Groundwater recharge/discharge in semi-arid regions interpreted from isotope and chloride concentrations in north White Nile Rift, Sudan   总被引：1，自引：0，他引：1  

Osman A. E. Abdalla 《Hydrogeology Journal》2009,17(3):679-692

Deuterium, oxygen-18 and chloride were analyzed for 84 samples from deep and shallow wells, precipitation and the river White Nile to investigate groundwater recharge/discharge relations in the semi-arid central Sudan. Spatial and vertical variation in isotopic signature and chloride concentration in the groundwater show similar patterns and indicate local recharge and evaporative discharge. Progressive decrease in isotopic composition along the regional groundwater flow path demonstrates aquifer continuity down the NW–SE recharge-discharge path. Isotope-heavy recharged water progressively mixes with lighter older groundwater formed during cooler and humid conditions in the late Pleistocene. However, evaporative fractionation in the flow path’s final reach in the southeast re-enriches the isotopic composition and suggests evaporative loss of groundwater as the plausible discharge mechanism. Chloride concentration increases down the gradient from the recharge area and reaches its peak in the discharge zones indicating: lack of recharge from direct infiltration down the gradient, evaporation and prolonged rock/water interaction. Head differences and increased isotopic concentration in the vicinity of the White Nile suggest recharge from the river from subsurface flow. Reduced chloride content and relatively heavier isotopic composition in the deep groundwater beneath the wadi of Khor Abu Habil indicate recharge from the streambed into the deep aquifer.  相似文献   

Recharge and contamination sources of shallow and deep groundwater of pleistocene aquifer in El-Sadat industrial city: isotope and hydrochemical approaches     

M. A. Ahmed  S. G. Abdel Samie  H. M. El-Maghrabi 《Environmental Earth Sciences》2011,62(4):751-768

Hydrochemical and isotopic researches were conducted in El-Sadat City groundwater system to identify groundwater alteration, recharge, residence time and extent of pollution. The groundwater salinity gradually increases as the groundwater moves from northeastern to southwestern parts of the city. Groundwater generally shows mineralization decreasing with depth, indicating that the possibility of recent water penetration far below the surface is limited. Shallow groundwater has an elevated level of nitrate, which is attributed to anthropogenic sources due to intensive agricultural activity. The limit of high nitrate water may mark the maximum penetration of groundwater from the surface, which is found in depths <100 m. The northeastern and southwestern industrial areas are highly contaminated by some heavy metals, which may originate from some local industrial effluents. The sewage oxidation ponds seem to show no effect on groundwater; hence, these ponds are not a point source for these heavy metals. Dissolved ions depict five different hydrochemical facies, and stable isotopes define the recharge mechanisms, the origin of groundwater and the hydraulic confinement of deep groundwater. The deep groundwater is untritiated and has long residence times (in the order of thousands of years). Three different hydrochemical groups have been recognized and mapped in El-Sadat City, based on the chemical and isotopic information of the groundwater. These groups have different levels of contamination. The deep groundwater samples are significantly less impacted by surface activities and it appears that these important water resources have very low recharge rates and would, therefore, be severely impacted by overabstraction. The extensive exploitation of groundwater for drinking water supply would shortly be reflected by a gradual decline of the groundwater table in El-Sadat City. Amelioration of groundwater quality requires further management strategies and efforts in the forthcoming years.  相似文献   

长武黄土塬区土地利用变化对潜水补给的影响   总被引：2，自引：0，他引：2       下载免费PDF全文

程立平  刘文兆  李志  韩晓阳 《水科学进展》2016,27(5):670-678

通过长武黄土塬区不同土地利用方式下深剖面土壤水分的长期定位监测以及氢氧稳定同位素示踪技术的使用,分析了该区域土地利用变化对地下潜水补给的影响。结果表明:① 降水补给地下水过程中存在着活塞流和优先流两种机制,由活塞流补给的地下水量,以休闲地居高,低产农田次之,最后是高产农田;② 随着该区域农田生产力大幅提升以及大面积农田转换为果园,地下水活塞流补给量逐年减少,加之地下水开采量增加,导致地下水位逐年下降,年均降幅达0.3 m;③ 同位素证据表明,目前长武塬区地下水补给以优先流形式为主。为了实现黄土塬区潜水资源的有效补给与可持续利用,需要合理调控土地利用结构,保持适度生产力水平。  相似文献   

Characterization of the groundwater flow system in the hillside and coastal aquifers of the Mersin-Tarsus region (Turkey)     

Zubeyde Hatipoglu  Louis H. Motz  Celal Serdar Bayari 《Hydrogeology Journal》2009,17(7):1761-1778

In the region between Mersin and Tarsus cities, located along the Mediterranean Sea coast in southern Turkey, the demand for groundwater has increased dramatically as the available surface water supplies have already been developed. Fundamental information is required to characterize the existing groundwater system in this area in order to establish a sustainable groundwater-use policy. For this purpose, hydrochemical and environmental isotopic data were collected and integrated with available geological and hydrogeological information to develop a conceptual model of the system. Results, backed up mainly by depleted stable isotope composition and infinitesimal tritium content, suggest that most of the groundwater along the coastal zone is supplied by the neighboring mountain belt while local precipitation has also contributes to aquifer recharge. The validation of the conceptual perspective by a steady-state numerical groundwater flow model reveals that about 90% of the recharge to the aquifer system is supplied by the deep flow of karstic groundwater fed from the Taurus Mountains. Monitoring of changes in the recharge regime of the mountain sector seems to be critical in establishing future groundwater use policies.  相似文献   

Groundwater recharge and flow in the Lower Cretaceous Nubian Sandstone aquifer in the Sinai Peninsula, using isotopic techniques and hydrochemistry     

S. Abd El Samie  M. Sadek 《Hydrogeology Journal》2001,9(4):378-389

The present work was conducted in the Sinai Peninsula (1) to identify the recharge and flow characteristics and to evaluate the continuity of the Lower Cretaceous Nubian Sandstone aquifer; and (2) to provide information for the aquifer's rational appraisal. Isotopic and hydrochemical compositions combined with the geological and hydrogeological settings were used for this purpose. A considerable depletion in isotopic content (oxygen-18 and deuterium) and low d-excess values exist in the studied groundwater, reflecting the contribution of old meteoric water that recharged the aquifer in pluvial times. Modern recharge also occurs from precipitation that falls on the aquifer outcrops. The wide scatter of the data points around the two meteoric lines, the global meteoric water line (GMWL) and Mediterranean meteoric water line (MMWL), in the δ¹⁸O–δD diagram indicates considerable variation in recharge conditions (amount, altitude, temperature, air masses, distances from catchment, overland flow, etc.). The isotopic composition in the El-Bruk area is minimum (¹⁸O=–9.53‰), very close to the average value of the Western Desert Nubian Sandstone (¹⁸O=–10‰), where the local structural and lithologic conditions retard groundwater flow and the main bulk of water becomes noncyclic. The continuity of the aquifer in northern and central Sinai is evidenced by the isotopic similarity between samples taken from above and below the central Sinai Ragabet El-Naam fault, the distribution of potentiometric head, and hydrogeological cross sections. The combination of isotopic composition in terms of ¹⁸O and chemical composition in terms of TDS and salt contents is the basis for separating the studied groundwater into groups that reflect the recharge sources and isotopic and chemical modifications during flow. Electronic Publication  相似文献   

Isotopes (δD and δ18O) in precipitation, groundwater and surface water in the Ordos Plateau, China: implications with respect to groundwater recharge and circulation   总被引：2，自引：0，他引：2  

Lihe Yin  Guangcai Hou  XiaoSi Su  Dong Wang  Jiaqiu Dong  Yonghong Hao  Xiaoyong Wang 《Hydrogeology Journal》2011,19(2):429-443

The characteristics of δD and δ¹⁸O in precipitation, groundwater and surface water have been used to understand the groundwater flow system in the Ordos Plateau, north-central China. The slope of the local meteoric water line (LMWL) is smaller than that of the global meteoric water line (GMWL), which signifies secondary evaporation during rainfall. The distribution of stable isotopes of precipitation is influenced by temperature and the amount of precipitation. The lake water is enriched isotopically due to evaporation and its isotopic composition is closely related to the source of recharge and location in the groundwater flow systems. River water is enriched isotopically, indicating that it suffers evaporation. The deep groundwater (more than 150?m) is depleted in heavy isotopes relative to the shallow groundwater (less than 150?m), suggesting that deep groundwater may have been recharged during the late Pleistocene and early Holocene, when the climate was wetter and colder than at present. All groundwater samples plot around the LMWL, implying groundwater is of meteoric origin. Shallow groundwater has undergone evaporation and the average evaporation loss is 53%. There are two recharge mechanisms: preferential flow, and the mixture of evaporated soil moisture and subsequent rain.  相似文献   

Identification of aquifer-recharge zones and sources in an urban development area (Delhi, India), by correlating isotopic tracers with hydrological features   总被引：1，自引：0，他引：1  

Manish Kumar  M. Someshwar Rao  Bhishm Kumar  Algappan Ramanathan 《Hydrogeology Journal》2011,19(2):463-474

Recharge zones and sources in an urban setup (NCT of Delhi, India) were identified using environmental isotopes (²H, ³H, ¹⁸O); they were then correlated with hydrogeological conditions. The isotopic results showed that groundwater is being recharged by surface water during the dry season, while recharge associated with local precipitation becomes prominent during the monsoon. The effect of source-water evaporation and altitude on the isotopic characteristics of groundwater was clearly noted. A gradual increase in groundwater age, i.e. decrease in tritium content, while moving away from the river/canals/drains, suggests a degree of mixing of old-aged groundwater with relatively young recharging water. Further, to substantiate the findings of isotopic investigations, surface recharge conditions were differentiated into potential pervious (recharge prone) and impervious (recharge resistant) surfaces through mapping of potential recharge areas based on soil type and water-table depth, to depict a three-dimensional illustration of hydrogeologically mediated recharge zones of the area. The hydrogeological evidence thus obtained about the spatial distribution of permeable zones, slope and boundary conditions, aptly substantiates the isotopic findings. The study seeks its impact by correlation of the isotopic findings with the regional groundwater flow regime which has been altered by the urban development.  相似文献   

华北平原地下水年龄校正   总被引：3，自引：0，他引：3  

郭娇  石建省  王伟 《地球学报》2007,28(4):396-404

地下水14C年龄一般指地下水和土壤CO2隔绝至今的年代.地下水测年在地下水水文学中占有特殊的位置,地下水测年可以用来确定补给区,估算地下水流速度、流量、补给速率、水力传导系数和有效孔L隙度,而且年龄数据还可以用来完善地下水流模型.本研究选择华北平原为重点研究区,利用地下水中的同位素和化学组分的测试结果,应用水文地球化学及同位素水文学等相关知识,通过六种传统模型和反向质量平衡模型(NETPATH)对华北平原地下水年龄进行校正.根据年龄校正结果,分析了深层地下水的年龄变化特点,确定了水流路径上发生的水文地球化  相似文献   

Regional groundwater flow model for Abu Dhabi Emirate: scenario-based investigation     

S. Sathish  M. Mohamed  H. Klammler 《Environmental Earth Sciences》2018,77(11):409

Despite the continuous increase in water supply from desalination plants in the Emirate of Abu Dhabi, groundwater remains the major source of fresh water satisfying domestic and agricultural demands. Groundwater has always been considered as a strategic water source towards groundwater security in the Emirate. Understanding the groundwater flow system, including identification of recharge and discharge areas, is a crucial step towards proper management of this precious source. One main tool to achieve such goal is a groundwater model development. As such, the main aim of this paper is to develop a regional groundwater flow model for the surficial aquifer in Abu Dhabi Emirate using MODFLOW. Up to our knowledge, this is the first regional numerical groundwater flow model for Abu Dhabi Emirate. After steady state and transient model calibration, several future scenarios of recharge and pumping are simulated. Results indicate that groundwater pumping remains several times higher than aquifer recharge from rainfall, which provides between 2 and 5% of total aquifer recharge. The largest contribution of recharge is due to subsurface inflow from the eastern Oman Mountains. While rainfall induced groundwater level fluctuation is absent in the western coastal region, it reaches a maximum of 0.5 m in the eastern part of the Emirate. In contrast, over the past decades, groundwater levels have declined annually by 0.5 m on average with local extremes spanning from 93 m of decline to 60 m of increase. Results also indicate that a further decrease in groundwater levels is expected in most of Emirate. At other few locations, upwelling of groundwater is expected due to a combination of reduced pumping and increased infiltration of water from nonconventional sources. Beyond results presented here, this regional groundwater model is expected to provide an effective tool to water resources managers in Abu Dhabi. It will help to accurately estimate sustainable extraction rates, assess groundwater availability, and identify pathways and velocity of groundwater flow as crucial information for identifying the best locations for artificial recharge.  相似文献   

Delineation of groundwater provenance in a coastal aquifer using statistical and isotopic methods,Southeast Tanzania   总被引：4，自引：3，他引：1  

Said Suleiman Bakari  Per Aagaard  Rolf D. Vogt  Fridtjov Ruden  Ingar Johansen  Said Ali Vuai 《Environmental Earth Sciences》2012,66(3):889-902

Rapid population growth and urbanization has placed a high demand on freshwater resources in southeast costal Tanzania. In this paper, we identify the various sources of groundwater and the major factors affecting the groundwater quality by means of multivariate statistical analyses, using chemical tracers and stable isotope signatures. The results from hierarchical cluster analyses show that the groundwater in the study area may be classified into four groups. A factor analysis indicates that groundwater composition is mainly affected by three processes, accounting for 80.6% of the total data variance: seawater intrusion, dilution of groundwater by recharge, and sewage infiltration. The hydrochemical facies of shallow groundwater was mostly of the Na–Ca–Cl type, although other water types were also observed. The deep groundwater samples were slightly to moderately mineralized and they were of the NaHCO₃ type. This water type is induced mainly by dissolution of carbonate minerals and modified by ion exchange reactions. The signal from the stable isotope composition of the groundwater samples corresponded well with the major chemical characteristics. In the shallow groundwater, both high-nitrate and high-chloride concentrations were associated with localized stable isotope enrichments which offset the meteoric isotopic signature. This is inferred to be due to the contamination by influx of sewage, as well as intrusion by seawater. The depleted stable isotope values, which coincides with a chemical signature for the deep aquifer indicates that this deep groundwater is derived from infiltration in the recharge zone followed by slow lateral percolation. This study shows that a conceptual hydrogeochemical interpretation of the results from multivariate statistical analysis (using HCA and FA) on water chemistry, including isotopic data, provides a powerful tool for classifying the sources of groundwater and identifying the significant factors governing the groundwater quality. The derived knowledge generated by this study constitutes a conceptual framework for investigating groundwater characteristics. This is a prerequisite for developing a sound management plan, which is a requirement for ensuring a sustainable exploitation of the deep aquifer water resource in the coastal area of Tanzania.  相似文献   

基于水化学和同位素特征的新乡某地下水污染场地水文地质概念模型细化   总被引：1，自引：1，他引：0       下载免费PDF全文

李志红  王广才  康飞  严建飞  黄丹丹 《水文地质工程地质》2017,(2):57-62

构建合理的水文地质概念模型对于地下水数值模拟至关重要,概念模型如果确定不合理,整个数值模拟将毫无意义。通常水文地质调查可以大致确定水文地质概念模型,然而对于一些不易被发现的补给源,通过水文地质调查也无法确定。水化学和同位素特征对地下水的补给源及水流路径有很好的指示作用,可以根据这些信息对水文地质概念模型进行细化。文章通过对研究区地下水取样,分析地下水水化学和同位素特征,确定出研究区内不易识别的地下水补给源及顶层黏土-粉质黏土的透水性,最终细化了水文地质概念模型边界条件。这对于后期得到正确的地下水流和溶质运移模拟结果具有重要意义。  相似文献   

Hydrochemistry and isotope geochemistry as tools for groundwater hydrodynamic investigation in multilayer aquifers: a case study from Lomellina, Po plain, South-Western Lombardy, Italy     

Giorgio Pilla  Elisa Sacchi  Gianmaria Zuppi  Giovanni Braga  Gianfranco Ciancetti 《Hydrogeology Journal》2006,14(5):795-808

A multicriteria approach in studying hydrodynamics of a multilayer aquifer system has been used in the Lomellina region (Northern Italy). It involves the reconstruction of the hydrogeological framework coupled to the definition of the hydrochemical and isotopic features of the aquifers. A shallow phreatic aquifer, reaching depths of about 60–80 m from the surface, and deeper aquifers containing confined groundwater, were distinguished. Groundwater generally shows mineralisation decreasing with depth; dissolved ions depict calcium-bicarbonate hydrochemical facies and stable isotopes define the recharge mechanisms, the origin of groundwater, and the hydraulic confinement of deep aquifers. The phreatic aquifer is fed by local infiltration and by streams and irrigation channels. Tritium and Carbon-14 groundwater dating indicate long residence times (on the order of thousands of years) for confined aquifers. The confined aquifers show essentially passive hydrodynamic conditions and maintain a higher piezometric level than the phreatic aquifer. This inhibits the possibility of recent water penetrating far below the surface. The hydrogeological setting of the Lomellina region displays features which are common to other sectors of the Po plain. As a consequence, the results of this study, although conducted on a restricted area, are highly illustrative of groundwater hydrodynamics in large sedimentary aquifers.  相似文献   

Geochemical and isotopic characterization of groundwater from the Paleogene limestone aquifer of the Upper Jezireh,Syria   总被引：1，自引：0，他引：1  

A. AL-Charideh  B. Abou-Zakhem 《Environmental Earth Sciences》2010,59(5):1065-1078

This research aims to evaluate the groundwater resources of Paleogene aquifer in the Upper Jazireh area (Syria), in terms of chemical water type, recharge zones and water ages. The results show that the main recharge zones for the Paleogene aquifer range between 650 and 900 m a.s.l., which coincide with the outcrop of the karstified limestone in the Mardin uplift. The chemical and isotopic behaviors of groundwater, together with radiometric ¹⁴C reflect the existence of three different groundwater groups: (1) the fresh and cold water, percolating in short and shallow flow paths, for which the main replenishment processes are recent; (2) the brackish and thermal water containing certain amounts of H₂S gas, that percolate in longer and deeper flow paths, for which the main replenishment processes occurred during the palaeoclimatic humid conditions of Pleistocene time, placed at 10–18 Ka BP; (3) the brackish and admixed thermal groundwater with intermediate ¹⁴C age, which seems to be formed as a result of mixing between the previous two groups.  相似文献   

济南泉域边界条件、水循环特征及水环境问题   总被引：2，自引：2，他引：0  

孙斌  彭玉明 《中国岩溶》2014,33(3):272-279

济南泉域是市区泉水的汇流及蓄水范围,在其北部城区中心地带出露趵突泉、黑虎泉、五龙潭和珍珠泉四大泉群。为更好地保护和利用济南泉域内岩溶地下水,文章对济南泉域的边界条件、岩溶主径流通道、地下水循环特征及水质变化几个敏感问题进行探讨。利用泉群流量相关分析、流场特征分析、回灌补源分析及自备井调查等手段,重新界定了济南泉域的东边界,将其北部透水段向东扩展至原边界以东约4 km。通过对钻孔岩溶分层统计及缓冲区分析,在山前地带沿党家庄－十六里河－千佛山断裂泉城公园方向地下埋深100~150 m发现一条补给四大泉群的岩溶地下水集中径流带。研究发现,五龙潭和珍珠泉以深循环为主,补给主要来自岩溶地下水,而趵突泉和黑虎泉同时受深循环和浅循环影响较大,趵突泉主要补给来自西部和南部岩溶地下水和地表水,除此以外黑虎泉在东南方向上还有一定量的岩溶地下水补给。目前岩溶水水质变差,南部岩溶裸露区,尤其水库河道周边地带,生态环境亟待治理。   相似文献   

Temporal trends in concentrations of DBCP and nitrate in groundwater in the eastern San Joaquin Valley,California, USA     

K. R. Burow  N. M. Dubrovsky  J. L. Shelton 《Hydrogeology Journal》2007,15(5):991-1007

Temporal monitoring of the pesticide 1,2-dibromo-3-chloropropane (DBCP) and nitrate and indicators of mean groundwater age were used to evaluate the transport and fate of agricultural chemicals in groundwater and to predict the long-term effects in the regional aquifer system in the eastern San Joaquin Valley, California. Twenty monitoring wells were installed on a transect along an approximate groundwater flow path. Concentrations of DBCP and nitrate in the wells were compared to concentrations in regional areal monitoring networks. DBCP persists at concentrations above the US Environmental Protection Agency’s maximum contaminant level (MCL) at depths of nearly 40 m below the water table, more than 25 years after it was banned. Nitrate concentrations above the MCL reached depths of more than 20 m below the water table. Because of the intensive pumping and irrigation recharge, vertical flow paths are dominant. High concentrations (above MCLs) in the shallow part of the regional aquifer system will likely move deeper in the system, affecting both domestic and public-supply wells. The large fraction of old water (unaffected by agricultural chemicals) in deep monitoring wells suggests that it could take decades for concentrations to reach MCLs in deep, long-screened public-supply wells, however.  相似文献   

高寒山区河水与地下水相互作用的温度示踪:以黑河上游葫芦沟流域为例   总被引：1，自引：0，他引：1       下载免费PDF全文

葛孟琰  马瑞  孙自永  龙翔  邢文乐  王烁  尹茂生 《地球科学》2018,43(11):4246-4255

高寒山区的地表水与地下水相互作用的定量研究对水资源的评价及管理等具有重要意义,而目前在高寒山区开展的地表水与地下水相互作用的定量研究相对较少.以黑河上游葫芦沟流域为研究区域,采用温度示踪方法对高寒山区河水与地下水的相互作用进行了研究,并对温度示踪方法在高寒山区的适用性进行了讨论.监测了研究区两个时段的地温、河水水位、地下水水位以及河床沉积物底部不同深度处的温度,并对温度系列数据进行定量分析,计算了不同位置处河水入渗流速.结果表明:研究区河水水位普遍高于地下水水位;河床底部温度在9月份整体低于7月;流速计算结果表明监测时段内主要为河水入渗补给地下水,入渗速率整体介于2×10-6~5×10-5 m/s.温度示踪法在高寒山区的适用性分析表明:在地下水受多途径补给时,温度示踪法仅指示河水对地下水的补给,而其他水源对地下水的补给还要通过同位素方法和数值模拟等其他手段进行计算.影响高寒山区河水对地下水补给的因素主要有:河水与地下水水位、河床沉积物的水力传导系数与热容.   相似文献   

川藏铁路格聂山和察雅段构造岩溶发育规律及岩溶地下水循环模式研究   总被引：1，自引：0，他引：1       下载免费PDF全文

李向全  马剑飞  张春潮  王振兴  付昌昌  白占学 《水文地质工程地质》2021,48(5):34-45

Construction of the Sichuan-Tibet Railway may face significant geological safety risks of water inrush and mud inrush in the plateau tectonic karst region. It is of great scientific and practical significance to carry out research on the evolution regularity of the plateau tectonic karst and the relevant karst groundwater circulation mode for the early prediction and identification of the water inrush and mud inrush disaster in the railway tunnel to be built. Based on the field survey and published literatures, this paper makes an in-depth analysis and draws some conclusions. The tectonic karst development shows obvious sequence characteristics and elevation zonation. The first level to fourth level karst development areas were formed before Miocene, late Miocene to Pliocene, Pliocene and Pliocene to Pleistocene, and occur in the elevation range of 4900?5300 m, 4000?4300 m, 3700?3800 m and 2900?3200 m, respectively. Active faults obviously control the distribution and enrichment of karst groundwater. Since the late Pleistocene, active faults have connected different karst areas and formed unique storage conditions for the tectonic karst groundwater in the plateau region. Karst groundwater system can be divided into high recharge area, remote pipeline flow area and concentrated discharge area. The high recharge area occurs in the first-level karst evaluation area, and the third-level and fourth-level are the concentrated discharge area which generally contain the outcropping springs with a discharge of more than 100 L/s. The groundwater system is appropriately divided into shallow and deep groundwater flow system. Karst springs are mainly supplied by ice and snow melting water, and exhibits the dynamic characteristics of the high water pressure, long flow path and deep water groundwater circulation. High CO₂ saturation concentration of the melting water and the salt effect of sulfate promote the formation of high TDS sulfuric acid karst groundwater of low temperature.  相似文献   

鄂尔多斯白垩系盆地地下水的形成与演化：来自Cl及其同位素36Cl的证据   总被引：1，自引：0，他引：1  

杨郧城  沈照理  文冬光  侯光才  佘宏全  赵振宏  王冬  李进文 《地质学报》2011,85(4):586-595

鄂尔多斯自垩系地下水盆地地处中国西部干旱-半干旱地区,其南部和北部分别被黄土和沙漠覆盖,地下水水化学组成在区域上差异显著,北部以淡水为主,南部以微咸-半咸水为主.在沙漠区和黄土区的深层含水层中(埋深大于400 m)分别采集了5组和3组水化学同位素样品.T和14C的分析结果表明,地下水的滞留时间在20343 a内,并且未...  相似文献   

我国气候变化对地下水资源影响研究的主要进展     

贾瑞亮  周金龙  李巧 《地下水》2012,(1):1-4

为了推动我国关于气候变化对地下水影响的深入研究,列举了关于气候变化对地下水影响的研究方法,包括包气带和含水层环境示踪技术,研究地下水及其沉积物的物理化学指标,地表水-地下水耦合数值模拟技术等;综述了我国华北地区(北京市、滹沱河流域、海河流域、滦河下游地区、黄淮海平原、临汾盆地、鄂尔多斯盆地、黄河下游地区、大同盆地、北方岩溶泉域)、西北地区(塔里木下游地区、三工河流域、阿克苏河绿洲、黑河流域、石羊河流域、河西走廊、巴丹吉林沙漠)和东北地区(吉林中部平原地区、三江平原)等典型区域气候变化(气温、降水、蒸发)对地下水水位、补给量与排泄量(泉流量、开采量)、水化学成分、水温、同位素组成的影响;提出了气候变化条件下合理利用和管理地下水资源的若干对策,包括减缓温室效应引起的全球气候变暖对未来地下水资源产生不利影响,定量化研究气候变化和地下水之间的相互关系,应用高新技术开展地下水资源脆弱性的研究,充分利用灌区地下含水层的调蓄作用,通过地表水与地下水的联合利用控制水盐平衡、涵养地下水源,节约农业、工业和生活用水等。  相似文献   

Stable isotopic and geochemical data for inferring sources of recharge and groundwater flow on the volcanic island of Rishiri,Japan     

Ajit K. Mandal  Jing Zhang  Kazuyoshi Asai 《Applied Geochemistry》2011,26(9-10):1741-1751

An isotopic and chemical study was conducted on precipitation, spring water, streams, groundwater wells and submarine groundwater discharge (SGD) to constrain the recharge areas and flow paths of SGD. The isotopic values of precipitation were used to determine the local meteoric water lines (LMWLs) of Rishiri Island. The d-excess values of precipitation showed seasonal variation, with lows of 2.5‰ in the summer and highs of 24.2‰ in the winter. The d-excess values of spring water, streams, groundwater wells and SGD ranged from 12.5‰ to 23.0‰, indicating that the resulting waters were a mix of two seasons of precipitation. The isotopic composition of the groundwater wells sampled along the coast and SGD showed more negative values than that of the spring water sampled along the coast. This indicated that SGD recharged at high altitudes and flowed into the sea. The isotopic and chemical composition of SGD indicated unidirectional flow from land to sea.  相似文献