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[1]庄思蝶,周晓成*,李鹏飞,等.新疆塔什库尔干断裂带温泉环境地球化学特征[J].地球科学与环境学报,2022,44(04):699-712.[doi:10.19814/j.jese.2021.11028]
 ZHUANG Si-die,ZHOU Xiao-cheng*,LI Peng-fei,et al.Environmental Hydrogeochemical Characteristics of Hot Springs in Tashkurgan Fault Zone of Xinjiang, China[J].Journal of Earth Sciences and Environment,2022,44(04):699-712.[doi:10.19814/j.jese.2021.11028]
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《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

卷:
第44卷
期数:
2022年第04期
页码:
699-712
栏目:
水资源与水文地质
出版日期:
2022-07-15

文章信息/Info

Title:
Environmental Hydrogeochemical Characteristics of Hot Springs in Tashkurgan Fault Zone of Xinjiang, China
文章编号:
1672-6561(2022)04-0699-14
作者:
庄思蝶12周晓成2*李鹏飞3史浙明1赛买尔那吉?喀依木4朱成英4颜玉聪2
(1. 中国地质大学(北京)水资源与环境学院,北京 100083; 2. 中国地震局地震预测研究所 高压物理与地震科学联合实验室(中国地震局地震预测重点实验室),北京 100036; 3. 中国地质大学(北京)地球科学与资源学院,北京 100083; 4. 新疆维吾尔自治区地震局,新疆 乌鲁木齐 830011)
Author(s):
ZHUANG Si-die12 ZHOU Xiao-cheng2* LI Peng-fei3 SHI Zhe-ming1 Saimai'ernaiji KAYIMU4 ZHU Cheng-ying4 YAN Yu-cong2
(1. School of Water Resources and Environment, China University of Geosciences, Beijing 100083, China; 2. United Laboratory of High-pressure Physics and Earthquake Science(Key Laboratory of Earthquake Prediction), Institute of Earthquake Forecasting, China Earthquake Administration, Beijing 100036, China; 3. School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China; 4. Earthquake Administration of Xinjiang Uygur Autonomous Region, Urumqi 830011, Xinjiang, China)
关键词:
水化学 氢氧同位素 锶同位素 热储温度 WQI指数 温泉 水岩平衡 新疆
Keywords:
hydrogeochemistry H-O isotopes Sr isotope thermal storage temperature water quality index hot spring water-rock equilibrium Xinjiang
分类号:
X142; P641.3
DOI:
10.19814/j.jese.2021.11028
文献标志码:
A
摘要:
水文地球化学方法是研究温泉水成因和评价温泉水资源的有效手段。选用2018年9月在新疆塔什库尔干断裂带内采集的6个温泉水样,根据主量和微量元素浓度以及氢氧、锶同位素进行水化学特征分析,并利用WQI指数进行水质评估。结果表明:①温泉水整体呈碱性,矿化度平均值为1 036.13 mg·L-1,水化学类型为HCO3-Ca、HCO3-Na、SO4-Na等3种,富集因子说明区域变质角闪岩、碱性片麻岩和侵入花岗岩对微量元素含量特征起控制作用; ②温泉水的氢氧同位素组成均分布在大气降水线附近,指示补给来源主要为大气降水,补给高程为4.3~5.6 km,符合高原干旱—半干旱气候下的蒸发作用特征; 循环深度为1.4~2.1 km,属于断裂带控热控水的循环型温泉; ③主量元素水质评价结果表明本次采集的温泉水样均不适合直接作为生活饮用水和农业用水,F-浓度超标; 微量元素水质评价结果表明WQI指数介于1类和3类之间,整体水质较为原始,但公格尔和马尔洋温泉水样出现局部B和As浓度空间分布高值,部分温泉水Li、Fe、F浓度及温度达到了医疗热泉标准,具有理疗和保健功效。
Abstract:
Hydrogeochemical method is effective for studying the genesis of hot spring water and evaluating hot spring water resources. Six hot spring water samples collected from the Tashkurgan fault zone in Xinjiang in September, 2018 were selected. According to the concentration of major and trace elements, as well as H-O and Sr isotopes, the characteristics of hydrogeochemistry were analyzed, and the comprehensive water quality index(WQI)was used for water quality assessment. The results show that ① the spring water is generally alkaline with an average TDS of 1 036.13 mg·L-1; the chemical types of hot spring water are HCO3-Ca, HCO3-Na, and SO4-Na; the enrichment factor explains the control effect of regional metamorphic amphibolite, alkaline gneiss and intrusive granite on the characteristics of trace element content; ② the H-O isotopic compositions of spring water all distribute near the precipitation line, indicating that the recharge source is mainly meteoric water, and the recharge altitude is 4.3-5.6 km, which is consistent with the characteristics of evaporation in the arid and semi-arid climate of the plateau; the circulation depth is 1.4-2.1 km, which belongs to the circulating hot spring controlling heat and water in fault zone; ③ the water quality evaluation of major element shows that the collected hot spring water samples are not suitable for drinking water and agricultural water, and the F- concentration in the hot spring exceeds the standard; the water quality evaluation of trace element shows that the water quality identification index between 1 and 3 classes, the overall water quality is relatively primitive, but the local spatial distributions of B and As concentrations of Gongge'er and Ma'eryang hot springs are high, Li, Fe and F concentrations and water temperature of part hot springs reach the standard for medical hot springs, have effect of physical therapy and health care. The research results provide data support for geothermal research in Tashkurgan fault zone, and are of great significance for sustainable development and protection of local hot spring resources.

参考文献/References:

[1] AMEEN H A.Spring Water Quality Assessment Using Water Quality Index in Villages of Barwari Bala,Duhok,Kurdistan Region,Iraq[J].Applied Water Science,2019,9:176.
[2] POUDEL D D,DUEX T W.Vanishing Springs in Nepalese Mountains:Assessment of Water Sources,Far-mers' Perceptions,and Climate Change Adaptation[J].Mountain Research and Development,2017,37:35-46.
[3] 李 鹭.江西省宜春地区温泉水文地球化学特征研究[D].南昌:东华理工大学,2018.
LI Lu.Hydrogeochemistry of Hot Springs in Yichun Area of Jiangxi Province[D].Nanchang:East China University of Technology,2018.
[4] 李明礼.西藏典型理疗地热矿泉的成因及功效研究[D].成都:成都理工大学,2018.
LI Ming-li.Genesis and Efficacy of the Typical The-rapy Geothermal Mineral Spring,Tibet[D].Chengdu:Chengdu University of Technology,2018.
[5] TRIPATHI D K,PANDEY D G,JAIN C K.Physicochemical Analysis of Selected Springs Water Samples of Dehradun City,Uttarakhand,India[J].Internatio-nal Journal for Innovative Research in Science and Te-chnology,2015,2(5):99-103.
[6] BARAKAT A,MEDDAH R,AFDALI M,et al.Physicochemical and Microbial Assessment of Spring Water Quality for Drinking Supply in Piedmont of Béni-Mellal Atlas(Morocco)[J].Physics and Chemistry of the Earth,2018,104:39-46.
[7] MISHRA A K,SINGH V P.A Review of Drought Concepts[J].Journal of Hydrology,2010,391(1/2):202-216.
[8] HORTON R K.An Index Number System for Rating Water Quality[J].Journal of Water Pollution,1965,37(3):300-306.
[9] BROWN R M,MC CLELLAND N I,DEININGER R A,et al.A Water Quality Index:Do We Dare?[J].Water and Sewage Works,1970,117(10):339-343.
[10] REZA R,SINGH G.Heavy Metal Contamination and Its Indexing Approach for River Water[J].International Journal of Environmental Science and Techno-logy,2010,7(4):785-792.
[11] SHIGUT D A,LIKNEW G,IRGE D D,et al.Assessment of Physico-chemical Quality of Borehole and Spring Water Sources Supplied to Robe Town,Oromia Region,Ethiopia[J].Applied Water Science,2017,7:155-164.
[12] KAVIARASAN M,GEETHA P,SOMAN K P.GIS-based Ground Water Quality Monitoring in Thiruvannamalai District,Tamil Nadu,India[C]∥SURESH L P,PANIGRAHI B K.Proceedings of the International Conference on Soft Computing Systems.Dordrecht:Springer,2016:685-700.
[13] ETIM E E,ODOH R,ITODO A U,et al.Water Qua-lity Index for the Assessment of Water Quality from Different Sources in the Niger Delta Region of Nigeria[J].Frontiers in Science,2013,3(3):89-95.
[14] CHAUHAN S J,BADWAL T,BADOLA N.Assessment of Potability of Spring Water and Its Health Implication in a Hilly Village of Uttarakhand,India[J].Applied Water Science,2020,10:73.
[15] SHAH M,SIRCAR A,VARSADA R,et al.Assessment of Geothermal Water Quality for Industrial and Irrigation Purposes in the Unai Geothermal Field,Gujarat,India[J].Groundwater for Sustainable Development,2019,8:59-68.
[16] VISHWAKARMA C A,SEN R,SINGH N,et al.Geochemical Characterization and Controlling Factors of Chemical Composition of Spring Water in a Part of Eastern Himalaya[J].Journal of the Geological Society of India,2018,92:753-763.
[17] BHAT S U,MUSHTAQ S,QAYOOM U,et al.Water Quality Scenario of Kashmir Himalayan Springs:A Case Study of Baramulla District,Kashmir Valley[J].Water Air and Soil Pollution,2020,231:454.
[18] THAPA B,PANT R R,THAKURI S,et al.Assessment of Spring Water Quality in Jhimruk River Watershed,Lesser Himalaya,Nepal[J].Environmental Earth Sciences,2020,79:504.
[19] EGBUERI J C,MGBENU C N.Chemometric Analysis for Pollution Source Identification and Human Health Risk Assessment of Water Resources in Ojoto Province,Southeast Nigeria[J].Applied Water Science,2020,10:98.
[20] DEDE O T,TELCI I T,ARAL M M.The Use of Water Quality Index Models for the Evaluation of Surface Water Quality:A Case Study for Kirmir Basin,Ankara,Turkey[J].Water Quality Exposure and Health,2013,5(1):41-56.
[21] QU B,ZHANG Y,KANG S,et al.Water Quality in the Tibetan Plateau:Major Ions and Trace Elements in Rivers of the “Water Tower of Asia”[J].Science of the Total Environment,2019,649:571-581.
[22] LI Y M,PANG Z H,YANG F T,et al.Hydrogeochemical Characteristics and Genesis of the High-temperature Geothermal System in the Tashkorgan Basin of the Pamir Syntax,Western China[J].Journal of Asian Earth Sciences,2017,149:134-144.
[23] 史 杰,陆成新,李清海,等.新疆塔什库尔干谷地地热资源研究进展[J].中国地质调查,2018,5(2):8-17.
SHI Jie,LU Cheng-xin,LI Qing-hai,et al.Progress in Research on the Geothermal Resources in Taxkorgan Valley,Xinjiang[J].Geological Survey of China,2018,5(2):8-17.
[24] 常志勇,李清海,史 杰,等.新疆塔什库尔干谷地北段地热地质条件分析[J].水文地质工程地质,2016,42(3):164-170.
CHANG Zhi-yong,LI Qing-hai,SHI Jie,et al.An Analysis of Geothermal and Geological Conditions in the Northern Taxkorgan Valley of Xinjiang[J].Hy-drogeology and Engineering Geology,2016,42(3):164-170.
[25] 庞忠和,杨峰田,袁丽娟,等.新疆塔县盆地地热显示与热储温度预测[J].地质论评,2011,57(1):86-88.
PANG Zhong-he,YANG Feng-tian,YUAN Li-juan,et al.Geothermal Display and Temperature Prediction of Heat Storage in Taxian Basin,Xinjiang[J].Geolo-gical Review,2011,57(1):86-88.
[26] GB 5749—2006,生活饮用水卫生标准[S].
GB 5749—2006,Standards for Drinking Water Quality[S].
[27] GB/T 14848—2017,地下水质量标准[S].
GB/T 14848—2017,Standard for Groundwater Quality[S].
[28] 陈 杰,李 涛,李文巧,等.帕米尔构造结及邻区的晚新生代构造与现今变形[J].地震地质,2011,33(2):241-259.
LI Jie,LI Tao,LI Wen-qiao,et al.Late Cenozoic and Present Tectonic Deformation in the Pamir Salient,Northwestern China[J].Seismology and Geology,2011,33(2):241-259.
[29] 沈 军,汪一鹏,赵瑞斌,等.帕米尔东北缘及塔里木盆地西北部弧形构造的扩展特征[J].地震地质,2001,23(3):381-389.
SHEN Jun,WANG Yi-peng,ZHAO Rui-bin,et al.Propagation of Cenozoic Arcuate Structures in Northeast Pamir and Northwest Tarim Basin[J].Seismology and Geology,2001,23(3):381-389.
[30] 李海兵,VALLI F,许志琴,等.喀喇昆仑断裂的变形特征及构造演化[J].中国地质,2006,33(2):239-255.
LI Hai-bing,VALLI F,XU Zhi-qin,et al.Deformation and Tectonic Evolution of the Karakorum Fault,Western Tibet[J].Geology in China,2006,33(2):239-255.
[31] 仝晓霞,马武明,孙兴乐.新疆帕米尔高原塔什库尔干地区冰川融水锶同位素特征及其环境意义[J].环境化学,2017,36(4):830-838.
TONG Xiao-xia,MA Wu-ming,SUN Xing-le.Characteristic and Environmental Significance of Strontium Isotope in Glacial Meltwater of the Tashkurgan Area in Pamirs,Xinjiang[J].Environmental Chemistry,2017,36(4):830-838.
[32] 巴合提瓦尔·马苏尔,熊凤英,哈德尔·阿布都哈力,等.新疆塔什库尔干河冰雪水文特征与水能开发潜力[J].冰川冻土,2008,30(6):1073-1077.
Bahtiwar·MANSIRIK,XIONG Feng-ying,Hader·ABDUHALIK,et al.Glacier-snow Hydrological Pro-cesses and Potential Hydropower Resources in Tax-korgan River Basin,Eastern Pamir Plateau[J].Journal of Glaciology and Geocryology,2008,30(6):1073-1077.
[33] FRENGSTAD B,SKREDE A K M,BANKS D,et al.The Chemistry of Norwegian Groundwaters:III.The Distribution of Trace Elements in 476 Crystalline Bedrock Groundwaters,as Analysed by ICP-MS Te-chniques[J].Science of the Total Environment,2000,246(1):21-40.
[34] CHEN Z,ZHOU X C,DU J G,et al.Hydrochemical Characteristics of Hot Spring Waters in the Kangding District Related to the Lushan MS=7.0 Earthquake in Sichuan,China[J].Natural Hazards and Earth System Sciences,2015,15(6):1149-1156.
[35] 刘汉彬,金贵善,李军杰,等.铀矿地质样品的稳定同位素组成测试方法[J].世界核地质科学,2013,30(3):174-179.
LIU Han-bin,JIN Gui-shan,LI Jun-jie,et al.Determination of Stable Isotope Composition in Uranium Geological Samples[J].World Nuclear Geoscience,2013,30(3):174-179.
[36] 王衍鹏.Optima 5300DV光谱定性和定量分析的化学计量学方法研究[D].南宁:广西大学,2011.
WANG Yan-peng.Research on Chemometrics Metho-ds of Qualitative and Quantitative Spectral Analysis with Optima 5300DV[D].Nanning:Guangxi University,2011.
[37] 谢 川,李子君,王 滨,等.改进综合标识指数法在地下水方面的应用——以赵川盆地为例[J].节水灌溉,2018(9):56-61.
XIE Chuan,LI Zi-jun,WANG Bin,et al.Application of Improved Comprehensive Water Quality Identification Index Method to Evaluation of Groundwater Quality—A Case Study of Zhaochuan Basin[J].Water Saving Irrigation,2018(9):56-61.
[38] ADIMALLA N,TALOOR A K.Hydrogeochemical Investigation of Groundwater Quality in the Hard Rock Terrain of South India Using Geographic Information System(GIS)and Groundwater Quality Index(GWQI)Techniques[J].Groundwater for Sustainable Development,2020,10:100288.
[39] TALOOR A K,PIR R A,ADIMALLA N,et al.Spring Water Quality and Discharge Assessment in the Ba-santar Watershed of Jammu Himalaya Using Geogra-phic Information System(GIS)and Water Quality Index(WQI)[J].Groundwater for Sustainable Development,2020,10:100364.
[40] VAROL S,DAVRAZ A.Evaluation of the Ground-water Quality with WQI(Water Quality Index)and Multivariate Analysis:A Case Study of the Tefenni Plain(Burdur/Turkey)[J].Environmental Earth Sciences,2015,73(4):1725-1744.
[41] RAMAKRISHNAIAH C R,SADASHIVAIAH C,RA-NGANNA G.Assessment of Water Quality Index for the Groundwater in Tumkur Taluk,Karnataka State,India[J].Journal of Chemistry,2009,6(2):523-530.
[42] WATOR K,ZDECHLIK R.Application of Water Quality Indices to the Assessment of the Effect of Geothermal Water Discharge on River Water Quality:Case Study from the Podhale Region(Southern Poland)[J].Ecological Indicators,2021,121:107098.
[43] TIAN Y,JIANG Y,LIU Q,et al.Using a Water Quality Index to Assess the Water Quality of the Upper and Middle Streams of the Luanhe River,Northern China[J].Science of the Total Environment,2019,667(1):142-151.
[44] 徐祖信.我国河流单因子水质标识指数评价方法研究[J].同济大学学报(自然科学版),2005,33(3):321-325.
XU Zu-xin.Single Factor Water Quality Identification Index for Environmental Quality Assessment of Surface Water[J].Journal of Tongji University(Natural Science),2005,33(3):321-325.
[45] 徐祖信.我国河流综合水质标识指数评价方法研究[J].同济大学学报(自然科学版),2005,33(4):482-488.
XU Zu-xin.Comprehensive Water Quality Identification Index for Environmental Quality Assessment of Surface Water[J].Journal of Tongji University(Na-tural Science),2005,33(4):482-488.
[46] TREBLE P C,BUDD W F,HOPE P K,et al.Synoptic-scale Climate Patterns Associated with Rainfall δ18O in Southern Australia[J].Journal of Hydrology,2005,302(1/2/3/4):270-282.
[47] 李 捷,庞忠和,古丽波斯坦·吐逊江,等.北疆大气降水水汽源识别及其对地下水补给的指示意义[J].科技导报,2016,34(18):118-124.
LI Jie,PANG Zhong-he,Tursung·GULBOSTAN,et al.Identification of Moisture Sources in Junggar Basin and Its Implication for Groundwater Rechange[J].Science and Technology Review,2016,34(18):118-124.
[48] CRAIG H.Isotopic Variations in Meteoric Waters[J].Science,1961,133:1702-1703.
[49] YU W,TIAN L,RISI C,et al.δ18O Records in Water Vapor and an Ice Core from the Eastern Pamir Pla-teau:Implications for Paleoclimate Reconstructions[J].Earth and Planetary Science Letters,2016,456:146-156.
[50] 陈宗宇,齐继祥,张兆吉.北方典型盆地同位素水文地质学方法应用[M].北京:科学出版社,2010.
CHEN Zong-yu,QI Ji-xiang,ZHANG Zhao-ji.Application of Isotope Hydrogeological Methods in Typical Basins,the Northern China[M].Beijing:Science Press,2010.
[51] 乃尉华,史 杰,王文科,等.喀什平原区地下水氢氧稳定同位素分布特征及意义[J].新疆地质,2018,36(2):266-270.
NAI Wei-hua,SHI Jie,WANG Wen-ke,et al.Distribution Characteristics and Its Significance of Hydrogen and Oxygen Stable Isotopes in Groundwater in Kashgar Plain[J].Xinjiang Geology,2018,36(2):266-270.
[52] 王东升,王经兰.中国地下热水的基本类型和成因特征[J].第四纪研究,1996(2):140-145.
WANG Dong-sheng,WANG Jing-lan.Genetic Chara-cteristics and Basic Types of Geothermal Water in China[J].Quaternary Sciences,1996(2):140-145.
[53] 王焰新,孙连发,罗朝晖,等.指示娘子关泉群水动力环境的水化学-同位素信息分析[J].水文地质工程地质,1997(3):1-5,9.
WANG Yan-xin,SUN Lian-fa,LUO Zhao-hui,et al.Analysis of Hydrochemical-isotope Information Indicating the Hydrodynamic Conditions of the Niang-ziguan Karst Springs[J].Hydrogeology and Engineering Geology,1997(3):1-5,9.
[54] 肖 振,张恩达,林 敏.中国医疗矿泉定义与分类方案专家共识(2017年)[J].中国疗养医学,2017,26(6):668-672.
XIAO Zhen,ZHANG En-da,LIN Min.Expert Consensus on Definition and Classification Scheme of Me-dical Mineral Springs in China(2017)[J].Chinese Journal of Convalescent Medicine,2017,26(6):668-672.
[55] GB/T 11615—2010,地热资源地质勘查规范[S].
GB/T 11615—2010,Geologic Exploration Standard of Geothermal Resources[S].
[56] ZHANG H,FENG X B,LARSSEN T,et al.In Inland China,Rice,Rather Than Fish,Is the Major Pathway for Methylmercury Exposure[J].Environmental Hea-lth Perspectives,2010,118(9):1183-1188.
[57] SOTO-JIMENEZ M F,PAEZ-OSUNA F.Distribution and Normalization of Heavy Metal Concentrations in Mangrove and Lagoonal Sediments from Mazatlán Harbor(SE Gulf of California)[J].Estuarine,Coas-tal,and Shelf Science,2001,53(3):259-274.
[58] 刘文平,王 核,仝喜来,等.西昆仑塔什库尔干布伦阔勒群的岩石地球化学特征及变质P-T轨迹[J].岩石学报,2013,29(3):923-937.
LIU Wen-ping,WANG He,TONG Xi-lai,et al.Geochemical Characteristics and Metamorphic P-T轨迹[J].岩石学报,2013,29(3):923-937.
LIU Wen-ping,WANG He,TONG Xi-lai,et al.Geochemical Characteristics and Metamorphic ths of the Bulunkuole Group in Taxkorgan,Western Kunlun[J].Acta Petrologica Sinica,2013,29(3):923-937.
[59] 柯 珊,莫宣学,罗照华,等.塔什库尔干新生代碱性杂岩的地球化学特征及岩石成因[J].岩石学报,2006,22(4):905-915.
KE Shan,MO Xuan-xue,LUO Zhao-hua,et al.Petrogenesis and Geochemistry of Cenozoic Taxkorgan Alkalic Complex and Its Geological Significance[J].Acta Petrologica Sinica,2006,22(4):905-915.
[60] ZHANG Y F,TAN H B,ZHANG W J,et al.Geoche-mical Constraint on Origin and Evolution of Solutes in Geothermal Springs in Western Yunnan,China[J].Chemie der Erde:Geochemistry,2016,76(1):63-75.
[61] GÖB S,LOGES A,NOLDE N,et al.Major and Trace Element Compositions(Including REE)of Mineral,Thermal,Mine and Surface Waters in SW Germany and Implications for Water-rock Interaction[J].Applied Geochemistry,2013,33:127-152.
[62] 孙丽莎.西昆仑塔什库尔干大河口一带斜长角闪岩岩石地球化学特征及成因探讨[J].山东国土资源,2019,35(11):21-27.
SUN Li-sha.Study on Geochemical Characteristics and the Origin of Amphibolite in Dahekou Area in Tashkurgan in Western Kunlun[J].Shandong Land and Resources,2019,35(11):21-27.
[63] FENG X B,QIU G L.Mercury Pollution in Guizhou,Southwestern China:An Overview[J].Science of the Total Environment,2008,400(1/2/3):227-237.
[64] 邓娅敏.河套盆地西部高砷地下水系统中的地球化学过程研究[D].武汉:中国地质大学,2008.
DENG Ya-min.Geochemical Proeesses of High Arsenic Groundwater System at Western Hetao Basin[D].Wuhan:China University of Geosciences,2008.
[65] BARBIERI M,BOSCHETTI T,PETITTA M,et al.Stable Isotope(2H,18O and 87Sr/86Sr)and Hydrochemistry Monitoring for Groundwater Hydrodyna-mics Analysis in a Karst Aquifer(Gran Sasso,Central Italy)[J].Applied Geochemistry,2005,20(11):2063-2081.
[66] IHIENFELD C,NORMAN M D,GAGAN M K,et al.Climatic Significance of Seasonal Trace Element and Stable Isotope Variations in a Modern Freshwater Tufa[J].Geochimica et Cosmochimica Acta,2003,67(13):2341-2357.
[67] ZHANG Y,SILLANP M,LI C,et al.River Water Quality Across the Himalayan Regions:Elemental Concentrations in Headwaters of Yarlung Tsangbo,Indus and Ganges River[J].Environmental Earth Sciences,2015,73(8):4151-4163.
[68] 赵佳怡,张 薇,张汉雄,等.四川巴塘地热田水文地球化学特征及成因[J].水文地质工程地质,2019,46(4):81-89.
ZHAO Jia-yi,ZHANG Wei,ZHANG Han-xiong,et al.Hydrogeochemical Characteristics and Genesis of the Geothermal Fields in Batang of Sichuan[J].Hydro-geology and Engineering Geology,2019,46(4):81-89.
[69] 郎旭娟,蔺文静,刘志明,等.贵德盆地地下热水水文地球化学特征[J].地球科学,2016,41(10):1723-1734.
LANG Xu-juan,LIN Wen-jing,LIU Zhi-ming,et al.Hydrochemical Characteristics of Geothermal Water in Guide Basin[J].Earth Science,2016,41(10):1723-1734.
[70] 李永革,蔺文静,邢林啸,等.青海省恰卜恰地区深部热储温度估算[J].地质与资源,2021,30(4):479-484,511.
LI Yong-ge,LIN Wen-jing,XING Lin-xiao,et al.Estimation of Deep Geothermal Reservoir Temperature in Qabqa Area,Qinghai Province[J].Geology and Resources,2021,30(4):479-484,511.
[71] 姜光政,高 堋,饶 松,等.中国大陆地区大地热流数据汇编(第四版)[J].地球物理学报,2016,59(8):2892-2910.
JIANG Guang-zheng,GAO Peng,RAO Song,et al.Compilation of Heat Flow Data in the Continental Area of China(4th Edition)[J].Chinese Journal of Geophysics,2016,59(8):2892-2910.

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备注/Memo

备注/Memo:
收稿日期:2021-11-13; 修回日期:2022-01-14投稿网址:http:∥jese.chd.edu.cn/
基金项目:中国地震局地震预测研究所基本科研业务费项目(CEAIEF2022030205,CEAIEF20220507,CEAIEF20220213,2021IEF0101,2021IEF1201); 国家重点研发计划项目(2017YFC1500501-05,2019YFC1509203); 国家自然科学基金项目(41673106,42073063,4193000170)
作者简介:庄思蝶(1999-),女,河南漯河人,中国地质大学(北京)工学硕士研究生,E-mail:zhuangsidie@163.com。
*通讯作者:周晓成(1978-),男,新疆玛纳斯人,研究员,理学博士,E-mail:zhouxiaocheng188@163.com。
更新日期/Last Update: 2022-07-30