共查询到19条相似文献,搜索用时 406 毫秒
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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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在黑河市地下水环境开发利用状况及污染情况调查的基础上,开展了该市地下水污染特征及分布规律研究.根据研究区的具体情况,选取影响地下水脆弱性的地下水埋深、地下水净补给量、含水层介质、土壤介质、地形坡度、包气带介质和水力传导系数7个参数作为评价因子,建立黑河市地下水脆弱性评价DRASTIC指标体系和评价标准,并结合MapGIS软件实现了地下水脆弱性等级分布图及地下水保护防治区划的定量化及数字化.结果表明:该区地下水脆弱性等级为Ⅲ-Ⅳ级,表明地下水容易受到污染.根据评价结果对该区进行地下水资源保护分区,并提出了防治措施. 相似文献
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石家庄城市区地下水脆弱性评价研究 总被引:2,自引:1,他引:2
本文通过系统分析石家庄城市区水文地质条件,采用DRASTIC法,选取了地下水位埋深、净补给量、含水层介质、土壤介质、地形、包气带介质和渗透系数共七项影响因子对石家庄城市区地下水脆弱性进行了评价。结果表明,石家庄市地下水最脆弱的地带位于滹沱河河道及其一、二级阶地范围内,符合实际。本研究还提出了在进行地下水脆弱性评价过程中应重视脆弱性的相对性,要根据研究区的实际情况对影响因子进行分级和量化。 相似文献
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溶地下水脆弱性评价“二元法”及其在重庆金佛山的应用 总被引:12,自引:4,他引:8
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。我国西南岩溶区极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。本文论述了一种脆弱性的评价的简单方法— —基于径流特征和覆盖层厚度的二元法,并利用该法对重庆金佛山典型岩溶区进行了地下水脆弱性评价。结果表明,药池坝洼地和生态石林区脆弱性较高。究其原因,尽管药池坝洼地底部土壤层覆盖较厚,但存在地表径流集中排向落水洞,生态石林分布区地表裂隙、溶沟发育,可直接接受雨水入渗,因而污染物极易通过降雨和地表径流过程进入含水层。这一方法输入数据量小,对岩溶含水层普遍适用,为地下水资源可持续利用和土地利用管理提供了强有力的工具。 相似文献
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针对华北平原地域广阔,地貌和水文地质条件复杂、地下水开发利用程度高,地下水位埋深、包气带和含水层岩性差异性大等特点,基于大量钻孔和地下水位监测资料,厘定了包气带岩性和地下水位埋深变化对脆弱性评价影响,进而建立适宜华北平原的DRITC评价指标体系,并应用于华北平原地下水脆弱性评价。评价中,根据华北平原水文地质条件,划分4评价分区,剖分2 km×2 km单元34 253个,采用地下水位埋深、净补给量、包气带岩性、含水层累积厚度和渗透系数5个因子作为评价指标,求得地下水脆弱性综合指数及脆弱性分布图。结果表明,华北平原山前冲洪积扇和古黄河冲洪积平原的现代黄河影响带地下水脆弱性高或较高。野外采样7 472组地下水有机污染测试分析结果佐证,脆弱性高或较高区有机污染检出项数多,其他地区较少,由此验证评价结果的客观性。 相似文献
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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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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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Yawar Hussain Sadia Fida Ullah Muhammad Babar Hussain Abdul Qayyum Aslam Gulraiz Akhter Hernan Martinez-Carvajal Martin Cárdenas-Soto 《Environmental Earth Sciences》2017,76(2):84
The area of Thal Doab is located in the Indus Basin and is underlain by a thick alluvial aquifer called the Thal Doab aquifer (TDA). The TDA is undergone intense hydrological stress owing to rapid population growth and excessive groundwater use for livestock and irrigated agricultural land uses. The potential impact of these land uses on groundwater quality was assessed using a DRASTIC model in a Geographic Information System environment. Seven DRASTIC thematic maps were developed at fixed scale and then combined into a groundwater vulnerability map. The resultant vulnerability index values were grouped into four zones as low, moderate, high and very high. The study has established that 76% of the land area that is underlain by the TDA has a high to very high vulnerability to groundwater contamination mainly because of a thin soil profile, a shallow water table and the presence of soils and sediments with high hydraulic conductivity values. In addition, only 2 and 22% of the total area lie in low and moderate vulnerability zones, respectively. The outcomes of this study can be used to improve the sustainability of the groundwater resource through proper land-use management. 相似文献
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Assessing the vulnerability of over-exploited volcanic aquifer systems using multi-parameter analysis,Toluca Basin,Mexico 总被引:1,自引:0,他引:1
The potential for contamination of groundwater in an over-exploited system led to this investigation on aspects of aquifer
vulnerability in the Toluca Basin, Mexico. This study involved the use of various hydrogeological, geochemical and isotopic
tools to better understand the susceptibility to contamination where heavy groundwater extraction along with industrial extensive
development is concentrated. Geochemical and isotopic analyses of groundwater from production wells along the mountain boundary
show little evidence of contamination at present time. Radiocarbon and tritium data collected in piezometers and wells penetrating
the Lower basalt aquifer indicate that the groundwater is of varying age and quality. These data, in addition to stable isotope
and chemical data also indicate evidence of contamination in the Lower aquifer; which could be associated with fast recharge
in the mountains or injection of waste water by illegal wells. Evidence found in this study of low downward gradients in the
valley fill sediments and the presence of low permeability aquitard deposits suggest that the aquifer system is currently
not highly threatened by surface sources of contamination. However, where urban and industrial development occurs, in the
centre of the valley and along the flanks of the Basin, the vulnerability of the aquifer system increases significantly. 相似文献
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滹滏平原地下水系统脆弱性最佳地下水水位埋深探讨 总被引:4,自引:2,他引:2
笔者以滹滏平原为研究区, 采用统计分析的方法, 分析了地下水防污性与地下水资源脆弱性随地下水位埋深之间的变化关系。结果表明, 当地下水位埋深增大时, 地下水防污性增强的地区, 地下水资源脆弱性也增高;通过二者之间变化关系, 认为受地下水位埋深制约及地下水位埋深对二者的不同影响, 存在使地下水系统脆弱性最佳的地下水位埋深区间;通过地下水位埋深对地下水防污性与地下水资源脆弱性影响及其制约关系, 确定滹滏平原淡水区和咸水区地下水系统脆弱性最佳地下水位埋深分别为27~30 m和15~19 m。 相似文献
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The present research aims to derive the intrinsic vulnerability of groundwater against contamination using the GIS platform. The study applies DRASTIC model for Ahmedabad district in Gujarat, India. The model uses parameters like depth, recharge, aquifer, soil, topography, vadose zone and hydraulic conductivity, which depict the hydrogeology of the area. The research demonstrates that northern part of district with 46.4% of area is under low vulnerability, the central and southern parts with 48.4% of the area are under moderate vulnerability, while 5.2% of area in the south-east of district is under high vulnerability. It is observed from the study that lower vulnerability in northern part may be mostly due to the greater depth of vadose zone, deeper water tables and alluvial aquifer system with minor clay lenses. The moderate and high vulnerability in central and southern parts of study area may be due to lesser depth to water tables, smaller vadose zone depths, unconfined to semi-confined alluvial aquifer system and greater amount of recharge due to irrigation practices. Further, the map removal and single-parameter sensitivity analysis indicate that groundwater vulnerability index has higher influence of vadose zone, recharge, depth and aquifer parameters for the given study area. The research also contributes to validating the existence of higher concentrations of contaminants/indicators like electrical conductivity, chloride, total dissolved solids, sulphate, nitrate, calcium, sodium and magnesium with respect to groundwater vulnerability status in the study area. The contaminants/indicators exceeding the prescribed limits for drinking water as per Indian Standard 10500 (1991) were mostly found in areas under moderate and high vulnerability. Finally, the research successfully delineates the groundwater vulnerability in the region which can aid land-use policies and norms for activities related to recharge and seepage with respect to existing status of groundwater vulnerability and its quality. 相似文献
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Assessment of aquifer vulnerability based on GIS and DRASTIC methods: a case study of the Senirkent-Uluborlu Basin (Isparta, Turkey) 总被引:2,自引:0,他引:2
Aquifer vulnerability has been assessed in the Senirkent-Uluborlu Basin within the Egirdir Lake catchment (Turkey) using the DRASTIC method, based on a geographic information system (GIS). There is widespread agriculture in the basin, and fertilizer (nitrate) and pesticide applications have caused groundwater contamination as a result of leaching. According to hydrogeological data from the study area, surface water and groundwater flow are towards Egirdir Lake. Hence, aquifer vulnerability in the basin should be determined by water quality in Egirdir Lake. DRASTIC layers were prepared using data such as rainfall, groundwater level, aquifer type, and hydraulic conductivity. These data were obtained from hydrogeological investigations and literature. A regional-scale aquifer-vulnerability map of the basin was prepared using overlay analysis with the aid of GIS. A DRASTIC vulnerability map, verified by nitrate in groundwater data, shows that the defined areas are compatible with land-use data. It is concluded that 20.8% of the basin area is highly vulnerable and urgent pollution-preventions measures should be taken for every kind of relevant activity within the whole basin. 相似文献
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Jinlong Zhou Guomin Li Feng Liu Yiping Wang Xiaojing Guo 《Environmental Earth Sciences》2010,60(5):1055-1063
According to the characteristics of groundwater in arid area, this paper proposes DRAV model for groundwater vulnerability
assessment, where D is groundwater depth, R is the net recharge of aquifer, A is the aquifer characteristics, and V is the lithology of vadose zone. As a case study, the paper assesses the vulnerability of pore phreatic water in Tarim Basin
of Xinjiang, China by using the DRAV model. The results indicate that the areas of phreatic water with vulnerability index
ranges of 2–4, 4–6, 6–8 and >8 accounting for 10.1, 80.4, 9.2 and 0.2% of the total plain area of the Tarim Basin respectively,
and the areas with the latter two vulnerability ranges (6–8 and >8) are mainly located in the irrigation districts with thin
soil layer (20–30 cm thick surface soil of vadose zone, mainly with underlying sandy gravel) and with silty and fine sand
layer. Such vadose zone generally lacks sandy loam and clayey soil and has larger recharge by infiltration of irrigation water. 相似文献
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Aquifer vulnerability and groundwater quality in mega cities: case of the Mexico Basin 总被引:1,自引:0,他引:1
Jose Alfredo Ramos Leal C. Noyola Medrano F. O. Tapia Silva 《Environmental Earth Sciences》2010,61(6):1309-1320
The aquifer system in the Metropolitan Zone of the Mexican Basin is comprised by a higher, middle, and a lower aquifer, separated
by less permeable elements. This study integrated a geographical database from which aquifer vulnerability values were obtained
using the SINTACS method. The results show the lowest vulnerability values in the lacustrine zone of the basin, where most
of the urban area is settled. The medium vulnerability indices are at the edges of the basin and are associated with tuffs,
pyroclasts and alluvial deposits. The highest vulnerability values are in the ranges bordering the basin. High water quality
values are toward the limits of the basin and in the recharge zones while lower quality water is in the Tlahuac and Iztapalapa
zones. The results of this study enable a cause–effect relationship to be established between potential sources of contamination
and groundwater quality indices only for Tlahuac and Iztapalapa, a notable finding since most of the urban area is settled
over low and very low vulnerability zones. 相似文献