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Volume 39 Issue 1
Feb.  2020
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Article Navigation >  CARSOLOGICA SINICA  > 2020  >  39(1): 42-47
ZHANG Lang, LI Jun, PAN Xiaodong, HUANG Xiaorong, PENG Cong. Tracer test and analysis of groundwater system in a karst area of southwest China[J]. CARSOLOGICA SINICA, 2020, 39(1): 42-47. doi: 10.11932/karst2019y36
Citation: ZHANG Lang, LI Jun, PAN Xiaodong, HUANG Xiaorong, PENG Cong. Tracer test and analysis of groundwater system in a karst area of southwest China[J]. CARSOLOGICA SINICA, 2020, 39(1): 42-47. doi: 10.11932/karst2019y36
shu

Tracer test and analysis of groundwater system in a karst area of southwest China

doi: 10.11932/karst2019y36
  • 1.

    College of Water Resources and Hydrology,Sichuan University, Chengdu 610065,China

  • 2.

    Institute of Karst Geology, CAGS/Key Laboratory of Karst Dynamics, MNR & GZAR, Guilin, Guangxi 541004,China

  • Publish Date: 2020-02-25
    Abstract
  • The study area is located in a karst area of Sichuan Province in southwest China. It hosts intense karst development and complex hydrogeological conditions, where underground karst forms include caves, fissures and conduits. Taking this typical karst area as an example, this paper analyzes the application of tracer tests in karst conduit connectivity and acquisition of hydrogeological parameters, analyzes the karst groundwater runoff regular pattern, and estimates the structural characteristics and hydrogeological parameters of karst underground aquifers. These data will facilitate rapid and accurate determination of the scope of groundwater recharge, analyzing the causes of spring discharge cutoff and pollution, and providing a basis for spring protection. First, a sinkhole is selected as the release point, and the groundwater dew point is taken as the receiving point to judge the actual direction of the underground runoff and the hydraulic relation from the west side and the east side of sinkhole respectively. A quantitative analysis of breakthrough curves of the tracers is carried out by Qtracer2, and the tracer recovery rate, average groundwater velocity, maximum velocity, structural characteristics and hydrogeological parameters of the karst conduit are determined. The results show that there is no direct hydraulic relation between the sinkhole and the receiving points JS01 and JS03. While there is a hydraulic link between the sinkhole and the receiving point JS02, where the karst conduit extremely developed, the aquifer medium is uneven, and the groundwater movement path is relatively smooth, which is a typical turbulent flow state. The main direction of the underground runoff of the sinkhole is from west to east. In the period of heavy rainfall during the wet season, the point JS04 can receive sodium fluorescein, indicating that the underground water level increases during the wet season, which will lead to discharge of partial water volume to the west side of the sinkhole.

     

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    • References(22)
  • [1]
    郭纯青.中国岩溶生态水文学 [M].北京:地质出版社,2007:100-101.
    [2]
    Goldscheider N, Drew D. 编;陈宏峰等译. 岩溶水文地质学方法[M].北京:科学出版社,2015:1-4.
    [3]
    赵良杰,夏日元,易连兴,等.基于流量衰减曲线的岩溶含水层水文地质参数推求方法[J].吉林大学学报(地球科学版),2015,45(6):1817-1821.
    [4]
    郑健,陈喜,张志才.抽水试验法推求南方岩溶地区双重介质水文地质参数[J].工程勘察,2014,42(1):42-46,58.
    [5]
    张江华,梁永平,王维泰,等.硫同位素技术在北方岩溶水资源调查中的应用实例[J].中国岩溶,2009,28(3):235-241.
    [6]
    姜光辉,郭芳,于奭.岩溶水系统的水化学曲线及其在水文地质研究中的应用[J].吉林大学学报(地球科学版),2015,45(3):899-907.
    [7]
    武毅,孙银行,李凤哲.西南岩溶地区不同含水介质地球物理勘查技术[J].中国岩溶,2011,30(3):278-284.
    [8]
    赵一,李衍青,覃星铭,等.南洞地下河岩溶管道展布及结构特征的示踪试验解析[J].中国岩溶,2017,36(2):226-233.
    [9]
    张勤军,张亚年,贝为昶.广西布泉地下河发育特征及连通性分析[J].中国地质调查,2019,6(2):100-105.
    [10]
    袁伟,王川.贵州盘县乐民河流域三股水岩溶泉水文地质条件分析[J].地质学刊,2017,41(4):655-662.
    [11]
    陈雪彬,周军,蓝家程,等.基于在线示踪技术的岩溶地下河流场反演与水文地质参数估算[J].中国岩溶,2013,32(2):148-152.
    [12]
    谢国文,杨平恒,卢丙清,等.基于高分辨率示踪技术的岩溶隧道涌水来源识别及含水介质研究[J].中国岩溶,2018,37(6):892-899.
    [13]
    王开然,姜光辉,郭芳,等.桂林东区峰林平原岩溶地下水示踪试验与分析[J].现代地质,2013,27(2):454-459.
    [14]
    徐尚全,王鹏,焦杰松,等.高精度在线示踪技术在岩溶地下水文调查中的应用[J].工程勘察,2013,41(2):40-44.
    [15]
    常勇,吴吉春,刘玲,等.岩溶泉流量衰减曲线分析[J].水文,2016,36(1):15-21.
    [16]
    易连兴,赵良杰,卢海平,等.两种常用染色剂管道及淤泥条件下示踪及对比:以丁旗地下河连通试验为例[J].中国岩溶,2017,36(5):721-726.
    [17]
    Field MS. The QTRACER2 Program for Tracer Breakthrough Curve Analysis for Tracer Tests in Karstic Aquifer and Other Hydrologic Systems[R]. US:EPA,2002.
    [18]
    杨平恒,袁道先,蓝家程,等.基于在线高分辨率监测和定量计算的岩溶地下水示踪试验[J].西南大学学报(自然科学版),2013,35(2):103-108.
    [19]
    Gold Scheider N,Meiman J,Pronk M,et al.Tracer tests in karst hydrogeology and speleology[J].International Journal of Speleology,2008,37(1) : 27-40.
    [20]
    鲁程鹏,束龙仓,苑利波,等.基于示踪试验求解岩溶含水层水文地质参数[J].吉林大学学报(地球科学版),2009,39(4):717-721.
    [21]
    杨立铮,刘俊业.试用示踪剂浓度-时间曲线分析岩溶管道的结构特征[J].成都地质学院学报,1979(4):44-49.
    [22]
    Smart C. Artificial tracer techniques for the determination of the structure of conduit aquifers [J]. Ground Water,1988,26 (4) : 445-453.
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