Journal of Jilin University(Earth Science Edition) ›› 2021, Vol. 51 ›› Issue (6): 1823-1837.doi: 10.13278/j.cnki.jjuese.20200204

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Dynamic Characteristics of Karst Groundwater in Jinci Spring Under Superimposed Influence of Natural and Human Activities

Wang Zhiheng1,2, Liang Yongping1,2, Shen Haoyong1,2, Zhao Chunhong1,2, Tang Chunlei1,2, Xie Hao1,2, Zhao Yi1,2   

  1. 1. Key Laboratory of Karst Dynamics, MNR & GZAR, Guilin 541004, Guangxi, China;
    2. Institute of Karst Geology, CAGS, Guilin 541004, Guangxi, China
  • Received:2020-09-15 Online:2021-11-26 Published:2021-11-24
  • Supported by:
    Supported by the National Natural Science Foundation of China (41902256),the Project of China Geological Survey (DD20190334, DD20160242) and the Basic Research Business Project of Chinese Academy of Geological Sciences (2020010, 2017023, JYYWF20182004)

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Abstract: In order to find out the reasons for the cut-off of Jinci Spring in Shanxi and the decline and rise of the spring mouth water level in recent years, and provide theoretical reference for spring reflow work, the annual and inter-annual dynamic characteristics of different hydrodynamic zones in Jinci Spring were analyzed based on a long series of meteorological, hydrological, mining, spring discharge and groundwater level data. The influencing factors of the karst groundwater level change in Jinci Spring area in different historical periods were discussed from the aspects of natural climate and human activities. The result shows that:From 1956 to 1994, because the artificial mining volume reached the historical peak in the 1980s and 1990s(at one time exceeded 2.4 m3/s), and after the 1980s, the development trend of drought in Northern China became more serious, the water flow of Jinci Spring gradually decreased until it ceased to flow; From 1994 to 2008, although the amount of artificial mining decreased to a certain extent, it remained at about 2.0 m3/s and coincided with consecutive dry years the precipitation and river runoff decreased by 11% and 27% respectively compared with the multi-year average value,and at this period, the water level at the spring mouth rapidly decreased to the lowest value in history; Since 2008, it has entered a relatively wet period, through taking a number of measures to reduce the exploitation of karst water in the spring area, the water level of Fenhe Reservoir Ⅱhas gradually increased, and its leakage or recharge of karst water has reached the discharge area of the spring area after a lag of about 2 a, and the water level of the Jinci Spring mouth has gradually increased in recent years.

Key words: Jinci Spring, karst water, water level dynamics, influence factor

CLC Number: 

  • P641.69
[1] Liang Yongping, Gao Xubo, Zhao Chunhong, et al. Review Characterization, Evolution, and Environmental Issues of Karst Water Systems in Northern China[J]. Hydrogeology Journal, 2018,26:1371-1385.
[2] 申豪勇,梁永平,赵春红, 等. 古堆泉岩溶地下水系统特征及系统圈划[J]. 吉林大学学报(地球科学版), 2020, 50(1):217-225. Shen Haoyong, Liang Yongping, Zhao Chunhong, et al. Hydro-Geological Characteristics and Demarcation of Gudui Spring Karst Groundwater System[J]. Journal of Jilin University (Earth Science Edition), 2020, 50(1):217-225.
[3] 梁永平,张发旺,申豪勇, 等. 山西太原晋祠-兰村泉水复流的岩溶水文地质条件新认识[J]. 水文地质工程地质, 2019, 46(1):11-18,34. Liang Yongping, Zhang Fawang, Shen Haoyong, et al. Recognition of the Critical Hydrogeological Conditions of the Jinci Spring and Lancun Spring in Shanxi[J]. Hydrogeology and Engineering Geology, 2019, 46(1):11-18,34.
[4] 束龙仓,王小博,李虎, 等. 地铁施工对济南白泉泉群流量的影响[J]. 吉林大学学报(地球科学版), 2021, 51(1):192-200. Shu Longcang, Wang Xiaobo, Li Hu, et al. Impact of Subway Construction on Flow of Baiquan Spring Group in Jinan[J]. Journal of Jilin University (Earth Science Edition), 2021, 51(1):192-200.
[5] 梁永平, 韩行瑞, 王维泰, 等.中国北方岩溶地下水环境问题与保护[M]. 北京:地质出版社, 2013. Liang Yongping, Han Xingrui,Wang Weitai, et al. The Karst Groundwater Environmental Problems and Protection of Northern China[M]. Beijing:Geological Publishing House, 2013.
[6] 山西省水利厅, 中国地质科学院岩溶地质研究所,山西省水资源管理委员会.山西省岩溶泉域水资源保护[M].北京:中国水利水电出版社,2007:64-75. Department of Water Resources of Shanxi Province, Institute of Karst Geology, Chinese Academy of Geological Sciences, Shanxi Provincial Water Resources Management Committee. Water Resources Protection of Karst Spring Area in Shanxi Province[M]. Beijing:China Water Resources and Hydropower Press, 2007:64-75.
[7] 郭芳芳, 梁永平, 王志恒, 等. 山西太原西山汾河二库的泉域归属及其渗漏量计算[J]. 中国岩溶, 2018, 37(4):493-500. Guo Fangfang,Liang Yongping, Wang Zhiheng,et al. Attribution of Spring Fields and Seepage Calculation of Fenhe Second Reservoir in Xishan,Taiyuan,Shanxi Province[J]. Carsologica Sinica,2018,37(4):493-500.
[8] 吴晓芳, 苏小四, 冯玉明. 兰村泉域岩溶水位动态遗传回归模型与岩溶地下水保护[J].吉林大学学报(地球科学版), 2006,36(增刊1):60-64,79. Wu Xiaofang, Su Xiaosi, Feng Yuming. GA-Regression Model of Karst Water Level Dynamic in Lancun Spring Area and the Karst Water Protection[J]. Journal of Jilin University (Earth Science Edition), 2006,36(Sup.1):60-64,79.
[9] 冯玉明, 李林. 人类活动对晋祠泉的影响及晋祠泉复流条件分析[J]. 山西科技, 2000(增刊1):52-54. Feng Yuming, Li Lin. Influence of Human Activities on Jinci Spring and Analysis of Its Reflow Conditions[J]. Shanxi Science and Technology, 2000(Sup.1):52-54.
[10] 邢立文, 崔宁博. 基于人工神经网络的晋祠泉水位模拟研究[J]. 人民黄河, 2019, 41(12):63-69. Xing Liwen, Cui Ningbo. Simulation of Jinci Spring Water Level on ANN Models[J]. Yellow River, 2019, 41(12):63-69.
[11] 李扭串. 山西晋祠泉域地下水位回升原因分析[J].山西水利科技, 2017(1):61-63. Li Niuchuan. The Reason Analysis of Groundwater Level Rise in Shanxi Jinci Spring Area[J]. Shanxi Water Conservancy Science and Technology, 2017(1):61-63.
[12] 晋华, 杨锁林, 郑秀清, 李慈君.晋祠岩溶泉流量衰竭分析[J]. 太原理工大学学报, 2005, 36(4):488-490. Jin Hua, Yang Suolin, Zheng Xiuqing, et al. Analysis of the Reduction of Jinci Springs[J]. Journal of Taiyuan University of Technology, 2005, 36(4):488-490.
[13] 殷丹, 苏小四, 李砚阁, 等.ANN技术在岩溶地下水可开采量评价中的应用:以山西晋祠泉域为例[J]. 吉林大学学报(地球科学版), 2006,36(增刊1):55-59. Yin Dan, Su Xiaosi, Li Yange, et al. Usage of Artificial Neural Networks Technique in Karst Water Recoverable Reserve Evaluation:Give an Example of Shanxi Jinci Spring[J]. Journal of Jilin University (Earth Science Edition), 2006,36(Sup.1):55-59.
[14] 闫丽, 张永波. 太原市兰村泉域岩溶地下水可持续开发利用与调控研究[J]. 水力发电,2015, 41(6):18-22. Yan Li, Zhang Yongbo. Study on Sustainable Developmental Utilization and Regulation of Taiyuan Lancun Karst Groundwater[J]. Water Power, 2015, 41(6):18-22.
[15] 王志恒, 梁永平, 唐春雷, 等.北方断流岩溶大泉复流的生态修复模式与复流措施效果的定量评价:以太原晋祠泉为例[J]. 中国地质, 2020, 47(6):1726-1738. Wang Zhiheng, Liang Yongping,Tang Chunlei, et al. Ecological Restoration Pattern and Quantitative Evaluation of Recirculation Measures for Northern Discontinuous Karst Spring:A Case Study on Jinci Spring in Taiyuan City[J]. Geology of China, 2020, 47(6):1726-1738.
[16] 杨锁林. 晋祠泉流量衰减分析[J].山西水利,2005(6):81-83. Yang Suolin. Flow Attenuation Analysis of Jinci Spring[J]. Shanxi Water Resources, 2005(6):81-83.
[17] 赵伟丽. 晋祠泉域地下水动态研究及保护措施[J].山西水利, 2014(6):18-19. Zhao Weili. Groundwater Dynamic Research and Protection Measures in Jinci Spring Area[J]. Shanxi Water Resources, 2014(6):18-19.
[18] 魏凤英. 现代气候统计诊断与预测技术[M]. 2版. 北京:气象出版社, 2007. Wei Fengying.Modern Climate Statistical Diagnosis and Prediction Technology[M]. 2nd ed. Beijing:Meteorological Press, 2007.
[19] 胡子瑛, 周俊菊, 张利利, 等.中国北方气候干湿变化及干旱演变特征[J].生态学报, 2018, 38(6):1908-1919. Hu Ziying, Zhou Junju,Zhang Lili, et al. Climate Dry-Wet Change and Drought Evolution Characteristics of Different Dry-Wet Areas in Northern China[J]. Acta Ecologica Sinica, 2018, 38(6):1908-1919.
[20] 孙才志, 陈光, 杨静, 等.山西省黄河流域地下水资源分布特征、开采潜力与用水对策分析[J].吉林大学学报(地球科学版), 2004,34(3):410-414. Sun Caizhi, Chen Guang, Yang Jing, et al. Research on Groundwater Resources' Distributing Properties, Developing Potential and Its Utilizing Countermeasures in Yellow River, Shanxi Province[J]. Journal of Jilin University (Earth Science Edition), 2004,34(3):410-414.
[21] 袁崇桓. 山西娘子关泉降水入渗系数的计算及陶凯"Turc"公式使用条件[M]//中国北方岩溶和岩溶水. 南宁:广西师范大学出版社, 1982:186-191. Yuan Chonghuan. Calculation of Precipitation Infiltration Coefficient of Niangziguan Spring in Shanxi Province and the Conditions of Using Taokai's "Turc" Formula[M]//Karst and Karst Water in Northern China. Nanning:Guangxi Normal University Press, 1982:186-191.
[22] 徐爽, 李德永, 王瑞久, 等. 太原西山地区岩溶水资源评价研究[R]. 太原:山西省地质工程勘察院, 1984. Xu Shuang, Li Deyong, Wang Ruijiu, et al. Study on Evaluation of Karst Water Resources in Western Mountain Area of Taiyuan[R]. Taiyuan:Shanxi Geological Engineering Survey Institute, 1984.
[23] 乔小娟, 李国敏, 周金龙, 等.采煤对地下水资源与环境的影响分析:以山西太原西山煤矿开采区为例[J].水资源保护, 2010, 26(1):49-52. Qiao Xiaojuan, Li Guomin,Zhou Jinlong, et al. Analysis of Influence of Coal Exploitation on Water Resources and Environment:A Case Study of Coal Exploitation in Western Mountain of Taiyuan City[J]. Water Resources Protection, 2010, 26(1):49-52.
[24] 周永红. 汾河二库蓄水至正常水位后对周边地下水影响分析[J].山西水利, 2015(12):1-2. Zhou Yonghong. Analysis on the Impact of Fenhe Second Reservoir on Surrounding Groundwater After Impoundment to Normal Water Level[J]. Shanxi Hydrotechnics, 2015(12):1-2.
[25] 地下水超采区评价导则:GB/T 34968-2017[S]. 北京:中国标准出版社, 2017. Guidelines for the Assessment of Groundwater Overexploitation Zones:GB/T 34968-2017[S]. Beijing:Standards Press of China, 2017.
[26] 李辉. 试论万家寨引黄工程太原供水区水资源管理[J]. 科技情报开发与经济, 2011, 21(16):166-169. Li Hui. Discussion on Water Resources Management in Taiyuan Water-Supply Area of Shanxi Wanjiazhai Yellow River Diversion Project(YRDP)[J]. Sci-Tech Information Development & Economy, 2011, 21(16):166-169.
[27] 栾清华, 李玮, 刘家宏, 等.汾河清水复流工程生态影响及价值评价[J]. 人民黄河, 2015, 37(5):62-65. Luan Qinghua, Li Wei, Liu Jiahong, et al. Ecological Influence and Value Evaluation of Fenhe River Water Diversion in Order to Reflow[J]. Yellow River, 2015, 37(5):62-65.
[28] 中国水利水电科学研究院.汾河清水复流工程水量调度方案[R]. 太原:山西省水利厅,2008. China Academy of Water Resources and Hydropower. Water Regulation Scheme of Fenhe Clear Water Re flow Project[R]. Taiyuan:Shanxi Provincial Department of Water Resources, 2008.
[29] 薛禹群, 朱学愚, 吴吉春, 等.地下水动力学[M]. 北京:中国地质出版社, 1997. Xue Yuqun, Zhu Xueyu,Wu Jichun, et al. Groundwater Dynamics[M]. Beijing:China Geological Publishing House, 1997.
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