金华地区地下水同位素特征及更新能力研究

金华地区位于金衢盆地东段,对其地下水同位素特征及更新能力研究对于整个盆地地下水资源研究具有重要意义,通过分析研究区内稳定同位素氘(D)和氧(~(18)O)以及放射性同位素氚(~3H)和碳(~(14)C)的空间分布特征,建立了金华地区降水线方程为:δD=8.29δ~(18)O+15.9,讨论了地表水、潜水、红层地下水的环境同位素的组成特征,对潜水及红层地下水的更新能力进行了评价。结果表明,金华地区降水线方程斜率及截距均大于全球大气降水;潜水、红层地下水及地表水三者联系密切;潜水、红层地下水在接受降水的补给后经历了不同程度的蒸发作用;红层地下水D和~(18)O同位素明显向下游富集;潜水~3H值介于6.6～19.0TU,~(14)C年龄显示为现代水,因此其可更新能力较强,红层地下水放射性~(14)C年龄为3020～5360BP,可更新能力较弱,红层地下水3H值介于4.4～12.3TU,表明红层地下水中有现代水的混入,δ~(18)O随着地下水的年龄的增加而偏负。     

乌兰布和沙漠北部地下水资源的环境同位素探讨

工作范围在乌兰布和沙漠北部,面积共约4200km2.年平均降水量85～140mm,由西南向东递增,降水同位素组成δD～δ18O恰与Craig线一致,并与阿拉善地区相同.测得地下水中同位素含量范围,δ18O为-74‰～121‰,氚为0～190TU,14C为17～97pMC.由地下水同位素组成区别出与降水线平行或相交的6种类型.从所有地下水水点,以及可能有补给关系的其它水点的各类同位素关系,包括δ18O,T,δ13C和pMC,识别出两类承压水的各3个补给源和潜水的3个补给源,并区别出一组氚含量极低的潜水,对不同位置的承压水和潜水,由其同位素关系估算出了各补给源的组成和变幅.     

格尔木河流域平原区地下水同位素及水化学特征

通过对格尔木河流域天然水中H、O同位素的系统分析,根据地球水化学组分循环演化规律所对应流域不同类型水体的同位素组成的研究,结果表明流域地下水化学组分随流程增加溶滤作用增强,地下水中HCO3-逐渐减少,Cl-则增加。运用δD、δ18O和3H值建立了流域大气降水线方程,确定了山区河水非当年降水补给,河水以地下水补给为主、其次是冰雪融水和大气降水补给。山区降水δD、δ18O均值低于平原区,表明平原区降水受蒸发作用影响水中富重同位素。平原区地下水中的δD、δ18O值与河水基本一致,说明平原区地下水主要受河水出山后入渗补给。承压自流水δD和δ18O值与潜水基本一致,根据地下水的3H值确定早于潜水年龄,且随埋深增加δD、δ18O值减少的趋势,其年龄亦由新变老。     

青藏高原降水中稳定氧同位素研究进展

稳定氧同位素（δ18O）在冰芯研究中能够很好地反映气候变化，尤其是气温变化的一项重要指标。研究青藏高原降水中δ18O为科学的解释冰芯中δ18O记录具有重要的指示意义。分别介绍了青藏高原季风区、非季风区以及季风区和非季风区的过渡区降水中δ18O研究历史和现状，并对该领域未来的研究趋势进行了展望。     

应用~2H、~(18)O同位素示踪华北平原石家庄包气带土壤水入渗补给及年补给量确定

采集2个不同深度包气带土壤水2 H、18 O同位素剖面ZK1,ZK2,应用天然稳定同位素2 H、18 O示踪的方法,研究了华北山前冲积平原石家庄地区包气带土壤水入渗补给的历史演化特征。结果显示,研究区内,以0.05m为取样间隔,δ2 H、δ18 O值可以明显指示出大气降水及灌溉水入渗补给时间—剖面深度位置的年际对应关系。ZK2的δ2 H、δ18 O值随着埋深的增大出现周期性的波动,具有分层现象的岩性差异并不明显,说明ZK2剖面以活塞流的入渗方式补给地下水。在0~3.90m深度,δ2 H、δ18 O值显示降水和灌溉水的入渗补给时间为2011年10月至2001年11月。18 O峰值位移法计算补给量的结果显示,降水、灌溉水通过包气带补给地下水的垂向运移速度为38.5~65.0cm/a,年均入渗补给量为131.3~185.3mm。同时,对比2003年及2005-2007年降水量数据,说明少雨年份农业灌溉用水量的大小对当地地下水的入渗补给量起着关键性作用。     

鄂尔多斯白垩系地下水盆地天然水体环境同位素组成及其水循环意义

鄂尔多斯白垩系地下水盆地天然水体的环境同位素组成表明,区内各种地表水体（河流和湖淖）在δ18O和δD图上主要分布在雨水线右侧,其关系线的斜率明显小于雨水线的蒸发线,集中反映蒸发作用对地表水体的影响。盆地内地下水大致集中沿雨水线分布,反映了白垩系盆地内地下水为大气降水成因。盆地南北两区地下水的环境同位素具有明显差异性特点,集中体现了盆地南北两区水循环条件的差异。盆地北区各含水岩组间地下水垂向水力联系比较密切,垂向运动特点比较明显,现代水积极循环带的深度为200 m;南区地下水分层性明显,以水平径流为主,现代水积极循环带的深度为160 m。区内浅层地下水以富氚和高¹⁴C含量为特征,反映为现代水补给;而中、深层地下水则以贫氚和低¹⁴C含量为特征,反映为地质历史时期补给。     

九江地震台地下水氢氧稳定同位素变化特征及意义

在地震地下流体研究中,地下水补给及循环过程是重要的研究内容之一,氢氧同位素示踪技术是目前研究该过程的常用手段。通过对九江地震台2井地下水、大气降水及周边天花井水库水、马尾水高山泉水的样品进行氢氧同位素测定分析,结果表明,与降水相比地下水氢氧同位素变化更为稳定。夏半年,大气降水氢氧同位素与降水量呈显著的负相关关系,具有明显的降水量效应;冬半年,与温度成显著的正相关关系,具有明显的温度效应,地下水氢氧同位素并未表现出明显的降水效应和温度效应。氢氧同位素及过量氘揭示地下水在下渗补给前经历了明显的蒸发分馏作用,并与围岩进行~(18)O交换,δ~(18)O与δD计算的补给高程分别约为647m、440m。九江台地下水总体属于大气成因型,循环过程为较稳定的裂隙水补给形成承压自流井。     

基于氢氧同位素示踪法矿坑水径流过程及补给来源研究

为了探明西南某矿山矿坑水的补给来源及受补给后的地下水径流过程,采用了氢氧同位素示踪法即(2H、18O)及放射性氚(3H)进行分析研究。研究结果发现:矿坑水最终来源于近期大气降水补给,地下水整体径流过程为部分浅层水补给深层承压水,部分深层承压水通过拖顶越流方式补给浅层水,说明矿区因各形态断层的密集发育,原有的砂页岩隔水层部分地段丧失了隔水性能,使地下水含水系统成为统一的含水体。     

锡林河流域地表水和浅层地下水的稳定同位素研究

2006年4—9月,在从锡林河源头沿河流进行地表水和地下水同位素样品采集和分析的基础上,利用全球降水同位素监测网(GNIP)包头站的大气降水稳定同位素资料,结合锡林河流域的气象和水文资料,对锡林河流域大气降水、地表水和地下水稳定同位素进行了研究.结果表明:地下水中δ18O和δD值分别集中在-11.7‰～-14.9‰和-80‰～-89.5‰范围内,δ18O沿地下水流向有增加的趋势,大部分地下水中δ18O的季节波动性不大;河流干流δ18O和δD的年算术平均值从源区的-12.8‰和-94.5‰到入锡林河水库处的-10.0‰和-79.3‰,差值分别约为3‰和15‰.河水中的δ18O值沿流程增加而增大的现象可归结为受含有较高δ18O值的地下水补给作用和河水的蒸发作用的共同影响,其中对δ18O蒸发富集的研究显示,蒸发引起δ18O富集值为1‰.通过地下水线(GWL)和地表水线(SWL)及区域大气降水线(LMWL)的对比分析发现,在径流季节,降水对地表水的贡献小,地下水是地表水主要的补给源,地表径流基本是地下水的排泄.     

矿区流域不同水体同位素时空特征及水循环指示意义

为了探究平朔矿区所在流域不同水体同位素的时空变化规律, 揭示采煤活动下区域水循环规律, 于2020年8月和12月对流域内地表水、地下水和矿井水进行采样, 测试样品的D和18O同位素组成, 并利用贝叶斯混合模型MixSIAR计算了矿井水不同来源的贡献率。结果表明: ①地表水和矿井水δD和δ18O夏季较冬季高; 地下水δD和δ18O季节差异不明显。地表水氢氧同位素值沿程呈增加趋势, 但局部受到矿井水的补给, 出现贫化; 地下水氢氧同位素值沿径流方向呈逐渐增加趋势。②采煤区氢氧同位素值较非采煤区明显增加。受季节效应影响, 在空间分布上8月浅层地下水氢氧同位素高值区域较12月明显增多。③ δ18O与δD关系图表明, 地表水在接受大气降水的补给之后受到了蒸发分馏作用的影响; 浅层地下水的补给源较复杂, 深层地下水由于采煤形成的导水裂隙带受到了浅层地下水和地表水的补给; 矿井水受地表水、浅层地下水和深层地下水的补给。④ MixSIAR模型揭示出深层地下水是矿井水的主要补给来源, 占61.60%~67.20%, 且补给比例冬季大于夏季; 浅层地下水对矿井水的补给存在明显季节差异。     

A study of the interrelation between surface water and groundwater using isotopes and chlorofluorocarbons in Sanjiang plain,Northeast China

Surface water and groundwater are the main water resources used for drinking and production. Assessments of the relationship between surface water and groundwater provide information for water resource management in Sanjiang plain, Northeast China. The surface water (river, lake, and wetland) and groundwater were sampled and analyzed for stable isotopic (δD, δ ¹⁸O) composition, tritium, and chlorofluorocarbons concentrations. The local meteoric water line is δD = 7.3δ ¹⁸O–6.7. The tritium (T) and chlorofluorocarbon (CFC) contents in groundwater were analyzed to determine the groundwater ages. Most groundwater were modern water with the ages <50 years. The groundwaters in mountain area and near rivers were younger than in the central plain. The oxygen isotope (δ ¹⁸O) was used to quantify the relationship between surface water and groundwater. The Songhua, Heilongjiang, and Wusuli rivers were gaining rivers, but the shallow groundwater recharged from rivers at the confluence area of rivers. At the confluence of Songhua and Heilongjiang rivers, 88 % of the shallow groundwater recharged from Songhua river. The combination of stable isotopes, tritium, and CFCs was an effectively method to study the groundwater ages and interrelation between surface water and groundwater. Practically, the farmlands near the river and under foot of the mountain could be cultivated, but the farmlands in the central plain should be controlled.     

Residence times of shallow groundwater in West Africa: implications for hydrogeology and resilience to future changes in climate

Although shallow groundwater (<50 mbgl) sustains the vast majority of improved drinking-water supplies in rural Africa, there is little information on how resilient this resource may be to future changes in climate. This study presents results of a groundwater survey using stable isotopes, CFCs, SF₆, and ³H across different climatic zones (annual rainfall 400–2,000 mm/year) in West Africa. The purpose was to quantify the residence times of shallow groundwaters in sedimentary and basement aquifers, and investigate the relationship between groundwater resources and climate. Stable-isotope results indicate that most shallow groundwaters are recharged rapidly following rainfall, showing little evidence of evaporation prior to recharge. Chloride mass-balance results indicate that within the arid areas (<400 mm annual rainfall) there is recharge of up to 20 mm/year. Age tracers show that most groundwaters have mean residence times (MRTs) of 32–65 years, with comparable MRTs in the different climate zones. Similar MRTs measured in both the sedimentary and basement aquifers suggest similar hydraulic diffusivity and significant groundwater storage within the shallow basement. This suggests there is considerable resilience to short-term inter-annual variation in rainfall and recharge, and rural groundwater resources are likely to sustain diffuse, low volume abstraction.     

Preliminary isotopic studies in the Bida basin,central Nigeria

The area of the Bida basin is lacking in essential data for effective groundwater management. Hydrological studies using environmental isotopes (²H,³H,¹³C,¹⁸O) were carried out in the basin during the 1987–1988 hydrological year on samples of rainfall, streams, springs, and groundwater. The results obtained results do not indicate the presence of paleowaters; rather all groundwaters in the basin are found to be of meteoric origin as bothD and ¹⁸O values of the samples, plotted in the conventional way, align with the meteoric water line (MWL). Moreover, these data show the deeper, and apparently older, groundwater to be more depleted in the heavy stable isotopes than the shallower, relatively younger groundwaters, indicating recharge under cooler climatic conditions for the former. Measured tritium values range from 0.7 to 23.8 TU and show a variation with both depth and lithology, while at the same time indicating that active recent recharge is taking place basin-wide. The few¹³C data available were used to illustrate the effect of pumping on the carbonate geochemistry of the groundwaters. Also, the stable isotope data from the basin were compared with similar data from other parts of the country to show the continental effect.     

Hydrogeochemical investigation of surface and groundwater composition in an irrigated land in Central Tunisia

Major element concentrations, stable (δ¹⁸O and δ²H) and radiogenic (³H, ¹⁴C) isotopes determined in groundwater provided useful initial tracers for understanding the processes that control groundwater mineralization and identifying recharge sources in semi-arid Cherichira basin (central Tunisia).Chemical data based on the chemistry of several major ions has revealed that the main sources of salinity in the groundwaters are related to the water–rock interaction such as the dissolution of evaporitic and carbonate minerals and some reactions with silicate and feldspar minerals.The stable isotope compositions provide evidence that groundwaters are derived from recent recharge. The δ¹⁸O and δ²H relationships implied rapid infiltration during recharge to both the Oligocene and Quaternary aquifers, with only limited evaporation occurring in the Quaternary aquifer.Chemical and isotopic signatures of the reservoir waters show large seasonal evolution and differ clearly from those of groundwaters.Tritium data support the existence of recent recharge in Quaternary groundwaters. But, the low tritium values in Oligocene groundwaters are justified by the existence of clay lenses which limit the infiltration of meteoric water in the unsaturated zone and prolong the groundwater residence time.Carbon-14 activities confirm that groundwaters are recharged from the surface runoff coming from precipitation.     

水汽输送对雅鲁藏布江流域降水中稳定同位素的影响

利用NCEP/NCAR全球大气再分析格点资料和2005年西藏雅鲁藏布江流域4个站点（拉孜、奴各沙、羊村和奴下）降水中δ18O数据，分析了雅鲁藏布江流域降水中δ18O变化同水汽输送通量的关系。从空间上来看，雅鲁藏布江流域降水中δ18O同水汽输送通量呈明显的正相关，从下游至上游，随着水汽输送通量的减少，降水中的δ18O逐渐降低；从时间上来看，春季水汽通量较小，降水中的δ18O较高，而在夏季，水汽通量大，降水中的δ18O较低。在此基础上，又利用NCEP/NCAR气象数据建立水汽追踪模型，以羊村站为例对雅鲁藏布江流域降水的水汽输送过程进行了追踪模拟，并讨论了降水中δ18O变化同水汽源地以及输送过程的关系。结果发现，在季风降水之前的春季，降水中较高的δ18O主要受西风带水汽输送以及当地蒸发水汽的影响；在季风期间，降水中较低的δ18O主要受来自印度洋暖湿水汽输送的影响。      

Hydrochemical characterization of complex volcanic aquifers in a continental rifted zone: the Middle Awash basin, Ethiopia

The Middle Awash basin is an arid region in Ethiopia where surface waters are scarce and local communities are dependent on groundwater resources for water supply. The complex hydrogeological system of this basin has been conceptualized. Multivariate statistical analysis of hydrochemical variables and water isotopes were used to study the rock?Cwater interaction, geochemical reaction processes and the hydrological link between aquifers. Groundwaters from aquifers of the high-rainfall plateau bounding the rift are slightly mineralized, as well as depleted in ??¹⁸O and ??D, and contain ³H above 0.8?TU. This suggests a low degree of rock?Cwater interaction and that groundwater is under recharge from heavy rain that falls on surrounding highlands. On the other hand, groundwaters from aquifers of the rift floor are highly mineralized and show slight enrichment in ??¹⁸O and ??D with positive oxygen shift, but contain ³H below 0.8?TU. The positive oxygen shift in rift floor groundwaters may be caused by the isotopic exchange of oxygen between groundwater and aquifer materials during rock?Cwater interaction, whereas the low ³H content could be due to the decay of tritium along relatively long flow paths. The approach utilized in this study may be applicable to understanding hydrogeochemical processes in other complex volcanic terrains.     

Hydrochemistry of urban groundwater in Seoul, South Korea: effects of land-use and pollutant recharge

The ionic and isotopic compositions (δD, δ¹⁸O, and ³H) of urban groundwaters have been monitored in Seoul to examine the water quality in relation to land-use. High tritium contents (6.1–12.0 TU) and the absence of spatial/seasonal change of O–H isotope data indicate that groundwaters are well mixed within aquifers with recently recharged waters of high contamination susceptibility. Statistical analyses show a spatial variation of major ions in relation to land-use type. The major ion concentrations tend to increase with anthropogenic contamination, due to the local pollutants recharge. The TDS concentration appears to be a useful contamination indicator, as it generally increases by the order of forested green zone (average 151 mg/l), agricultural area, residential area, traffic area, and industrialized area (average 585 mg/l). With the increased anthropogenic contamination, the groundwater chemistry changes from a Ca–HCO₃ type toward a Ca–Cl(+NO₃) type. The source and behavior of major ions are discussed and the hydrochemical backgrounds are proposed as the basis of a groundwater management plan.     

西藏南部晚白垩世厚壳蛤不同壳层的地球化学特征及其对古海洋信息的保存性

测试了西藏南部岗巴剖面上白垩统宗山组上段地层中厚壳蛤不同壳层的Sr、Mn、Al、Si含量，以及碳、氧、锶同位素组成，测试结果表明:1）厚壳蛤的不同壳层（包括柱状层、珍珠层和二者间的过渡层）的碳酸盐矿物均已新生变形为成岩低镁方解石（DLMC），各种原始碳酸盐矿物（沉积低镁方解石或文石）都已不同程度地发生重结晶；2）从壳的外层（柱状层）向内层（珍珠层）方向，碳酸盐矿物重结晶作用有逐渐增强的趋势，柱状层仍具有很好的柱状结构，其平均阴极发光强度明显弱于内部的珍珠层；3）厚壳蛤不同壳层的Sr含量和δ18O值都呈现有规律的变化，从靠外部的柱状层到内部的珍珠层，Sr含量和δ18O值都逐渐降低，同样说明内部的珍珠层丢掉的海水信息相对较多；4）厚壳蛤不同壳层和体腔充填物的δ18O值都显著低于前人报道的同期海水值，说明在新生变形过程中，厚壳蛤不同壳层和体腔充填物的氧同位素都与大气水或其它成岩流体发生了交换，但柱状层的氧同位素与大气水（或其它成岩流体）的交换相对较少；5）厚壳蛤不同壳层和体腔充填物的锶、碳同位素组成与同期海水值接近，不同壳层之间也没有表现出有规律性的变化，因而在矿物的新生变形过程中，厚壳蛤的锶、碳同位素与成岩流体间的交换相对较少，同时也说明，在氧、碳、锶三种同位素中，氧很容易与成岩流体发生同位素交换，而碳、锶同位素则更多地代表了海水信息。     

Oxygen and Hydrogen Isotopes of Waters in the Ordos Basin,China: Implications for Recharge of Groundwater in the North of Cretaceous Groundwater Basin

Hundreds of precipitation samples collected from meteorological stations in the Ordos Basin from January 1988 to December 2005 were used to set up a local meteoric water line and to calculate weighted average isotopic compositions of modern precipitation. Oxygen and hydrogen isotopes, with averages of ?7.8‰ and ?53.0‰ for δ18O and δD, respectively, are depleted in winter and rich in spring, and gradually decrease in summer and fall, illustrating that the seasonal effect is considerable. They also show that the isotopic difference between south portion and north portion of the Ordos Basin are not obvious, and the isotope in the middle portion is normally depleted. The isotope compositions of 32 samples collected from shallow groundwater (less than a depth of 150 m) in desert plateau range from ?10.6‰ to ?6.0‰ with an average of ?8.4‰ for δ18O and from ?85‰ to ?46‰ with an average of ?63‰ for δD. Most of them are identical with modern precipitation. The isotope compositions of 22 middle and deep groundwaters (greater than a depth of 275 m) fall in ranges from ?11.6‰ to ?8.8‰ with an average of ?10.2‰ for δ18O and from ?89‰ to ?63‰ with an average of ?76‰ for δD. The average values are significantly less than those of modern precipitation, illustrating that the middle and deep groundwaters were recharged at comparatively lower air temperatures. Primary analysis of 14C shows that the recharge of the middle and deep groundwaters started at late Pleistocene. The isotopes of 13 lake water samples collected from eight lakes define a local evaporation trend, with a relatively flat slope of 3.77, and show that the lake waters were mainly fed by modern precipitation and shallow groundwater.     

河北省邯郸、邢台东部四县地下水越流问题的同位素分析

深层地下水的属性、深浅层地下水的水力联系(越流)是水文地质工作者一直研究和争论的问题。在对邯郸、邢台东部四县深、浅层地下水的氢、氧同位素样品的采集与测试中,发现该区地下水中氚同位素含量较高(15～30 TU,最高达51.1 TU)。本文利用区域大气降水中氚同位素衰减规律与特征,结合研究区地下水的水位和水质动态特征、含水层及隔水层的岩性特征,对特定水文地质条件下浅层地下水向深层地下水越流的可能性进行了分析研究,认为:本区存在浅层地下水越流至深层地下水的可能,在深层地下水中出现的高氚含量是其重要的证据。