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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。 相似文献
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锡林河流域地表水和浅层地下水的稳定同位素研究 总被引:6,自引:3,他引:3
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. 相似文献
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松嫩平原西部水体环境盐化机制的同位素证据 总被引:2,自引:0,他引:2
利用环境同位素D与^18O示踪的方法,分析了松嫩平原西部典型代表区—洮儿河流域水体的δD和δ^18O组成分布特征,绝大部分水样点在全球大气降水线(LMWL)上或附近,反映其具有统一的补给来源,均来源大气降水或经过轻微蒸发的地表水。少数水样点明显地偏离当地大气降水线,且分布在其下方,反映该水体受到了强烈的蒸发作用,使其δD和δ^18O同位素产生了显著的分馏而富集。本文重点研究了地下水的D盈余值“d”与TDS以及δ^19O与TDS关系,揭示了地下水的盐化作用过程,不仅与蒸发作用有关,更主要取决于水-土相互作用。证明了地表水对盐渍土的溶滤作用,是该区潜水盐化的重要机制。 相似文献
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分析2013年3月枯水期和10月丰水期分别在荻水村、东南河村、付疃河下游所取地表水与地下水样的D、~(18)O、~(14)C同位素分析数据,揭示地表水及地下水与大气降水的补给关系。D、~(18)O分析结果显示:大气降水是地表水和地下水的最初来源,枯水期还接受冰雪融水补给;水源混合作用是水体同位素组成发生改变的主要因素。~(14)C分析结果显示:地下水和地表水仅在付疃河南岸年龄较大,且和地表水的年龄差别较大,说明傅疃河南岸地下水主要为来自上游的径流补给,补给路径较长。其它地区地表水和地下水年龄均小于200 a,表明多为现代降水补给,且循环快速。 相似文献
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2017年,松宜地区陈家河煤矿区发生了酸水污染事件,对当地环境产生了严重影响,生态环境部委托相关单位对该区展开了地下水污染调查工作,试图查明地下水污染程度及污染路径,为后期治理提供水文地质依据。通过分析陈家河流域地表水与地下水氢氧同位素组成特征及分布规律,探讨不同水体之间的补给关系,结果表明:(1)陈家河流域水体δ18O-δD关系图斜率与斜距均小于全球大气降水线,显示该区域水体主要由大气降水补给。(2)δD与δ18O上游至下游变负的趋势增大,表明下游地表水受到地下水与矿洞水补给。(3)δD与δ18O的数值关系表明,在陈家河流域下游可能存在地下水运移的优势通道,例如断层导水带,岩溶通道等。(4)流域范围内水体δ18O与Cl含量关系反映流域中下游地区地下水在一定程度上受到人类活动的影响。 相似文献
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大气降水作为地下水的主要补给源之一,它是自然界水循环过程中的一个重要环节.查明大气降水中同位素分布特征及其影响因素,不仅有助于定性或定量地研究地下水的起源和形成等问题,更有助于揭示"三水"转化关系.根据全球大气降水同位素观测网 1985~1993 年大气降水氢氧同位素资料并结合所采集样品的分析结果对陕西关中盆地大气降水环境同位素特征、变化规律及其影响因素进行了探讨,建立了西安地区雨水线,为地下水的起源及运移研究奠定了基础. 相似文献
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通过对黄土丘陵区燕沟流域2005~2007年雨季的多次降水、0~400 cm土层土壤水、沟道地表水、地下水(泉水、井水)水样中D和18O采样分析,研究了该区降水、土壤水、地表水、地下水的转化关系.结果认为:燕沟流域的降水线与中国、世界的降水线有明显区别,斜率和截距偏小;降水、地表水、土壤水、地下水逐渐富集δD和δ18O,且δ18O富集速度高于δD,由D和18O的蒸发分馏差异所致,可利用各类水体的δD和δ18O变化情况甄别水体之间的水量转化;土壤水δD和δ18O剖面在200 cm深度处出现低值区,应是降水补给到达该深度且土壤蒸发影响逐渐衰减共同作用的结果,其在200 cm以下逐渐升高则因为降水补给影响逐渐降低、土壤水本底同位素影响增强所致.由于380~400 cm深层土壤水的δD和δ18O对降水事件的响应存在,因此认为降水-地下水的转化存在,降水补给泉水的滞后期小于35 d.而对井水的补给滞后时间以及土壤水对地下水的补给量还需进一步研究. 相似文献
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【研究目的】揭示武汉北部新城地表水、地下水的氢氧稳定同位素特征及其相互作用。【研究方法】2019年,采集、测定了降水样7件、河水样6件、水库样14件、民井样98件、泉水样3件和钻孔样11件,并收集到武汉站1986—1998年的监测数据50件,以空间分析和流域分析为基础,氢氧稳定同位素分析为手段。【研究结果】(1)武汉降水氢氧同位素随季节变化,并表现出“降雨效应”明显、“温度效应”不明显的特点;(2)地表水在枯水期受到强烈的蒸散发,表现出一定的“地貌效应”与“干支流效应”的特征;(3)民井、泉和钻孔等地下水均源于大气降水,表现出“含水层埋深效应”与“山区平原效应”的特点;(4)枯水期,界河流域中界河获得了上游水库和地下水的补给,夏家寺水库流域中夏家寺水库得到了地下水补给。【结论】氢氧同位素能显著提高武汉北部新城地表水-地下水相互转换规律的认识。创新点:利用各类水体氢氧同位素组成及空间分布特征,揭示了武汉北部新城降水、地表水和地下水相互转换的规律 相似文献
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Relationship Between Surface Water and Groundwater in the Liujiang Basin—Hydrochemical Constrains 总被引:2,自引:0,他引:2
The interaction between surface water and groundwater is not only an important part of the water cycle, but also the foundation of the study on regional water resources quantity. The field hydrogeological investigation and sampling in the Liujiang basin were conducted in the dry season, in April, 2015. The isotopic ratios of hydrogen and oxygen and ion compositions as well as the hydrogeochemical characteristics indicated that the groundwater in the basin was mainly HCO3-Ca and HCO3-Ca·Mg type low salinity water. The groundwater of each region had a unified connection, experiencing the same or similar hydrochemical formation, and the surface water had the same hydrochemical type and source of hydrochemical composition as groundwater. The hydrogen and oxygen isotopic compositions of surface water and groundwater were close to each other, which were mainly from the atmospheric precipitation. In the runoff process, the river water was affected by the evaporation concentration so that the heavy isotopes were slightly enriched. Under the influence of topographical, geological and hydrogeological conditions, the interaction between groundwater and surface water in the basin had obvious segmentation and mutual transformation. The river was recharged by both sides of groundwater in upstream region of Dashi River and Donggong River basin while river water supplied groundwater on both sides of it in downstream region of Dashi River. 相似文献
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Hsueh-Yu Lu Tsung-Ren Peng Tsung-Kwei Liu Chung-Ho Wang Chih-Chao Huang 《Environmental Geology》2006,50(6):885-898
This study was based on the analysis of isotopic compositions of hydrogen and oxygen in samples from precipitation, groundwater and stream water. In addition, parts of groundwater samples were dated by carbon-14 and tritium. These data are integrated to provide other views of the hydrologic cycle in the Hsinchu-Miaoli groundwater district. The groundwater district is principally composed of Pleistocene and Holocene aquifers. The Pleistocene aquifers are highly deformed by folding and faults into small sub-districts with areas of only tens of square kilometers. These aquifers are exclusively recharged by local precipitation. The Holocene aquifers cover narrow creek valleys, only tens of meters in thickness. The local meteoric water line (LMWL), constructed from rainfall samples in the Hsinchu Science Park, is described by the equation δD=8.02δ18O+10.16, which agrees with the global meteoric water line. In addition, the precipitation isotopic compositions can be categorized into two distinct end members: typhoon type and monsoon type. The groundwater isotopic compositions are perfectly located on an LMWL and can be considered a mixture of precipitations. Based on the mass balance of isotopic compositions of oxygen and hydrogen, infiltration is more active in the rainy season with depleted isotopic compositions. The amount of infiltration during May–September is roughly estimated to comprise at least 55% of the whole year’s recharge. The isotopic compositions of stream water are expressed by a regression equation: δD=7.61δ18O+9.62, which is similar to the LMWL. Although precipitation isotopic compositions are depleted during summer time, the isotopic compositions contrarily show an enriched trend in the upstream area. This is explained by the opposite altitude effect on isotopic compositions for typhoon-related precipitations. 相似文献
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大气降水稳定同位素组成受到温度、蒸发、水汽源地等多种因素的复杂影响,在不同时间和不同地区具有很大差异.通过分析2006~2008年间重庆雨水样品的δD和δ18O,初步建立了当地的大气降水线方程.当地的大气降水稳定同位素组成在不同季节变化明显:夏季降水中的稳定同位素值普遍偏轻,而冬季降水中稳定同位素值普遍偏重.水汽来源是控制当地大气降水稳定同位素组成的最重要原因,而蒸发作用等是控制短期次降水事件中雨水稳定同位素组成的重要影响因素. 相似文献
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The isotopic composition of meteoric water in Sicily, Italy was investigated from May 2004 until June 2006. Samples were sampled monthly from a network of 50 rain gauges. During the same period 580 groundwater samples were collected from springs and wells to obtain insight into the isotopic composition of the water circulating in the main aquifers of the area. The mean weighted precipitation values were used to define the weighted local meteoric water line for five different sectors of Sicily. The use of Geographical Information System tools, coupled with isotopic vertical gradients, allowed designing an isotopic contour map of precipitation in Sicily. The defined meteoric compositions were highly consistent with most of the groundwater samples in each sector. However, in some areas fractionation processes occurring during and after rainfall slightly modify the isotopic composition of the groundwater. The obtained data set defines the present day isotopic composition of meteoric water in the central Mediterranean area and provides baseline values for future climatic and/or isotope-based hydrology studies. 相似文献
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Oxygen and hydrogen isotopes for the characteristics of groundwater recharge: a case study from the Chih-Pen Creek basin,Taiwan 总被引:5,自引:2,他引:3
Assessing the seasonal variation of groundwater recharge is important for effective management of groundwater resources. Stable
isotopes of oxygen and hydrogen were used to estimate the sources of groundwater and seasonal contributions of precipitation
to groundwater recharge in Chih-Pen Creek basin of eastern Taiwan. Based on the isotopes of precipitation (n = 177), two different local meteoric water regression lines (LMWL) can be obtained for the different seasons: δD = 8.0618O + 10.08 for wet season precipitation (May through October) and δD = 8.65δ18O + 17.09 for dry season precipitation (November through April). The slope and intercept of regression line for wet season
precipitation are virtually identical to the global meteoric water line (GMWL) of Craig (1961). In contrast to during dry season precipitation due to evaporation effect the intercept of 17.09 is much higher than of
the GMWL of 10. The results show the stable isotopes compositions of precipitation decrease with increasing rainfall amount
and air temperature, due to the amount effect of precipitation is pronounced. The amount effect is clearly but do not show
the temperature effect from January to December 2007. Using a mass-balance equation, a comparison of deuterium excess or d values of precipitation and groundwater indicates the groundwater consist of 76% wet season precipitation and 24% dry season
precipitation, representing a distinct seasonal variation of groundwater recharge in study area. About 79% of the groundwater
is recharged from the river water of the mountain watershed and 21% is from the rain that falls on the basin. 相似文献
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The Caohai Wetland serves as an important ecosystem on the Yunnan–Guizhou Plateau and as a nationally important nature reserve for migratory birds in China. In this study, surface water, groundwater and wetland water were collected for the measurement of environmental isotopes to reveal the seasonal variability of oxygen and hydrogen isotopes (δ18O, δD), sources of water, and groundwater inflow fluxes. Results showed that surface water and groundwater are of meteoric origin. The isotopes in samples of wetland water were well mixed vertically in seasons of both high-flow (September) and low-flow (April); however, marked seasonal and spatial variations were observed. During the high-flow season, the isotopic composition in surface wetland water varied from ?97.13 to ?41.73‰ for δD and from ?13.17 to ?4.70‰ for δ18O. The composition of stable isotopes in the eastern region of this wetland was lower than in the western region. These may have been influenced by uneven evaporation caused by the distribution of aquatic vegetation. During the low-flow season, δD and δ18O in the more open water with dead aquatic vegetation ranged from ?37.11 to ?11.77‰, and from ?4.25 to ?0.08‰, respectively. This may result from high evaporation rates in this season with the lowest atmospheric humidity. Groundwater fluxes were calculated by mass transfer and isotope mass balance approaches, suggesting that the water sources of the Caohai Wetland were mainly from groundwater in the high-flow season, while the groundwater has a smaller contribution to wetland water during the low-flow season. 相似文献
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Assessment of interconnection between surface water and groundwater in Sawa Lake area,southern Iraq,using stable isotope technique 总被引:1,自引:0,他引:1
Interaction between surface water represented by the Euphrates River, natural springs, and Sawa Lake with groundwater (11 wells) in southern Iraq was investigated in this study. Water samples were collected for hydrochemistry and stable isotope (2H and 18O) analysis. Sampling of water from determined stations (10 stations along the Euphrates, 3 springs, and Sawa Lake) were carried out during two stages; the first was in October 2013(dry season) and the second one was in March 2014 (wet season). The aim of the research is to assess the interaction of groundwater–surface water, which includes Al-Atshan River (branch of the Euphrates River), Sawa Lake, and the groundwater in the study area by using hydrochemistry and stable isotope techniques. The results indicate that surface waters have a different type of water from that of groundwater. In δ 2H and δ 18O diagrams, all groundwater, springs, and Sawa Lake waters are plotted below the Global Meteoric Water Line (GMWL) and the local meteoric water line (LMWL) indicating the influence of evaporation processes and seasonal variation. The LMWL deviates by a d-excess about +13.71 toward the East Mediterranean meteoric water line (EMWL) indicating that the origin of the vapor source is the Mediterranean Sea. The river water has different isotopic compositions from that of groundwater, springs, and Sawa Lake. The final conclusion is that there is no clear influence of the groundwater on the river water while there is an intermixing between the groundwater in the different locations in the study area. 相似文献
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针对黄土梁峁地区砂岩-泥岩互层覆岩突水水源难以准确判别以及不同水源所占比例无法定量化问题,在系统采集了陕北朱家峁煤矿地表水、地下水水样基础上,采用数理统计、Piper三线图、Gibbs图、常规水化学特征比值法,揭示了不同含水系统水化学演化规律和水源补给关系。通过分析水体稳定同位素组成演变特征,明确了不同环境背景下各类水源水质时空变异性。在此基础上,以常规、同位素特征比因子作为判别指标,构建了基于T-球型模糊聚集算子TOPSIS法(T-TOPSIS)、粗糙集理论(RST)、D-S证据理论(DSET)与单指标未知测度函数(SIUMF)的突水水源混合比例计算模型。结果表明,研究区地表水、地下水水化学类型虽均以Na-SO4·Cl为主,但两者受控因素有着明显差别,即地表水水化学成分受硅酸盐岩风化和蒸发结晶共同控制;地下水成分则主要受控于蒸发结晶作用。此外,经历了强烈蒸发作用的地表水对地下水存在一定程度的补给作用。T-TOPSISRST-DSET-SIUMF突水水源混合比例判别模型表明,陕北朱家峁煤矿50%以上的突水水源为顶板砂岩水和地表沙空沟水。三维高密度电法探测结果验证了该模型的准确性。 相似文献