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1.
为了研究泉水化学成分特点和在一年内的变化,文章利用pH-电导率自动记录仪对陕西秦岭翠华山地区两处泉水化学成分进行了每月2次的观测,并进行了水化学分析。翠华山泉水中HCO-3含量在76.27~152.55mg/L之间,Ca2+含量在14.48~26.92mg/L之间,Mg2+含量在4.46~4.89mg/L之间,K+含量在0.60~2.75mg/L之间,Na+含量在0.93~1.09mg/L之间,这些成分的特点是含量低。泉水pH值在6.98~5.69之间,夏秋季低于该区雨水的pH值,具酸性特征,这是该区地层主要由片麻岩构成决定的。从1月到11月,水秋池村泉水pH值和电导率呈现由大到小再到大的变化规律,引起这种变化的主要原因是夏秋季土壤CO2含量比冬春季高,泉水在夏秋季流动过程中吸收了较多的CO2。翠华湖西泉水pH值和Ca2+,Mg2+,K+,Na+离子含量比水秋池泉水高,从1月到11月Ca2+,Mg2+,K+,Na+离子含量变化与水秋池泉水变化相反,这应当是两个泉水的来源不同或在流动过程中遇到了酸碱性不同的土层和地层造成的。翠华山地区泉水化学成分变化是易于观测到的规律性很强的变化。 相似文献
2.
湖南新田富锶地下水水化学特征与成因分析 总被引:1,自引:0,他引:1
研究湖南新田富锶地下水水化学特征及成因,为富锶地下水的可持续利用与开发提供理论依据。对研究区21个下降泉、30个机井富锶地下水样品的水化学类型、化学成分含量特征、成分间相关性以及离子比值的研究。结果表明:下降泉水化学类型全部为HCO3-Ca型,机井水化学类型以HCO3-Ca、HCO3-Ca·Mg型为主。相关分析表明,下降泉和机井中SO42-与Ca2+、Mg2+均表现显著相关或极显著相关,HCO3-与Ca2+、SO42-与NO3-在下降泉与机井中的相关性具有差异,下降泉、机井Sr与Ca2+、Mg2+、HCO3-均表现为极显著相关。Gibbs图表明下降泉和机井的水化学组成主要受水-岩相互作用的控制,下降泉、机井c(Ca2+)/c(Mg2+)、c(HCO3-)/c(SO42-+Cl-)、c(Na+)/c(Cl-)、c(Cl-)/c(Ca2+)系数比值具有差异。结果表明富Sr地下水的形成受碳酸盐岩成分影响显著,赋存条件的差异导致富锶地下水在下降泉、机井中的水化学特征、相关性以及离子系数比值的差异。 相似文献
3.
洪范池铁矿体赋存于太古宙泰山岩群山草峪组,矿体周围泉水众多,论证矿床开采疏排水能否对泉水产生影响具有重要意义。研究分析表明,朱砂洞组含水层及山草峪组风氧化带裂隙水是矿床充水的直接充水水源,矿床充水水文地质条件属简单类型。泉水出露于寒武纪张夏组含水层中,并且与山草峪组含水层间无水力联系。若张夏组含水层不与采区沟通,矿山生产疏排水不会对泉水产生明显的影响。 相似文献
4.
Andrew Shugg 《Environmental Geology》2009,58(8):1663-1673
Hepburn Spring is the major cold carbonated mineral spring of the ‘Spa’ country of Central Victoria, in South Eastern Australia.
The spring occurs in a small tributary valley of the Loddon River, 15 km away from the crest of the Great Dividing Range.
The waters are effervescent, have an alkalinity of around 1,500 mg/L (as HCO3
−), are mildly acidic and have high iron concentrations. Hepburn Spring is one of nearly 100 small cold low flow carbonated
mineral water springs that occur in the region. Hepburn Spring has been protected since 1865 in one of 34 ‘Special Mineral
Spring Reserves’. By world standards the spring is small and not highly developed, but it retains much of its charm due to
the bushland, forest setting. The bedrock of the region consists of indurated arkosic sandstones interbedded with carbonaceous
shales and slates. The rocks are folded and cut by swarms of strongly developed meridional fissure fault systems. Hepburn
Spring is situated on the fault and fold axes associated with the “Cornish line” and Gold mines have dewatered the spring
on several occasions. After dewatering events the water level and flow recovered first and then the water composition and
effervescence. The origin of the effervescent waters has attracted much attention; hypotheses include both a volcanic and
a rock water reaction origin. The second hypothesis involves weathering of the carbonaceous and sometimes pyritic rock mass
which contains only a few percent carbonate. This process produces high bicarbonate groundwater throughout Central Victoria.
The Hepburn waters are a variant of these waters and it is suggested that controls on the carbonate solubility and redox conditions
in the fissures flow systems results in effervescent waters as the waters ascend. 相似文献
5.
娘子关泉域群泉是中国北方最大的岩溶泉,泉域汇水面积达7 436 km2,前人认为:泉域内岩溶水由北、西、南3面向娘子关一带径流汇集,由于娘子关一带下奥陶系燧石团块或条带白云岩相对隔水层隆起,并被桃河侵蚀出露,使岩溶地下水溢出地表成泉群,其主要含水层为中奥陶系含石膏碳酸盐岩。但各泉的水化学、同位素特征有差异,娘子关泉群并不是出自统一源。文章通过水化学、同位素、水文地质剖面等方法研究得出: 娘子关泉域存在两个含水层、三个子系统:中奥陶系灰岩含水层和中上寒武系白云岩含水层;西部奥陶系岩溶水系统、东部奥陶系岩溶水系统和东部中上寒武系岩溶水系统。泉域内城西泉与程家泉出露于中奥陶系下马家沟组泥灰岩之上,含水层为中奥陶系灰岩裂隙、溶隙水,由于区域下马家沟组泥灰岩隆起隔水出露地表成泉,属于东部奥陶系岩溶水系统;坡底泉、五龙泉、河北泉、水帘洞泉、苇泽关泉其补给主要来源于中上寒武系含水岩组,为承压上升泉,属于东部中上寒武系岩溶水系统。 相似文献
6.
西藏日多温泉水化学特征及其物质来源 总被引:1,自引:0,他引:1
热泉水的水化学特征包含其形成过程中地质、构造、断裂、蚀变以及环境变化等多种信息,是研究地热流体形成和物质来源最基本和最重要的特征之一。西藏日多温泉发育于古新统典中组(E1d)和下白垩统林布宗组(K1l)地层。水化学特征显示:日多温泉地下热储温度为97.5 ℃~110.1 ℃之间,pH值为中性,水化学类型为SO4·HCO3-Na型,阳离子以Na+、Ca2+、K+为主,阴离子以Cl-、SO42-、HCO3-为主,并富含HBO2、H2SiO3、F、Li、Sr、Cs、As,矿化度介于1 162 mg/L~1 245 mg/L之间,符合理(医)疗热矿泉水水质标准。温泉水富含多种矿物组分的特征,与温泉水循环深度大、地下滞留时间较长(推测大于48 a)、地下热水与火山岩水-岩作用强烈有直接关系。综合研究热矿水的水化学特征,有助于更好地认识热泉水的形成过程,为热泉资源的开发利用和保护提供科学依据。 相似文献
7.
重庆温泉研究进展 总被引:2,自引:0,他引:2
文章通过综述当前重庆温泉研究的相关文献,总结了前人在重庆温泉形成的地质背景、分布状况、类型、水化学特征及形成机制等方面的研究现状,并分析了重庆温泉研究和开发利用中存在的问题。重庆温泉中人工揭露较自然出露多,温度以中低温为主,泉口流量集中于10~50 L/s,色度、浊度小,水化学类型受围岩性质影响,以SO4-Ca型为主。其形成过程为:大气降水在大巴山脉及川东褶皱带背斜顶端碳酸盐岩出露区域渗入地下深部,被地温加热后沿褶皱带背斜轴部向南移动,在河谷深切处或断裂构造处出露形成温泉。重庆温泉的开发利用存在环境污染、资源利用不合理、开发不力等问题,认为应当加强温泉形成机理、温泉资源评价与保护、温泉水系统数值模拟、温泉废水处理等方面的研究,以确保温泉水资源的可持续利用。 相似文献
8.
研究天然盐泉的形成有助于揭示陆地水文循环过程中的物质迁移。采用水文地球化学的方法,分析四川省盐源县的9个泉水和卤水水样的水化学特征和同位素特征,探讨盐泉的溶质来源,总结盐泉的成因模式。水样可以分为TDS为311.69 g/L的Cl-Na型卤水、TDS为55.77~89.43 g/L的Cl-Na型盐泉、TDS为1.17 g/L的Cl-Na型微咸泉和TDS为0.26~0.56 g/L的以HCO3-Ca、HCO3·SO4-Ca·Mg型为主的淡水泉。泉水和卤水的氢氧同位素显示其来源于大气降水;水样的特征系数显示盐泉和卤水都属于溶滤型,且指示研究区基本不具有找钾前景。泉水的盐分主要来源于石盐、方解石、石膏和白云石等矿物的溶滤。盐泉的形成模式可以概括为:在山区获得大气降水入渗补给后,地下水经历较浅和较深的地下径流并且溶滤含盐地层或者盐矿,使其矿化度升高,在地形较低处汇集出露地表成泉。 相似文献
9.
济南泉水众多闻名于世,人类活动造成泉水断流。为恢复名泉,多年来一直实施地下水自备井限采、集中开采的水源地禁采、回灌补源等措施,但保泉效果并不明显。根据泉水位观测、示踪试验、水质指标测试、岩溶发育程度分析、数理统计等方法,研究泉水补给来源的混合比例。研究结果表明:泉水位及泉水电导率动态变化特征揭示泉水补给来源存在季节性差异,丰水期泉水以东南方向管道流补给为主,枯水期泉水以西南方向裂隙流补给为主;岩溶水系统排泄区的水位动态与泉水位具有明显的相关性,奥陶系灰岩补给区地下水位与泉水位的相关性高于张夏组岩溶水水位与泉水位的相关性,枯水期在张夏组灰岩含水层进行回灌补源并不能遏制泉水位下降的势态;根据42组水质资料计算,泉水的Ca2+、Mg2+、Cl-、SO2-4、总硬度等常规离子组分含量介于寒武系张夏组岩溶水和奥陶系岩溶水之间,四大泉群流量中,来自于张夏组含水层的补给比例占11%~32%,凤山组-奥陶系含水层的补给比例占24%~60%,历阳湖占5%~10%,兴济河占0~6%,玉符河占1%~8%,市区回灌对五龙潭的流量有重要影响。可见,北方岩溶发育极其不均,泉水动态变化反映出北方岩溶的管道流与裂隙流并存,济南保泉回灌补源地点宜选择在奥陶系灰岩分布区。 相似文献
10.
Ingrid Stober 《Aquatic Geochemistry》1997,3(1):43-60
Investigations were carried out to determine the hydraulic and hydrochemical properties of crystalline rocks in the Black Forest of Germany and neighbouring regions. Rock permeabilities (K) were determined to a depth of 3500 m. These parameters range from K = 3.5 × 10-10 ms-1 to K = 8.7 × 10-5 ms-1; and can increase up to an order of magnitude which is typical for porous aquifers. It is shown that on an average, granites are more pervious than gneisses and only the permeabilities of gneisses decrease with depth. The geochemistry of natural waters in crystalline rocks is not constant, but varies with depth and location. The concentration increases with depth and the water-type changes from a Ca–-Na–-HCO 3-type (or Na–-Ca–-HCO3–-) at shallow depths to a Na–-Cl-type at greater depths. Thermal springs are found only in granitic rocks with on average higher permeabilities than in gneisses. Thermal waters are welling up in valleys at the bottom of steep mountains. The chemical composition of thermal spring water is identical to that of water found at greater depths. Using geothermometers it is found, that the depth of the deposits of thermal spring water in the crystalline basement rocks of the Black Forest is some 1000 m below the surface. The topographic relief in the mountains induces a deep circulation of infiltrating rain-water with an upwelling as thermal springs in the valleys. 相似文献
11.
重庆市北温泉与四川康定温泉水之地球化学特征对比 总被引:5,自引:2,他引:3
对重庆北温泉从2005年6月至12月进行每月采样监测,结果表明: 北温泉的水化学类型为SO4 - Ca 型, SO2-4 和Ca2+ 分别占阴阳离子总量的86. 8%和79. 7% , pH值接近于中性,属低温热泉。与之相对比的青藏高原东北缘的康定温泉(除二道桥温泉之外)明显富集Na+ ( 67. 6% ) ,阴离子以HCO-3 为主( 86. 4% ) ,水化学类型为HCO3— Na 型,属高温热泉,水源深度较北温泉深1km以上;而康定的二道桥温泉则明显富集Ca2+ ( 53. 3% ) ,阴离子以HCO-3 ( 90% )为主,水化学类型为HCO3— Ca型,属于低温热泉。根据矿物饱和指数和CO2 分压的计算结果,虽然北温泉的泉水均对方解石和白云石达到饱和状态,但只在部分泉点形成少量钙华沉积。康定温泉对方解石为过饱和,而对白云石为不饱和,因此,在康定温泉有较多的方解石钙华沉积。两个地点对石膏均为不饱和。此外,康定温泉的二氧化碳分压远远高于北温泉。北温泉3号泉点的各主要离子浓度均低于北温泉的其它泉点,是由于地表水的混入所造成。根据所测得的硫酸根浓度进行估算,在北温泉3号泉泉水中雨季时地表水的混入约为40% ,旱季时约为20%。 相似文献
12.
Abed Salih Al Dulaymie Bayan Muhie Hussien Moshtaq Ahmed Gharbi Husam Naji Mekhlif 《Arabian Journal of Geosciences》2013,6(3):801-816
This research examined the balneological characteristics of spring waters within the area of Abu-Jir Fault Zone throughout the hydrogeologic aspects explained by the setting of the hydrogeologic units including the water-bearing horizons of Euphrates, Ana, and Baba Formations. The groundwater flow in the hydrogeologic system correlated with the trends of enrichment or depletion case processes of mineralization (spatial distribution maps of TDS and other components) show different phenomena of groundwater source and interconnection, which helps in the classification springs into two potential site. The physicochemical characteristics of the water flow from springs indicate a hydrochemical approach throughout the spatial variation of important parameters (using Rockware software) related to the balneological study. The monitoring network of the spring waters performed by seven field measurements and 33 variables (totaling to 720 detected measurements) in 18 springs approved the after desk study and water point inventory using a GPS apparatus (GARMIN SUMMIT-e TREX). The study examined the integrated hydrogeological aspects and spring water properties for evolutions and the classification of minero-medicinal water. The traditional hydrochemical information of the spring waters and their sediment properties correlated with balneological limits (standards and definitions) are used in the selection of springs characterized by balneotherapeutic applications. A suggested screening and ranking technique has been developed for evaluating preferable springs selected for natural therapy. The application of ranking technique indicates four graded consequent preferable springs for balneotherapeutic investment: first grade spring represented by Kubaiysa spring (S-4); second grade springs represented by Tawila spring (S-12); third grade springs represented by Mamora spring (S-15), Arnab spring (S-10), Zazoe spring (S-5), and Maqtoom spring (S-13); and fourth grade springs represented by Khalidiya spring (S-16) and Layeg spring (S-7). 相似文献
13.
Mono Lake, a major closed-basin alkaline salt lake in eastern California, derives its water from a mixture of creeks and springs, with the former providing in excess of 75% of the total. The Li isotopic composition of lake water has not varied significantly over a 4 year meromictic period (δ7Li ∼ +19.5). Springs are isotopically distinct: groundwater springs and seeps carry water enriched in isotopically heavy Li whereas thermal springs supply isotopically light (δ7Li < lake), but 10 times more Li-rich, water. Isotopic fractionation during crystallization of carbonate tufa and evaporitic salt appears to be insignificant, and thus cannot be called on as a principal control of the isotopic balance of Li of the lake. Isotopic differences between the end-member source components permit a water budget to be calculated, suggesting (1) springs provide > 50% of the Li to the lake; (2) the Li budget is sensitively balanced on small thermal spring contributions, < 3% of the total spring inflow; and (3) the residence time of Li in the lake is 28 ka. Other Great Basin closed lakes have variable Li isotopic compositions (δ7Li from +16.7 to +23.7), all of which differ significantly from those of several major lakes and seawater (homogeneously ∼ +32). 相似文献
14.
云南维西花岗岩地区水文地球化学特征及形成机制研究 总被引:8,自引:1,他引:8
基于矿物风化分析,以典型花岗岩地区云南维西为例,对该地区2005年8月地下水和河水水化学性质(pH、Ca2 、Mg2 、K 、Na 、Cl-、HCO3-、SO42-)进行了观测,在Piper图上分析了花岗岩地区水文地球化学特征,并利用主成分分析法探讨了其形成机制。研究认为,在野外调查基础上可将云南维西地区地下水分为6类:花岗岩孔隙水、浅部裂隙水、矿带影响的浅部裂隙水、深部构造裂隙水、花岗岩与灰岩接触带水、花岗岩与第四系堆积物接触带水。利用主成分分析法可以提取影响这6类水的3项公因子:Y1(反映钙长石、黑云母、黄铁矿风化)、Y2(反映水循环深度)、Y3(反映钠长石、钾长石溶滤作用)。地下水和河水公因子得分图分析表明:(1)全风化带孔隙水长石、黑云母溶滤作用弱,而且几乎没有黄铁矿氧化作用;(2)浅部裂隙水和花岗岩与第四系堆积物接触带水两者埋深差不多,但后者因水岩接触面积更大,长石、云母溶滤作用以及黄铁矿氧化作用更强;(3)矿带作用下,浅部裂隙地下水体现一定程度的深部构造裂隙水特征,其钠长石、钾长石风化在所有风化带中最强。因钙长石、黑云母矿物活性相对较弱,其增加幅度不如钾长石、钠长石明显;(4)深部构造裂隙水循环深度大,水岩作用充分,钙长石风化强于其他矿物,钾长石、钠长石因为影响因素多,特别是风化淋滤时间的影响,其风化增强不明显;(5)花岗岩与灰岩接触带水失去花岗岩水特征,更多地表现为灰岩水性质;(6)河水主要离子主要来源于循环较浅的裂隙水、全风化带孔隙水等,循环深度大的地下水贡献小。 相似文献
15.
Thomas D. Brock Susan Cook Sandra Petersen J.L. Mosser 《Geochimica et cosmochimica acta》1976,40(5):493-500
A survey of hot, acid springs in Yellowstone Park has shown that high concentrations of ferrous and ferric iron are often present. Total ionic iron concentrations in different springs ranged from less than 1 ppm to greater than 200 ppm, and up to 50% of the ionic iron was in the ferrous form. Some of these springs also have high concentrations of reduced sulfur species (S2? and S0). Significant populations of the bacterium Sulfolobus, acidocaldarius, an autotrophic organism able to live and oxidize sulfur compounds at low pH and high temperature, were present in most of these springs. The role of this organism in the oxidation of ferrous iron was investigated by incubating natural samples of water and assaying for disappearance of ferrous iron. Controls in which bacterial activity was inhibited by addition of 10% NaCl were also run. Bacterial oxidation of ferrous iron occurred in most but not all of the spring waters. The temperature optimum for oxidation varied from spring to spring, but significant oxidation occurred at temperatures of 80–85°C, but not at 90°C. Thus, 85–90°C is the upper temperature at which bacterial iron oxidation occurs; a similar upper limit has previously been reported for sulfur oxidation in the same kinds of springs. The steady-state concentrations of ferrous and ferric iron are determined by the rate at which these ions move into the spring pools with the ground water (flow rate), by the rate at which ferric iron is reduced to the ferrous state by sulfide, and by the rate of bacterial oxidation. The bacterial oxidation rate is faster than the flow rate, so that the rate of reduction of ferric iron is probably the rate-controlling reaction. In several springs, no decrease in ferrous iron occurred, even though high bacterial populations were present. It was shown that in these springs, ferrous iron oxidation occurred but the ferric iron formed was reduced back to the ferrous state again. These springs were all high in suspended sediment and the reductant was shown to be present in the sediment. X-ray diffraction revealed that the sediment contained three major ingredients, elemental sulfur, natroalunite, and quartz. Chemical analyses showed a small amount of sulfide, too little to reduce the ferric iron. Elemental sulfur itself did not reduce ferric iron but when elemental sulfur was removed from the sediment by CS2 extraction, the activity of the sediment was abolished. It is hypothesized that the sulfide present in the sediment (possibly bound to natroalunite) reacts with elemental sulfur to form a reductant for ferric iron. The results show that bacteria can have a profound influence on the ferrous/ferric ratios of geothermal systems, but that temperature and mineral composition of the water may significantly influence the overall result. 相似文献
16.
为了对深变质岩区地热流体的成因和演化进行深入研究,在滇西陇川盆地开展了地质、放射性测量、磁法测量、水文地质和水文地球化学等调查工作,深入分析了盆地内尺巴处温泉的水文地球化学及同位素特征。结果表明:温泉水化学类型为HCO3·SO4·CO3-Na型,温泉中Li+质量浓度为0.220 mg/L,达到了锂矿泉水的命名标准,F-质量浓度为8.29 mg/L,可称为氟水,具医疗价值;温泉热水中冷水混入比例为0.72,热水补给高程为1 166.83 m,补给区温度为9.96℃,热储温度为191.71℃,循环深度为2 082.29 m,温泉天然放热量为9.49×1012 J/a;温泉水来源于大气降水,为深循环上升泉;地下水水化学组分的成因类型为岩石风化型,其主要组分来源于水岩相互作用;热源主要为深部未冷却的岩浆传导热及活动断裂产生的构造热,其次有少部分岩体中放射性同位素产生的放射热;深变质岩区温泉水中的pH值,SO42-、Cl-、Na+、SiO2质量浓度及总碱度高于冷水泉,Ca2+、Mg2+质量浓度低于冷水泉。 相似文献
17.
Numerous present-day hot springs and associated ancient Lianghe gold deposit occur in the central Tengchong block, SW China, associated with oceanic crust subduction. From the center outwards, the alteration zones in the hot spring of the Rehai consist of alunite and silica in a breccia zone, a kaolinite and illite zone, and a chlorite, illite, kaolinite zone. The gas phase in the hot spring is dominated by CO2 with δ13C ranging from −4.5‰ to −7.2‰. These features indicate a major magmatic origin of the hot spring gas. The 3He/4He ratios in the gas from central Tengchong vary from 1.56 to 5.88, approaching to those of the MORB. This is probably related to the ongoing subduction of the Indian plate beneath the Tengchong block. The hot spring waters in the central Tengchong block have much higher content of Au and other elements, e.g., Ag, As, Sb, and Tl, than other typical hot springs, such as Hasbrouck, Sulfer, etc. in the world. The hot springs with more mantle gas contribution and higher water temperature show more elevated Au contents, which implies that the metal in the hot spring was most likely contributed from the magmatic gas. The compiled D-O isotopes of the hot spring waters from previous studies suggest that they are primarily derived from meteoric water. A genetic model for the hot spring system in the central of Tengchong has been tentatively established. The gold-charged hot spring is genetically connected to an active magma chamber, which was produced by subduction of oceanic crust. The chamber is driving long-term surface meteoric circulation and constantly releasing magmatic volatiles enriched with metals. As hot spring water mixed with magmatic volatiles, causing decompression-boiling and forming hydraulic fractures to penetrate the roof of siliceous sinter, which induced the continuing metal deposition and formed the Lianghe hot spring. 相似文献
18.
The thermal springs alongside Wadi Araba, Dead Sea and Jordan valley, Jordan, were investigated and sampled in a comprehensive field study of 2 weeks. Conventional physicochemical properties were measured in situ; dissolved solids and isotopic composition were analyzed. Two main spring locations on the east side of the Dead Sea were mapped. It became evident, that the hottest springs are among the closest to prominent faults; some springs are controlled by gas lift. Jordan’s hot springs are described by means of a broad hydrochemical and physicochemical data set and several figures are presented. Based on their hydrochemistry, the thermal springs are classified into four thermal provinces. Water genesis is discussed. Several geothermometers are applied to estimate reservoir temperatures. Observed discharge rate, water temperature and isotopic composition are compared with data from the literature. Although discharge and water temperature are reported to be constant over the last decades, groundwater overexploitation led to a shift of the isotopic composition, what is documented for the first time in Jordan. Thus, the effect of groundwater mining on Jordan’s hot springs can be stated as a fact. 相似文献
19.
泉按照出露原因通常可以分为侵蚀泉、接触泉、溢流泉(溢出泉)和断层泉等。根据泉眼和地下水循环深度(或径流位置)的相对关系,泉可以分为表层泉、浅循环泉和深循环泉。地下水在地下流动(循环)的最深处仍然高于泉口,这类泉称为浅循环泉。浅循环泉出露的位置并不在地形最低处,其补给来源主要是大气降水入渗,地下水受到重力作用自高处往低处流动,在地下径流的途径短、时间短,流量一般不大。浅循环泉通常是常温泉、淡水泉(也有咸泉和盐泉),多是常年性泉,也有部分是季节性泉或暂时性泉。广西北竂岭北坡泉和云南顺荡井盐泉是典型的浅循环泉。 相似文献
20.
文章利用水化学、2H、18O同位素、87Sr/86Sr比值、13C和14C同位素对济南岩溶地下水补给来源、地热水补给来源进行研究。结果表明,岩溶冷水水化学类型以HCO3-Ca、HCO3·SO4-Ca型为主、地热水以SO4-Ca型为主。在旱季,间接补给区对泉群地下水补给比率在66.00%~73.58%之间,直接补给区仅占到26.42%~34.00%,旱季泉水的主要来源为间接补给区岩溶地下水。地热水受到了更新世以来的降水补给,是不同时期降水补给所形成的混合地下水,接受补给区域应为高程较高的张夏或者炒米店-三山子组地层,补给高程在350~550 m之间。 相似文献