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乌鲁木齐市位于西北干旱地区,地下水人均资源量严重不足,制约了城市经济和资源环境的协调发展。本次评价采用国内外应用成熟的DRASTIC方法,评价乌鲁木齐市浅层地下水脆弱性,首先对7个指标进行评分,建立符合研究区的DRASTIC评分体系,得到研究区DRASTIC模型的7个指标的评分图,然后利用ArcGis10.2软件的图层空间分析平台,结合评价结果做出了相应的脆弱性分区图。结果显示,乌鲁木齐市内乌鲁木齐河谷区及北部五一农场地段的地下水脆弱性为中—高等,主导因素为含水层介质类型为砂岩、砂砾石等透水性较好的地层,地下水埋深较小,地层渗透系数较高;位于市区南部的柴窝堡—乌拉泊村、永丰乡及北部的三坪农场至大草滩区域地下水脆弱性中等,其余地段地下水脆弱性低。 相似文献
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《地下水》2021,(4)
黄河流域循化段是青海省开发利用地下水程度较高的地区,因地下水资源在时空分布上的不均匀性,利用程度最高的地区主要集中在河谷平原区。以黄河南岸一级支流街子沟为研究区,通过水文地质测绘、水文地质钻探、抽水试验及室内分析等,查明街子沟地下水埋藏条件及富水程度,圈出具有供水前景的富水地段,对街子沟松散岩类孔隙水天然资源量及可开采资源量进行计算预测,结果可知:(1)街子沟区域水量丰富地段位于上游拉雄段,含水层厚12. 37~13. 86 m,富水性等级为丰富,其余地段水量中等,实际涌水量为1 000. 24~1 425. 6 m3矿化度0. 48~0. 52 g/d,占断面径流量的37. 2%,水量有保证,可作为河谷区村d镇,水及下质游良重好。点城上镇游的地后下备水水可源开。采研资究源结量论为为区域城镇应急及后备水源建设提供水文地质依据。 相似文献
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曲靖盆地地下水脆弱性评价 总被引:2,自引:0,他引:2
曲靖盆地地下水有孔隙水、裂隙水及岩溶水三大类型,盆地及其周缘有6个主要水文地质单元。本文采用美国EPA地下水脆弱性评价方法DRASTIC,对该盆地地下水进行脆弱性评价,得出该区地下水脆弱性主要为中等、较高两种类型。该结果对曲靖市的土地开发利用和城市规划有借鉴意义。 相似文献
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青木关岩溶槽谷地下水水源地固有脆弱性评价 总被引:2,自引:1,他引:1
岩溶地下水脆弱性评价是基于保护岩溶含水层从而有效地管理和利用地下水提出的有效方法和手段。我国西南岩溶区大多数地区缺少应有的地下水保护带,地下水比较容易受到污染。通过采用改进的斯洛文尼亚模式,考虑四个因子:覆盖层(O)、径流特征(C)、降雨条件(P)、岩溶发育程度(K),对重庆市青木关岩溶槽谷地下水水源地的固有脆弱性进行了定量评价。结果表明:流域范围内12.6%为高脆弱性地区;43%为中等脆弱性;44.4%为低脆弱性区域。消水洞及周边100m和消水河及其两边10m,以及岩溶管道发育地区为高脆弱性区。大部分岩溶区为中等脆弱性区。砂岩地区为低脆弱性地区。评价结果与实际吻合。该评价结果为各级决策部门合理规划利用和保护地下水资源提供简单明了的科学依据。该方法对于川东岩溶槽谷地区脆弱性评价有推广价值。 相似文献
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利用地下水水化学和同位素测试分析成果,结合区域地质、水文地质条件研究了平谷北山山区侧向补给情况和中桥水源地地区第四系松散孔隙水和下伏岩溶水关系。结果表明:研究区第四系松散孔隙水和基岩岩溶地下水均来源于大气降水,地下水化学类型均为HCO-3-Ca2+?Mg2+ 型;平谷北山山前基岩岩溶水侧向补给平原区第四系松散孔隙水和下伏岩溶地下水;通过D值估算得到中桥水源地第四系浅层地下水的山区岩溶水侧向补给和垂向降水入渗补给比例为57:43;中桥水源地基岩岩溶水接受山区岩溶水侧向补给和第四系孔隙水垂向越流补给比例为87:13。研究成果为平谷地区地下水资源量评价和地下水动力场数值模型的建设提供了关键参数,为区域地下水的合理开采和有序回补涵养提供了科学依据。 相似文献
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为保护地下水饮用水源地,以中深层承压水为评价目标层,基于研究区103眼浅层地下水水位资料、9眼中深层地下水水位及水质资料,结合前人调查研究成果,采用DPTQHC评价模型对宿州市城区地下水脆弱性进行评价。评价模型选取水位降深、含水层渗透系数、弱透水层厚度、潜水水质、水头差、弱透水层渗透系数共6项影响因子,参照DARSTIC评价模型中权重范围值,结合研究区实际确定因子权重,借助Arcgis平台得到中深层承压水脆弱性综合指数及脆弱性分区图。结果表明:宿州市主城区中深层地下水脆弱性中等区域分布面积最广,其后依次为脆弱性较低区域、脆弱性较高区域、脆弱性高区域、脆弱性低区域。评价结果与该地区地下水质量吻合较好,适宜中深层地下水脆弱性评价。 相似文献
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为保护地下水饮用水源地,以中深层承压水为评价目标层,基于研究区103眼浅层地下水水位资料、9眼中深层地下水水位及水质资料,结合前人调查研究成果,采用DPTQHC评价模型对宿州市城区地下水脆弱性进行评价。评价模型选取水位降深、含水层渗透系数、弱透水层厚度、潜水水质、水头差、弱透水层渗透系数共6项影响因子,参照DARSTIC评价模型中权重范围值,结合研究去区实际确定因子权重,借助Arcgis平台得到中深层承压水脆弱性综合指数及脆弱性分区图。结果表明:宿州市主城区中深层地下水脆弱性中等区域分布面积最广,其后依次为脆弱性较低区域、脆弱性较高区域、脆弱性高区域、脆弱性低区域。评价结果与该地区地下水质量吻合较好,适宜中深层地下水脆弱性评价。 相似文献
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大型新生代断陷盆地的浅层地下水的脆弱性评价——以山西太原盆地为例 总被引:3,自引:1,他引:2
为开展山西太原盆地的地下水环境保护工作,在GIS平台上利用DRASTIC模型采用地下水位埋深、含水层净补给量、含水层介质、土壤介质、地形、包气带、水力传导系数7个指标评价了盆地浅层孔隙地下水的脆弱性.结果表明:太原市与介休市是盆地内地下水脆弱性最高的地区,同时也是山西省工农业最发达的地区.为解决工农业发展带来的高污染风险性与地下水环境脆弱性这一对明显的矛盾,应加强以上地区的地下水污染防治工作,在开展工作时应坚持"以预防为主,防、治结合"的原则. 相似文献
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Groundwater vulnerability is a cornerstone in evaluating the risk of groundwater contamination and developing management options
to preserve the quality of groundwater. Based on the professional model (DRASTIC model) and geographical information system
(GIS) techniques, this paper carries out the shallow groundwater vulnerability assessment in the Zhangye Basin. The DRASTIC
model uses seven environmental parameters (depth to water, net recharge, aquifer media, soil media, topography, impact of
vadose zone, and hydraulic conductivity) to characterize the hydrogeological setting and evaluate aquifer vulnerability. According
to the results of the shallow groundwater vulnerability assessment, the Zhangye Basin can be divided into three zones: low
groundwater vulnerability risk zone (risk index <120); middle groundwater vulnerability risk zone (risk indexes 120–140) and
high risk zone (risk index >140). Under the natural conditions, the middle and high groundwater vulnerability risk zones of
the Zhangye Basin are mainly located in the groundwater recharge zones and the important cities. The high, middle and low
groundwater vulnerability risk zones of the Zhangye Basin cover around 17, 21 and 62% of study area, respectively. 相似文献
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西辽河平原(内蒙古部分)地下水固有脆弱性评价 总被引:3,自引:0,他引:3
在西辽河平原地下水资源评价的基础上,选取影响西辽河平原固有脆弱性的最主要的7个影响因子,利用GIS平台的空间分析功能,将研究区划分为14365个评价单元,运用基于DRASTIC的模糊综合评价方法对该区的地下水固有脆弱性进行了综合评价,并绘制了脆弱性分布图。评价结果表明西辽河平原(内蒙古部分)地下水脆弱性存在3个分区:大部分地区为地下水稍易污染区;南部的黄土地区为地下水稍难污染区;而西辽河和乌尔吉木伦河的中上游为地下水相对略易污染区。评价结果对该区地下水资源保护、防止地下水污染具有指导作用。 相似文献
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Assessment of shallow groundwater vulnerability in Dahei River Plain based on AHP and DRASTIC 
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下载免费PDF全文 Based on the special hydrogeological conditions of the Dahei River Plain in the Inner Mongolia area, assessment of shallow groundwater vulnerability is conducted based on DRASTIC model. Each evaluation indicator weight is determined by using analytic hierarchy process (AHP). The most important indicators are lithology in soil media and vadose zone. Assessment model of shallow groundwater vulnerability of the Dahei River plain is constructed. Distribution map of vulnerability index in this area is made with the spatial analysis function of ARCGIS. The results show that the particularly sensitive area is the piedmont of the Daqing Mountain, where the upstream place of the groundwater and the south-central place of the plain has the lowest vulnerability. The assessment results are more in accordance with the actual vulnerability conditions of this area by using analytic hierarchy process, and is helpful for groundwater protection. 相似文献
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Groundwater resources are vulnerable to contamination especially in shallow aquifers. The aquifer hydrogeological parameters and the Land Uses category combinations lead to subdivide areas according to their contamination likelihood. In arid and semi-arid regions, shallow aquifers are more exposed to groundwater contamination due to high population densities (extensive uses) and agricultural activities (nitrate contamination). Moreover, these regions are characterized by low rainfall and high evaporation. Furthermore, the spread of farmland, industrial and domestic sectors, is the principal contaminant producer which threats the groundwater quality. To protect these limited resources, the groundwater vulnerability assessment was developed in Maritime Djeffara shallow aquifer (Southeastern Tunisia). The study area is essentially occupied by agricultural areas (intensive use of chemical fertilizers) in addition to the discharge of industrial zones. The main objective of this study is to assess the aquifer vulnerability using the Susceptibility Index (SI) method as a specific vulnerability model. The results show that the study area is classified into five classes of vulnerability: very low, low, medium, high, and very high (1.54, 20, 41.54, 35.9, and 1.02%, respectively) with an uneven spatial distribution. The risk results exhibit three degrees: low, moderate, and high. The validation of the vulnerability model was performed by using salinity values and nitrate concentrations with a correlation coefficient of about 57 and 55%, respectively. This study could serve as a scientific basis for sustainable land use planning and groundwater management in the study area. 相似文献
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Vulnerability mapping of shallow groundwater aquifer using SINTACS model in the Jordan Valley area, Jordan 总被引:1,自引:0,他引:1
Jordan Valley is one of the important areas in Jordan that involves dense agricultural activities, which depend on groundwater resources. The groundwater is exploited from an unconfined shallow aquifer which is mainly composed of alluvial deposits. In the vicinity of the Kafrein and South Shunah, the shallow aquifer shows signs of contamination from a wide variety of non-point sources. In this study, a vulnerability map was created as a tool to determine areas where groundwater is most vulnerable to contamination. One of the most widely used groundwater vulnerability mapping methods is SINTACS, which is a point count system model for the assessment of groundwater pollution hazards. SINTACS model is an adaptation for Mediterranean conditions of the well-known DRASTIC model. The model takes into account several environmental factors: these include topography, hydrology, geology, hydrogeology, and pedology. Spatial knowledge of all these factors and their mutual relationships is needed in order to properly model aquifer vulnerability using this model. Geographic information system was used to express each of SINTACS parameters as a spatial thematic layer with a specific weight and score. The final SINTACS thematic layer (intrinsic vulnerability index) was produced by taking the summation of each score parameter multiplied by its specific weight. The resultant SINTACS vulnerability map of the study area indicates that the highest potential sites for contamination are along the area between Er Ramah and Kafrein area. To the north of the study area there is a small, circular area which shows fairly high potential. Elsewhere, very low to low SINTACS index values are observed, indicating areas of low vulnerability potential. 相似文献
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特殊脆弱性分析评价是实现定量研究地下水受某种特定污染物威胁的有效手段。文章以佳木斯市七水源地为研究对象,在分析区域水文地质条件的基础上,选取地下水防污性能评价模型(DRASTIC)用于研究区固有脆弱性的评价,侧重分析区内土地利用类型、稳定开采条件下的地下水水位降深等人为因素,以及典型污染物氨氮在特定介质中的通量这一特殊人类活动因素,构建了水源地特殊脆弱性评价模型。以研究区内28组浅层地下水样品中氨氮浓度和对应采样点特殊脆弱性指数之间的相关性来评估模型的可靠性,计算结果显示二者相关系数为0.67,具有较好的相关性,说明该评价系统可靠。特殊脆弱性计算结果显示研究区内以中等以下脆弱性为主,其中水源开采区和西南丘陵区特殊脆弱性较高,计算结果有助于实现水源地的科学管理。 相似文献
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A shallow unconfined low-lying coastal aquifer in southern Finland surrounded by the Baltic Sea is vulnerable to changes in groundwater recharge, sea-level rise and human activities. Assessment of the intrinsic vulnerability of groundwater under climate scenarios was performed for the aquifer area by utilising the results of a published study on the impacts of climate change on groundwater recharge and sea-level rise on groundwater–seawater interaction. Three intrinsic vulnerability mapping methods, the aquifer vulnerability index (AVI), a modified SINTACS and GALDIT, were applied and compared. According to the results, the degree of groundwater vulnerability is greatly impacted by seasonal variations in groundwater recharge during the year, and also varies depending on the climate-change variability in the long term. The groundwater is potentially highly vulnerable to contamination from sources on the ground surface during high groundwater recharge rates after snowmelt, while a high vulnerability to seawater intrusion could exist when there is a low groundwater recharge rate in dry season. The AVI results suggest that a change in the sea level will have an insignificant impact on groundwater vulnerability compared with the results from the modified SINTACS and GALDIT. The modified SINTACS method could be used as a guideline for the groundwater vulnerability assessment of glacial and deglacial deposits in inland aquifers, and in combination with GALDIT, it could provide a useful tool for assessing groundwater vulnerability to both contamination from sources on the ground surface and to seawater intrusion for shallow unconfined low-lying coastal aquifers under future climate-change conditions. 相似文献
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内蒙古阿拉善西部的水文地质研究程度很低,关于地下水的来源和流向仍然存在各种不同的认识,需要在沙漠腹地补充钻探资料加以验证。本研究在前人调查成果的基础上,选择巴丹吉林沙漠及其周边的4个控制点进行了水文地质钻探,获得关键性的含水层分布和地下水位数据,对地下水流向问题提出了新的认识。分析结果表明,阿拉善西部广泛发育厚度50 m以上的第四系孔隙含水层,与新近系和白垩系砂岩含水层一起构成主要的地下水渗透介质,使区域地下水流具有连续性。地下水总体自东向西、自南向北流动,水力梯度介于0.8‰与7.9‰之间。在区域尺度上,断裂带对浅层地下水的作用并不显著。 相似文献