industries in China. 相似文献
3.
To estimate the water saving potential of an irrigation area and create a scientific water saving plan, the irrigation water use efficiency and water productivity of the Hulanhe irrigation area for 2007–2014 were calculated, and the water saving potentials of different water saving plans were determined from the perspectives of engineering and crop water saving. The results showed that the evapotranspiration calculated from the surface energy balance algorithm for land model (SEBAL) agreed well with the measured results. The irrigation water use efficiency in the Hulanhe irrigation area was positively correlated with precipitation of irrigated land and was negatively correlated with the net irrigation water volume. The engineering water saving potential ranges for periods of 5, 8, 11, and 15 years were (1.702?×?108, 5.103?×?108) m3, (1.783?×?108, 5.184?×?108) m3, (1.865?×?108, 5.266?×?108) m3, and (2.301?×?108, 5.702?×?108) m3, respectively, and the water saving potential increased year over year. Low amounts of precipitation of irrigated land corresponded with small amounts of net irrigation water and greater water saving potential. Based on the cumulative frequency of the water productivity calculated for the Hulanhe irrigation area from 2007 to 2014, the target water productivity for short (50% of the multi-year average cumulative water productivity) and long (70% of the multi-year average cumulative water productivity) terms were 1.03 kg/m3 and 1.22 kg/m3, respectively, and the cumulative crop water saving potentials for short and long terms were 1.18?×?108 and 2.74?×?108 m3, respectively. These results provided a theoretical reference for creating water saving plans for irrigation areas. 相似文献
4.
水资源是保障区域发展的重要因素,是维持生态环境的关键要素。保定平原区作为京津冀地区的重要区域,其水资源承载能力对于区域生态和社会经济发展具有重要意义。本文以生态优先为基本理念,基于不同供水来源与不同用水类型的供给与利用关系,采用定额计算和线性加权目标规划相结合的方法,对保定平原区水资源承载力进行分源评价,并与地方规划相对比,进行了水资源承载力分级。结果表明:在保证生态需水和农业灌溉用水的基础上,保定平原区在持续枯水年条件下城镇生活和工业生产2025年可提供水量为4.63×10~8m~3、水量缺口0.52×10~8m~3,2030年可提供水量为6.96×10~8m~3、水量缺口0.56×10~8m~3;持续平水年条件下,城镇生活和工业生产2025年可提供水量为5.81×10~8m~3、水量盈余0.66×10~8m~3;2030年可提供水量为8.14×10~8m~3、水量盈余0.62×10~8m~3。该项研究旨在为保定平原地区发展规划制定提供科学依据。 相似文献
5.
水资源紧缺及水环境污染已成为我国社会经济与城市建设可持续发展的重要制约因素。只有对有限的水资源进行合理配置,采取各种措施促进节水型社会的建设,才能为经济和社会发展提供有力的保障。从馆陶县面临的水资源紧缺形势和日趋严重的水环境问题出发,阐述了建设节水型社会的必要性,并针对馆陶县节水型社会建设现状和存在问题,从管理制度建设、深化和扩大节水试点建设、建立投融资长效机制、加强组织结构建设、水利信息化建设、加大宣传力度和提高公众参与程度等方面详细论述了馆陶县建设节水型社会的主要实践和探索,以期为本地和其他类似地方节水型社会建设提供一定的参考和借鉴。 相似文献
6.
基于水量平衡的农业节水潜力计算新方法 总被引:2,自引:0,他引:2
农业节水潜力是进行节水改造方案评估、用水效率评价及水资源优化配置的重要依据。在回顾和总结农业节水潜力评价指标和计算方法的基础上,综合考虑取水、耗水和回归水3个方面,提出了农业理论节水潜力的概念,并利用水量平衡原理对相应计算方法进行了推导。同时根据不同的节水措施,提出了农业耗水理论节水潜力、农业回归水理论节水潜力和农业取水理论节水潜力的概念及计算方法。基于新方法对柳园口灌区农业理论节水潜力进行了计算,结果表明柳园口灌区农业理论节水潜力为4636.59万m3;其中,农业耗水理论节水潜力最大,农业取水理论节水潜力次之,农业回归水理论节水潜力最小。相关结论为该灌区制定合理的节水灌溉措施和水资源高效利用策略提供了理论依据。 相似文献
7.
State of seawater intrusion and its adaptive management countermeasures in Longkou City of China 
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下载免费PDF全文 Longkou City is a coastal area,and lacks water resources.The overexploitation of groundwater causes seawater intrusion.At present,seawater intrudes an area of 68 km2.With the decrease of groundwater extraction,the seawater intrusion area has generally declined.The paper expounds the development process of seawater intrusion as well as the corresponding prevention and control measures of using groundwater replenishment and groundwater throttling in Longkou City.In view of the seawater intrusion problem in Longkou City,some adaptive management countermeasures are put forward,which include:Adjusting industrial and agricultural structure,promoting economic and social development to match water resources;improving water usage structure,optimizing the utilization of water resources;advancing the construction of a water-saving society,using water resources efficiently;implementing inter-basin water transfer,using water resources rationally;developing and utilizing unconventional water sources,making full use of water resources;strengthening water infrastructure construction,increasing the development and utilization potential of water resources;carrying out ecological restoration,protecting water resources and ecological environment;improving the management informationalization level,strengthening the capabilities of groundwater monitoring and management;increasing publicity,improving public awareness of participation. 相似文献
8.
黑河中游水土资源开发利用现状及水资源生态环境安全分析 总被引:12,自引:1,他引:12
黑河流域水资源产生于南部祁连山区,主要消耗于中游农业灌溉区。对黑河流域水文资料分析计算发现,流域出山水资源量多年变化比较稳定,最枯年和最丰年水资源量之比为 1:2,丰枯变化幅度与长江以南丰水河流相当。多年平均水资源量为32.31×108 m3/a,近10年中游水资源开发利用量稳定在34×108 m3/a以上,仅中游地区对水资源的开发利用率达120%左右。目前国际上公认的人均水资源量紧缺线为 1000~1700 m3/a,黑河流域水资源开发利用具有反复转化多次重复利用的特点,用这个指标无法全面评价黑河流域水资源的安全状况。 相似文献
9.
10.
Fanxuan Zeng Kan Wu Qiang He Xinpeng Diao Liang Li 《Geotechnical and Geological Engineering》2017,35(1):83-89
Mining in areas with a high phreatic water surface leads to groundwater exposure and the accumulation of the water in the subsidence basin. The calculation of the volume of water is of high importance. This paper analyzes the seasonal or perennial ponding caused by mining in areas with high phreatic water surfaces. With the help of digital elevation model, the estimated groundwater elevation, and the basis of a mining subsidence prediction model, a model of ponding in subsidence areas has been established. Using this model, the amount of mining subsidence ponding in northern Jining has been calculated. Furthermore, the evolution of ponding has been forecasted. Our experimental results indicate that the average depth of the ponding area is projected to be about 3 m after mine closure. The volume of the new perennial ponding is 0.2–2 million m3 per year and it is negligible to the river confluence in Jining. This model helps in the calculation of the amount of water in the subsidence area and the evaluation of the impact of mining subsidence area on the catchment, which would provide a certain basis for the reclamation and protection of water resources in the locality. 相似文献
11.
The city of Seoul is home to more than 10 million people in an area of 605 km2. Groundwater is abstracted for public water supply and industrial use, and to drain underground facilities and construction
sites. Though most tap water is supplied from the Han River, the quantity and quality of groundwater is of great concern to
Seoul's citizens, because the use of groundwater for drinking water is continuously increasing. This study identifies the
major factors affecting the urban water budget and quality of groundwater in the Seoul area and estimates the urban water
budget. These factors include leakage from the municipal water-supply system and sewer systems, precipitation infiltration,
water-level fluctuations of the Han River, the subway pumping system, and domestic pumping. The balance between groundwater
recharge and discharge is near equilibrium. However, the quality of groundwater and ability to control contaminant fluxes
are impeded by sewage infiltration, abandoned landfills, waste dumps, and abandoned wells.
Electronic Publication 相似文献
12.
Hydrogeologic characteristics of the alluvial tuff aquifer of northern Sahand Mountain slopes, Tabriz, Iran 总被引:3,自引:0,他引:3
The Tabriz area is a densely populated area of northwestern Iran (more than 1.5 million in population) with a large proportion of its drinking, domestic, industrial and agricultural water supplied from groundwater resources. The average rate of drinking and industrial water use in the city of Tabriz is about 3.45 m3 s–1. The Plio-Pleistocene unconfined alluvial tuff aquifer (about 1,275 km2), the most important aquifer in the area, has been known for many years as a reliable resource. The greatest estimated thickness of the alluvial tuff lies in the Saidabad area, with 350 m thickness. There are 994 deep and 284 shallow active pumping wells and 83 qanats operate in the alluvial tuff aquifer. The total water withdrawal from all these artificial discharge points has been measured at 72, 3.8 and 17 million m3/year, respectively. Analytical and numerical methods have been applied to the constant rate pumping test data from the Saidabad wellfield (eight pumping and three observation wells). The values of electrical conductivity in the groundwater of alluvial tuff aquifer range from 203 to 960 μS cm–1 and bicarbonate type water dominates. 相似文献
13.
地下水资源在中国社会经济发展中发挥重要作用,特别是在地表水资源相对匮乏的北方地区。掌握一个地区地下水资源状况、动态变化特征及可开采潜力,对该地区的供水安全保障至关重要。本文选择雄安新区,在近年来开展的区域水文地质调查、监测及综合研究等成果基础上,结合前人研究,对雄安新区区域水文地质条件、地下水动态变化特征等进行分析总结;以恢复地下水降落漏斗为地下水可持续开采利用方案的目标,从白洋淀流域平原区尺度,设置现状开采条件、河流补水、工农业节水及地下水禁(限)采等不同情景方案,采用地下水数值模拟技术,综合分析不同情景30年后的预测结果,提出白洋淀流域平原区地下水可持续开采利用方案;在流域地下水可持续开采利用方案基础上,分析雄安新区地下水可开采的最大资源量,进而评价雄安新区地下水可开采潜力。结果显示,雄安新区区域水文地质条件相对简单,浅层富水性中等,深层富水性较强;地下水位为多年下降状态,近年来,浅、深层地下水整体呈企稳或回升状态,局部地区仍有所下降;地下水质量总体良好,且较为稳定。根据评价结果,雄安新区地下水可开采潜力约为1.80×10~8m~3/a,其中,浅层地下水可开采潜力约为1.50×10~8m~3/a,深层地下水可开采潜力约为0.30×10~8m~3/a。 相似文献
14.
Assessment of water level threshold for groundwater restoration and over-exploitation remediation the Beijing-Tianjin-Hebei Plain 下载免费PDF全文
下载免费PDF全文 Yang Hui-feng Meng Rui-fang Bao Xi-lin Cao Wen-geng Li Ze-yan Xu Bu-yun 《地下水科学与工程》2022,10(2):113-127
The Beijing-Tianjin-Hebei Plain (BTHP) is the political, economic and cultural center of China, where groundwater is the main source of water supply to support social and economic development. Continuous overdraft of the resources has caused a persistent decline of groundwater level and formed a huge cone of depression at a regional scale. This paper addresses current groundwater situation over the BTHP area. The paper also delineates the groundwater flow field, using groundwater level data, in order to provide an effective method for the restoration of groundwater level and associated water resources management. Based on the analysis of multiple factors, such as groundwater level, soil salinization, ground subsidence, groundwater recharge and storage, urban underground space security, formation of fractures, and seawater intrusion, the threshold for groundwater level restoration is defined, and some measures for groundwater over-exploitation management are accordingly proposed. The study shows that: (i) Since the 1980s to 2020, shallow groundwater level in the western part of the BTHP area has dropped by 25 m to 60 m, while the cumulative decline of deep groundwater in the central and eastern regions is in the range of 40–80 m; (ii) The water table of the shallow groundwater within the depression zone over the Western Piedmont Plain should be controlled in the range of 15–30 m below ground level (mbgl), while the depth of groundwater level in large and medium-sized urban areas should be controlled within 20–30 mbgl. The groundwater level in the resource preservation area should be controlled within 10–15 mbgl, and the groundwater level in the area with identified soil salinization in the central and eastern plain should be controlled within 3–10 mbgl. However, for the deep groundwater in the central and eastern plainwater, the main focus of the resources management is to control the land subsidence. The water level in the severe land subsidence area should be controlled within 45–60 mbgl, and in the general subsidence area should be controlled within 30–45 mbgl; (iii) Based on the water level recovery threshold and proposed groundwater overdraft management program, if the balance of abstraction and recharge is reached in 2025, the shallow groundwater abstraction needs to be gradually reduced by about 2×108 m3. Meanwhile, the ecological water replenishment of rivers through the South-to-North Water Transfer Project should be increased to 28.58×108 m3/a, and the deep groundwater abstraction needs to be gradually reduced by 2.24×108 m3. To reach the target of shallow groundwater level in 2040, surface water replacement is recommended with a rate of 25.77×108 m3/a and the ecological water replenishment of rivers in the South-to-North Water Diversion Project should reach 33.51×108 m3/a. For deep groundwater recovery, it is recommended to replace the deep freshwater extraction with the utilization of shallow salt water by 2.82×108 m3 , in addition to the amount of 7.86×108 m3 by water diversion. The results are of great significance to the remediation of groundwater over-exploitation, the regulation of water resources development and utilization, and ecological protection in Beijing-Tianjin-Hebei plain. 相似文献
15.
16.
A significant component of domestic demand for water of urban areas located in the Gangetic plains is met by heavy pumping of groundwater. The present study is focused on the Patna municipal area, inhabited by 17 million people and spanning over 134 km2, where entire urban water demand is catered from pumping by wells of various capacities and designs. The present study examines the nature of the aquifer system within the urban area, the temporal changes in the water/piezometric level and the recharge mechanism of the deeper aquifers. The aquifer system is made up of medium-to-coarse unconsolidated sand, lying under a ~40-m-thick predominantly argillaceous unit holding 8- to 13-m-thick localised sand layers and continues up to 220 m below ground. Groundwater occurs under semi-confined condition, with transmissivity of aquifers in 5,500–9,200 m2 day?1 range. Hydraulic head of the deeper aquifer remains in 9–19 m range below ground, in contrast to 1–9 m range of that of the upper aquitard zone. The estimated annual groundwater extraction from the deeper aquifer is ~212.0 million m3, which has created a decline of 3.9 m in the piezometric level of the deeper aquifer during the past 30 years. Unregulated construction of deep tube wells with mushrooming of apartment culture may further exacerbate the problem. The sand layers within the aquitard zone are experiencing an annual extraction of 14.5 million m3 and have exhibited stable water level trend for past one and half decades. This unit is recharged from monsoon rainfall, besides contribution from water supply pipe line leakage and seepage from unlined storm water drains. 相似文献
17.
南水北调中线工程对襄阳市水资源持续利用影响与对策 总被引:1,自引:0,他引:1
南水北调中线工程是从汉江丹江口水库调水解决北方水资源紧缺问题,优化水资源配置的世纪工程。工程实施后丹江口水库水位抬高,使襄阳北部岗地形成自流灌溉;下游配套补偿工程,为襄阳可持续发展带来一定的综合效益。下泄水量的减少,对汉江沿岸农业灌溉、城市工业和生活供水、生态环境等方面也带来不利影响。分析了襄阳市水资源利用现状及存在的问题,从加强水资源的规划管理、兴配套工程、加强生态环境建设、构建节水型社会、防治水污染、加强水文测报等几个方面提出了对襄阳市水资源可持续利用的对策与建议。 相似文献
18.
Groundwater has been the main source of water supply for large cities and towns over the last few decades in the upper Blue
Nile River Basin, Ethiopia. However, provision is often unsuccessful because of poor well productivity, difficult drilling
conditions, poor well positioning, or sometimes due to poor water quality. The growing pressure of urban population and industrial
development is focusing unprecedented attention on the groundwater potential of the basin. The purpose of this work is to
spatially characterize the groundwater potential of the upper Blue Nile River Basin with respect to variable recharge and
geodiversity. The study shows that from the annual recharge obtained using the base flow separation method, the renewable
groundwater potential in the basin was estimated to be in the range of 1.2 and 2 billion m3/year. The aquifers in the area are divided into three categories: low to moderate productivity (≈3.5 l/s) which includes
crystalline basement rocks, acidic lava flows and domes, and very fine alluvial sediments; moderate to high productivity (≈5.5 l/s)
that includes Mesozoic sedimentary rocks (sandstone, limestone, gypsum, dolomite); and high to very high productivity (≈20 l/s)
which includes basic lava flows of the Trap series, Quaternary lava flows and alluvial sediments. 相似文献
19.
M. Mazari-Hiriart C. Hernández-Eugenio F. Rojo-Callejas R. Lozano-Santacruz 《Environmental Geology》2000,39(6):595-602
A surficial clay aquitard extends through the urban area where Mexico City is located. It has been assumed to function as
a protective layer to the underlying aquifer that provides 42 m3/s out of 63 m3/s of water used by 18 million inhabitants. To provide such protection, the aquitard must be impermeable to water flow and,
ideally, have a significant capacity to sorb contaminants. The latter aspect was addressed, studying the vertical variability
of sorption of perchloroethylene (PCE), a widely used organic compound considered to pose health risks in groundwater. Batch
sorption tests were used and the clay-rich strata in the depth interval from 8 to 75 m were studied. The results suggest that
sorption depends mainly on the fraction of organic carbon (foc) present in the clayey materials. The sorption data were fit to the linear and Freundlich models; many strata could be fit
well by either model, while some strata were distinctly non-linear. The linear isotherms showed a mean value of 32.8 ml/g,
and the Freundlich isotherm 96.6 ml/g, confirming that the clay-rich media have significant sorption capacity for PCE. From
the environmental perspective the clay-rich materials are serving as protection to the groundwater system.
Received: 2 November 1998 · Accepted: 15 February 1999 相似文献
20.
文章以广西柳州市岩溶地下水为研究对象,在岩溶水文地质调查和样品采集测试的基础上,采用数理统计法、水化学方法(Piper图、Gibbs图、离子比值系数,矿物饱和指数计算)、因子分析法和模糊综合评价法,分析工业型城市岩溶地下水水化学特征及形成机制,开展岩溶地下水质量评价。结果表明,研究区岩溶地下水为中-弱碱性水,Ca2+、Mg2+、HCO3?、SO42?是主要的阴阳离子,水化学类型以HCO3-Ca型和HCO3-Ca·Mg型为主,且城区的SO42?型水的比例远高于非城区。区内岩溶地下水水化学组分及演化主要受水-岩作用、工业污染、城镇生活污染和农业活动等主控因素的影响,贡献率分别为31.52%、25.15%、18.12%和10.74%。其中,城区的水化学组分受人类活动的影响程度大于非城区的。矿物饱和指数表明,区内方解石和绝大多数白云石为饱和状态,而石膏和盐岩均为溶解状态。不同功能区的水化学敏感指标有差异,工业区以重金属为主,农业区以三氮为主,生活区以K+、Na+、Cl?、SO42?为主。研究区整体水质较好,Ⅰ-Ⅲ类水的比例高达约87.39%;但不同区域的水质差异较大,其中城区的水质较差,超标因子主要为Al、Mn、Pb、Fe、Hg;非城区的水质较好,超标因子主要为三氮。研究成果可以为工业型城市岩溶地下水污染防治提供科学依据。 相似文献