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1.
地下水资源承载本底与自然属性密切相关,地下水资源分区是评价地下水资源承载本底的重要基础工作。文章以新一轮地下水资源评价成果和主要平原盆地、部分省(区市)地下水资源最新调查评价成果为基础,综合地形地貌、构造单元、气候分带、地表水流域、含水层介质等多项指标,把地表水和地下水看作一个整体,将全国划分为26个一级区、143个二级区、412个三级区。通过将地下水资源分区与县级行政区划耦合确定了4 942个计算单元,利用地下水可开采模数指标,实现了地下水资源承载本底评价由以自然单元的评价到县级行政单元的成果表达,从而建立了地下水资源承载本底评价空间数据基础,可服务于地下水资源承载能力动态评价和地下水合理开发利用与管理。地下水资源承载本底结果显示:我国地下水资源承载本底总体表现出平原盆地区为中-高水平,北方干旱区为低水平,区域差异性较大。承载本底等级为高、较高、中、较低、低的县(区、市)分别为774,332,798,387,573个,面积占比分别为11.15%、5.87%、19.56%、12.09%、52.34%,基本反映出我国地下水资源禀赋条件和区域分布规律。 相似文献
2.
A model for the assessment of aquifer contamination potential based on regional geologic framework 总被引:2,自引:0,他引:2
The texture and three-dimensional framework of geologic materials should be considered in assessments of groundwater's vulnerability to contamination because geology controls the movement of contaminants and groundwater and influences groundwater quality. Contaminants are introduced into, transmitted through, and stored by geologic materials. We present a model that identifies aquifers and ranks sequences of geologic materials by their relative potential for transmitting water and contaminants from land surface. With this basis, the model can be used to assess the potential for contamination of aquifers by surface activities such as landfitling of wastes or application of agricultural chemicals. A regional map of aquifer contamination potential can be generated from the model; it retains the geologic map information intact and available for reinterpretation or other uses.The model was developed using broad, regional map information and is intended to be a general tool for assessing the regional vulnerability of aquifers to contamination. It is not intended for local, site-specific use, but for prioritizing local areas where contamination potential and/or land-use history warrant more detailed assessment or monitoring. Because it provides a regional view of contamination potential, regional patterns or trends of map units should be evaluated, rather than using the map information literally to assess local areas. Methods of applying this model and contamination potential map to groundwater protection and management are currently being studied; research includes an attempt to statistically validate the model with water-quality data, and to identify natural groupings of the ranked contamination potential map units. 相似文献
3.
V. I. Sergeev T. G. Shimko N. A. Svitoch N. N. Danchenko 《Moscow University Geology Bulletin》2007,62(6):383-388
This paper substantiates the necessity of developing an integrated specialized engineering geological approach to the problem of siting toxic waste storage facilities. The fact that the ground stratum of a storage base can serve as a natural geochemical barrier, preventing diffusion of pollutants from the storage into a water-bearing horizon, underlies such an approach. The screening capacity of the ground stratum depends on a number of natural factors that are laid out, estimated, and analyzed in the paper. It is suggested that these results should be reflected on a map of special engineering-geological zoning, on which areas with different conditions of groundwater protection are determined. This permits one to determine storage locations most rationally and to solve a number of problems of environmental protection in the course of the operation of such a facility. 相似文献
4.
预警等级及阈值的科学确定对地下水污染风险预警系统的建立起着至关重要的作用。当前我国地下水污染风险预警相关研究尚处在探索阶段,未形成科学完备的理论与方法体系。文章基于国内外已有研究报道,较系统地梳理了地下水污染风险预警相关研究,归纳总结了预警等级及阈值确定方法的研究现状,并对进一步研究做了展望。目前阈值主要的划定方法有相关标准法、临界值法、综合评判法等。相关标准法适用于大尺度宏观区域,临界值法在基础资料较完善的研究区域具有较强的针对性和准确性,而综合评判法能够处理多个变量因素,能对定性因素做出量化评价,适用于变量、定性因素较多的研究区域,为不同条件研究区地下水污染风险预警等级划分及阈值划定方法的选择提供了理论依据。最后指出在完善我国地下水污染风险预警体系理论方法的工作中,应当进一步关注:(1)多学科研究成果的交叉渗透,借助多方法交互应用;(2)加强与地下水污染相关的水文地质调查与监测工作,不断提高地下水污染调查研究程度;(3)综合分析地质、污染源、地下水价值及动态等地下水污染影响因素,以提高预警结果科学性。 相似文献
5.
M. Fendekova F. Malik D. Krcmar M. Fendek A. Rohacikova 《Environmental Earth Sciences》2011,64(2):461-470
The history of groundwater aggressiveness evaluation procedures applied in the Slovak Republic is summarized and compared
with the newly adopted European technical standard STN EN 206-1. The methodology of data acquiring and processing for groundwater
aggressiveness evaluation was proposed. The procedure included basic principles of data mining, requested number of chemical
analyses and ways of groundwater aggressiveness assessment. Ways of results interpretation and graphical visualization were
proposed, too. The procedure was applied in the area of the Horna Nitra in Slovakia. A total number of 953 groundwater analyses
were used to assess the groundwater aggressiveness. The resulting map of zoning comprised eight groundwater aggressiveness
zones. Zones with the non-aggressive degree (X0) groundwater to moderately aggressive degree (XA2) were delineated. The aggressiveness
was caused mainly by presence of aggressive carbon dioxide (depending on the rock type in the area) and by lowered pH values
in association with increased sulfate contents in areas of brown coal mining activities and in heavy industrialized areas.
The compilation of a locality map was proposed, where for each municipality type and degree of aggressiveness is assessed.
It should serve to local authorities as background information within the decision-making process connected to the permission
of construction work. 相似文献
6.
The Portuguese National Ecological Reserve (NER) was created in 1983, with the aim of preserving, in certain areas, the biophysical structure necessary to maintain exploitation of natural resources and land use without jeopardizing their sustainability. For the first time, issues related to groundwater resources were addressed. Since then, this legal tool has been revised for a better integration of the new national and European legislation and new scientific and technical knowledge. In the latest NER, the concept of “strategic areas of protection and aquifer recharge (SAPAR)” was created, being now necessary to define which are the methodologies and criteria to be applied for its delimitation. This paper summarizes the strategic guidelines that were established from debates held in several meetings with land-use planners, water resources managers, specialists and other stakeholders concerning the development of harmonized definitions and criteria of NER. As a result of those contributions a report was elaborated where guidelines and criteria for the NER delimitation were defined at national level, in accordance with national legislation and other relevant sector plans. In this work, the articulation and integration of SAPAR-protected areas in Portuguese Water Act and the expected difficulties of its application at operative level are evaluated since the SAPAR are important for the control of urban sprawl and therefore to preserve groundwater resources and dependent ecosystems. A brief explanation about the Portuguese main hydrogeological features is given for a better understanding of the groundwater resources and dependent ecosystems. Finally, the key guidelines for a good NER delimitation are compiled. 相似文献
7.
Andreas Günther Paola Reichenbach Jean-Philippe Malet Miet Van Den Eeckhaut Javier Hervás Claire Dashwood Fausto Guzzetti 《Landslides》2013,10(5):529-546
In the framework of the European Soil Thematic Strategy and the associated proposal of a Framework Directive on the protection and sustainable use of soil, landslides were recognised as a soil threat requiring specific strategies for priority area identification, spatial hazard assessment and management. This contribution outlines the general specifications for nested, Tier-based geographical landslide zonings at small spatial scales to identify priority areas susceptible to landslides (Tier 1) and to perform quantitative susceptibility evaluations within these (Tier 2). A heuristic, synoptic-scale Tier 1 assessment exploiting a reduced set of geoenvironmental factors derived from common pan-European data sources is proposed for the European Union and adjacent countries. Evaluation of the susceptibility estimate with national-level landslide inventory data suggests that a zonation of Europe according to, e.g. morphology and climate, and performing separate susceptibility assessments per zone could give more reliable results. To improve the Tier 1 assessment, a geomorphological terrain zoning and landslide typology differentiation are then applied for France. A multivariate landslide susceptibility assessment using additional information on landslide conditioning and triggering factors, together with a historical catalogue of landslides, is proposed for Tier 2 analysis. An approach is tested for priority areas in Italy using small administrative mapping units, allowing for relating socioeconomic census data with landslide susceptibility, which is mandatory for decision making regarding the adoption of landslide prevention and mitigation measures. The paper concludes with recommendations on further work to harmonise European landslide susceptibility assessments in the context of the European Soil Thematic Strategy. 相似文献
8.
岩溶高原地下水径流系统垂向分带 总被引:6,自引:6,他引:0
大量的矿产资源采掘、地质勘探、洞穴探测、示踪试验等揭露和观测研究发现地下水径流系统的分带性是客观存在的。根据含水层的埋藏条件、地下径流的空间形态、地下水动力性质、地下水循环深度和流程的差异,岩溶高原地下水径流系统垂向上可划分为:浅循环径流带、深循环径流带2大类,进一步划分为:表层径流带、垂向渗流带、季节波动带、潜水—承压水径流带及层状承压径流带、带状承压径流带6个分带。岩溶高原地下水径流系统分带主要由地层沉积旋回、地质构造切割及组合、地形地貌起伏变化、岩溶发育分带特性所决定。 相似文献
9.
《China Geology》2021,4(3):509-526
The fresh groundwater in the Loess Plateau serves as a major source of water required for the production and livelihood of local residents and is greatly significant for regional economic and social development and ecological protection. This paper analyzes the hydrogeological conditions and groundwater characteristics in the Loess Plateau, expatiates on the types and distribution characteristics of the fresh groundwater in the plateau, and analyzes the influencing factors and mechanisms in the formation of the fresh groundwater in the plateau as a priority. Based on this, it summarizes the impacts of human activities and climatic change on the regional fresh groundwater. The groundwater in Loess Plateau features uneven temporal-spatial distribution, with the distribution space of the fresh groundwater closely relating to precipitation. The groundwater shows a distinct zoning pattern of hydrochemical types. It is fresh water in shallow parts and is salt water in deep parts overall, while the fresh water of exploration value is distributed only in a small range. The storage space and migration pathways of fresh groundwater in the loess area feature dual voids, vertical multilayers, variable structure, poor renewability, complex recharge processes, and distinct spatial differences. In general, the total dissolved solids (TDS) of the same type of groundwater tends to gradually increase from recharge areas to discharge areas. Conditions favorable for the formation of fresh groundwater in loess tablelands include the low content of soluble salts in strata, weak evaporation, and special hydrodynamic conditions. Owing to climate change and human activities, the resource quantity of regional fresh water tends to decrease overall, and the groundwater dynamic field and the recharge-discharge relationships between groundwater and surface water have changed in local areas. Human activities have a small impact on the water quality but slightly affect the water quantity of the groundwater in loess.© 2021 China Geology Editorial Office. 相似文献
10.
Antonio Hernández-Espriú J. Antonio Reyna-Gutiérrez Emilio Sánchez-León Enrique Cabral-Cano Jaime Carrera-Hernández Pedro Martínez-Santos Sergio Macías-Medrano Giacomo Falorni Davide Colombo 《Hydrogeology Journal》2014,22(6):1469-1485
Mexico City relies on groundwater for most of its domestic supply. Over the years, intensive pumping has led to significant drawdowns and, subsequently, to severe land subsidence. Tensile cracks have also developed or reactivated as a result. All such processes cause damage to urban infrastructure, increasing the risk of spills and favoring contaminant propagation into the aquifer. The effects of ground deformation are frequently ignored in groundwater vulnerability studies, but can be relevant in subsiding cities. This report presents an extension to the DRASTIC methodology, named DRASTIC-Sg, which focuses on evaluating groundwater vulnerability in urban aquifers affected by differential subsidence. A subsidence parameter is developed to represent the ground deformation gradient (Sg), and then used to depict areas where damage risk to urban infrastructure is higher due to fracture propagation. Space-geodetic SqueeSAR data and global positioning system (GPS) validation were used to evaluate subsidence rates and gradients, integrating hydrogeological and geomechanical variables into a GIS environment. Results show that classic DRASTIC approaches may underestimate groundwater vulnerability in settings such as the one at hand. Hence, it is concluded that the Sg parameter is a welcome contribution to develop reliable vulnerability assessments in subsiding basins. 相似文献
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12.
Identification of groundwater potential in hard rock aquifer systems using Remote Sensing,GIS and Magnetic Survey in Veppanthattai,Perambalur, Tamilnadu 下载免费PDF全文
Water is an essential natural resource without which life wouldn’t exist. The study aims to identify groundwater potential areas in Vepapanthattai taluk of Perambalur district, Tamil Nadu, India, using analytic hierarchy process (AHP) model. Remote sensing and magnetic parameters have been used to determine the evaluation indicators for groundwater occurrence under the ArcGIS environment. Groundwater occurrence is linked to structural porosity and permeability over the predominantly hard rock terrain, making magnetic data more relevant for locating groundwater potential zones in the research area. NE-SW and NW-SE trending magnetic breaks derived from reduction to pole map are found to be more significant for groundwater exploration. The lineaments rose diagram indicates the general trend of the fracture to be in the NE-SW direction. Assigned normalised criteria weights acquired using the AHP model was used to reclassify the thematic layers. As a result, the taluk’s low, moderate, and high potential zones cover 25.08%, 25.68% and 49.24% of the study area, respectively. The high potential zones exhibit characteristics favourable for groundwater infiltration and storage, with factors as gentle slope of <3°, high lineament densities, magnetic breaks, magnetic low zones as indicative of dykes and cracks, lithology as colluvial deposits and land surface with dense vegetation. The depth of the fracture zones was estimated using power spectrum and Euler Deconvolution method. The groundwater potential mapping results were validated using groundwater level data measured from the wells, which indicated that the groundwater potential zoning results are consistent with the data derived from the real world. 相似文献
13.
Complacency about drinking water security was the order of the day in the Province of Ontario, Canada, until the water supply of the community of Walkerton was contaminated in May 2000. Seven people died and 2300 became seriously ill when runoff from a nearby livestock farm contaminated an improperly constructed municipal well. The Walkerton tragedy, and similar incidents that have occurred in Ontario and elsewhere in North America and Europe during past decades, reflect serious implementation gaps in groundwater protection. In Ontario, many of these implementation gaps relate to shortfalls in local and provincial management capacity. Some local organizations are well served with skilled staff, leaders committed to groundwater protection, effective policies and plans, and sound databases. Unfortunately, many are not, particularly smaller communities in rural areas. Existing implementation gaps were exacerbated in the mid-1990s when the provincial government increased the responsibilities of local agencies while at the same time cutting funding and staffing levels in its own Ministry of the Environment. Recent local and provincial initiatives are beginning to close some implementation gaps. However, key challenges remain. This paper explores factors that shape local capacity for groundwater protection, and highlights ways in which capacity-related implementation gaps may be addressed. The focus is experiences in Ontario, Canada. However, lessons learned are broadly transferable. Chief among these are the importance of financial and technical support for delineation of source water protection zones; legal requirements for source water protection; senior government commitment and leadership; and enhanced local awareness of, and participation in, groundwater management. 相似文献
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15.
Combined use of statistical and DInSAR data analyses to define the state of activity of slow-moving landslides 总被引:6,自引:5,他引:1
Statistical analyses have been often used for landslide susceptibility zoning at small to medium scale when relevant base and thematic maps are available. Since the beginning of the last decade, images remotely acquired by spaceborne Synthetic Aperture Radar (SAR) and processed via Differential SAR Interferometry (DInSAR) proved extremely useful for non-invasive and non-destructive monitoring of displacements of the topographic surface. The present paper proposes an original procedure for the definition of the state of activity of slow-moving landslides via the combined use of multivariate statistical analyses and DInSAR data. The procedure is based on the following essential elements: distinction between terrain units used for computational purposes and the final zoning units; independent statistical and DInSAR analyses and activity models leading to first-level state of activity zoning maps; a consistency model between statistical and DInSAR analyses; two confidence and combination models leading, respectively, to second- or third-level state of activity zoning maps. The application in a test area including 19 municipalities in southern Italy, where slow-moving landslides are widespread and accurately mapped by using geomorphological criteria, allowed the generation of the three above-mentioned levels of zoning maps. The results were successfully crosschecked by exploiting a different DInSAR dataset and the results of previous works based on the use of slow-moving landslide-induced damage to facilities surveys. 相似文献
16.
Shortage of water required for drinking and agricultural uses is a subject with a vital importance in most arid and semi-arid regions. The area of this study is one of the semi-arid regions located in southwest of Urmieh lake, northwest of Iran, between N 37°00′, 37°15′ latitude and E 45°05′, 45°30′ longitude which is composed of Permian dolomitic limestone, limestone, and post-Jurassic granite with a very low primary porosity/permeability character. In order to delineate groundwater potential zones in this area, the study focused on identifying secondary porosity/permeability indicators such as lineaments, vegetation cover, lithology, drainage pattern, drainage density, etc. In this regard, a remote sensing and geographic information system-based methodology was selected. Landsat ETM, IRS (pan), SPOT data, digital elevation model, and digital image processing techniques such as filtering, false color composite, principal component analysis, band rationing and classification have been applied to reach the purposes. Information layers extracted for analysis and interpretation stage were then integrated with other data and modeled through the use of existing geographic information system (GIS) software and their related analytical functions. Finally, based on determined ground water favorability index for different sub zones, layers, weighting, and overlapping, a ground water potential index (GWPI) was defined which respectively was utilized to groundwater potential zoning and preparation of GWPI map of the region. Within the six different sub zones defined, two sub zones labeled with high and very good potential areas were highly recommended for further development and exploration purposes. Geophysical investigations in target areas confirm the labeled subzones. Based on the obtained results of the study, it can be concluded that remote sensing data are very useful tool to extract information of groundwater exploration. Also, application of geographic information systems to find target areas for groundwater exploration are effective to save time and cost. 相似文献
17.
Forecasting of groundwater level in hard rock region using artificial neural network 总被引:2,自引:0,他引:2
In hardrock terrain where seasonal streams are not perennial source of freshwater, increase in ground water exploitation has
already resulted here in declining ground water levels and deteriorating its’ quality. The aquifer system has shown signs
of depletion and quality contamination. Thus, to secure water for the future, water resource estimation and management has
urgently become the need of the hour. In order to manage groundwater resources, it is vital to have a tool to predict the
aquifer response for a given stress (abstraction and recharge). Artificial neural network (ANN) has surfaced as a proven and
potential methodology to forecast the groundwater levels. In this paper, Feed-Forward Network based ANN model is used as a
method to predict the groundwater levels. The models are trained with the inputs collected from field and then used as prediction
tool for various scenarios of stress on aquifer. Such predictions help in developing better strategies for sustainable development
of groundwater resources. 相似文献
18.
Assessment of groundwater resources in India is guided by National Water Policy (1987, 2002) which states that groundwater resources can be exploited only up to its recharge limit. The methodology for groundwater resources assessment in India is broadly based on Ground Water Resources Estimation Methodology, 1997 and it involves assessment of annual replenishable groundwater resources (recharge), annual groundwater draft (utilization) and the percentage of utilization with respect to recharge (stage of development). The assessment units (blocks/watersheds) are categorized based on stage of groundwater development (utilization) and the long term water level trend. The present methodology though useful in identification and prioritization of areas for groundwater management, falls short of addressing several critical issues like spatial and temporal variation of groundwater availability within the aquifer, accessibility of groundwater resources and quality of groundwater. This paper introduces a new categorisation scheme considering the above issues. The proposed scheme takes into account four criteria, viz. (i) stage of exploitation, (ii) extractability factor, (iii) temporal availability factor and (iv) quality factor. In comparison to the existing method used for categorisation, the proposed approach is more inclusive. The methodology is also equally suitable for both alluvial and hard rock terrain since it takes into consideration the variable characteristics of different types of aquifers and convergence of quantitative and qualitative assessment. The categorisation proposed here involves GIS based integration of different parameters/ themes. This allows better representation of spatial variability. The proposed methodology is demonstrated in this paper taking a case study from a hard rock terrain in central India. 相似文献
19.
A map indicating zones related to groundwater on the mountainous terrain of the island of Naxos, Greece, was produced, using statistics, remote sensing and geographic information system (GIS) techniques. Naxos mainly consists of polydeformed and polymetamorphosed crystalline formations where groundwater is restricted to secondary porosity; its movement is erratic and occurs along lithological contacts, solution openings, faults and fractures. As in the most central Aegean islands, water in Naxos is a scarce commodity. Many dry holes have been drilled. It is known that in areas of such geology, linear features may play a significant role in their hydrogeological regime. Various lineaments’ directional properties were calculated and statistically tested against collected spring data using GIS techniques in an attempt to evaluate the hydrogeological significance of remotely sensed lineaments. Based on the results achieved, a map was prepared to contribute to conventional ground surveys in the selection of drilling sites. The reliability of the map was tested with existing borehole data. The results obtained encourage the use of statistical analysis on remotely sensed lineaments for groundwater targeting studies in crystalline mountainous areas. 相似文献
20.
为探明石家庄城区地下水源热泵适宜区分布情况,基于石家庄市的地质、水文地质和环境地质条件构建了地下水源热泵适宜性评价指标体系,包括水文地质条件、水动力条件、水化学条件、环境地质条件和先决条件;利用模糊层次分析法确定了评价指标综合权重,并结合GIS空间分析功能划分了石家庄城区地下水源热泵适宜性分区。结果表明:研究区地下水水源热泵开发利用适宜区分布在靠近滹沱河地区,面积约为19.74 km2,占全区面积的5.85%;较适宜区分布于研究区大部分,面积约为251.22 km2,占全区面积的74.40%;不适宜区主要分布在研究区西北部及东部地下水超采漏斗区,面积约为66.71 km2,占全区面积的19.75%。石家庄市除地下水降落漏斗区及水文地质条件较差地区不适宜作为地下水源热泵开发的地区外,大部分地区较适合利用地下水源热泵技术。 相似文献