• ISSN 2305-7068
  • Indexed by ESCI CABI CAS
  • DOAJ EBSCO Scopus GeoRef AJ CNKI
Advanced Search
Volume 3 Issue 4
Dec.  2015
Turn off MathJax
Article Contents
FEI Yu-hong, ZHANG Zhao-ji, LI Ya-song, et al. 2015: Quality evaluation of groundwater in the North China Plain. Journal of Groundwater Science and Engineering, 3(4): 306-315.
Citation: FEI Yu-hong, ZHANG Zhao-ji, LI Ya-song, et al. 2015: Quality evaluation of groundwater in the North China Plain. Journal of Groundwater Science and Engineering, 3(4): 306-315.

Quality evaluation of groundwater in the North China Plain

  • Publish Date: 2015-12-28
  • This paper presents a method combining single-indicator comprehensive evaluation and influence factor identification to measure groundwater quality. This method not only reflects groundwater quality classification with clear physical significance, but also divides the possibilities of man-made pollution in regional groundwater. The paper selects 6 063 representative groundwater wells in the North China Plain to evaluate 49 groundwater inorganic and organic index and comes to a conclusion: Controlled by geological environment and hydrogeological conditions, the groundwater quality in the North China Plain deteriorates from the bottom of maintain to coastal area, with Class I to III groundwater decreasing from 49% to 3.9% while Class V groundwater increasing from 21% to 86.9%; the quality of deep groundwater is better than that of shallow groundwater; the contribution rate of manganese, total hardness, total dissolved solids and iodide in shallow groundwater to over-III type water exceeds 50%; the contribution rate of nitrite in pollution index reaches 20%; while heavy metal and organic indexes have limited impact on regional groundwater quality. The North China Plain is an important economic area in China. Over decades, it has witnessed intense human activities, and water resource quantity demanded has been far greater than quantity supplied. Due to scarce surface water resource, groundwater becomes the pillar supporting regional economic development. This has led to increasing groundwater exploitation and development. According to statistics, the exploitation degree of shallow groundwater reaches 105% in the North China Plain and 118% in the Hebei Plain; the exploitation degree of deep groundwater reaches 143% in the North China Plain and 163% in the Hebei Plain. The serious over-exploitation of groundwater brings various geological environmental problems, with the worsening of groundwater quality being a typical one. Besides impact brought by human activities, the poor quality of natural water in the North China Plain is also an important factor. Therefore, to understand the current regional groundwater quality situation and to master influence factors and influence degree can provide reliable scientific protection for regional economic development.
  • 加载中
  • ZHANG Zhao-ji, FEI Yu-hong. 2009. Sustainable use of groundwater in North China Plain Atlas. Beijing: SinoMaps Press, 5-20.
    State Administration for Quality Supervision and Inspection and Quarantine. 1993. Standards for groundwater quality (GB/T14848-93). Beijing: China Standards Press.
    Sánchez-martos F, Aguilera P A, et al. 2002. Assessment of groundwater quality by means of self-organizing maps: Application in a semiarid area. Environmental Management, 30(5): 716-726.
    GU Zhao-jun, PAN Ying, PAN Ming-jie. 2002. The application and existed problems of Nemero Index in groundwater quality evaluation. Environmental Protection Science. 28(109): 45-47.
    ZHANG Zhao-ji, FEI Yu-hong, et al. 2009. Research and investigation of sustainable utilization of groundwater in the North China Plain. Beijing: Geological Publishing House, 213-214.
    LI Ya-song, ZHANG Zhao-ji, et al. 2014. Groundwater quality and contamination characteristics in the Hutuo River Plain Area, Hebei Province. Acta Geoscientica Sinica, 35(2): 169-176.
    Mogheir Y, De Lima J L M P, Singh V P. 2003. Assessment of spatial structure of groundwater quality variables based on the entropy theory. Hydrology and Earth System Sciences Discussions, 7(5): 707-721.
    ZHANG Guang-hui, LIU Zhong-pei, et al. 2010. The relationship between the distribution of irrigated crops and the supply capability of regional water resources in North China Plain. Acta Geoscientica Sinica, 31(1): 17-22.
    Standardization Administration of China. 2006. Standards for drinking water quality (GB5749-2006). Beijing: China Standards Press.
    Helena B, Pardo R, et al. 2000. Temporal evolution of groundwater composition in an alluvial aquifer (Pisuerga River, Spain) by principal component analysis. Water Research, 34(3): 807-816.
    Shrestha S, Kazama F. 2007. Assessment of surface water quality using multivariate statistical techniques: A case study of the Fuji river basin, Japan. Environmental Modelling & Software, 22(4): 464-475.
    IIinois Environmental Protection Agency Bureau of Water. 2006. IIinois integrated water quality report, Section 303(D)-2006, List 212. Spring?eld: Bureau of Water, Watershed Management Section.
    Mogheir Y, Singh V P, De Lima J L M P. 2006. Spatial assessment and redesign of a ground-water quality monitoring network using entropy theory, Gaza Strip, Pales-tine. Hydrogeology Journal, 14(5): 700-712.
    TAN Ke-yan, LIU Xiao-rui, et al. 2011. Distribution regularity of heavy metals in North China Plain and its significance. Acta Geoscientica Sinica, 32(6):732-738.
    ZHANG Guang-hui, LIU Zhong-pei, et al. 2009. Geohistory characteristics and temporal- spatial diversity of groundwater evolution in North China Plain in Holocene. Acta Geoscientica Sinica, 30(6):848-854.
    FEI Yu-hong, ZHANG Zhao-ji, et al. 2007. An analysis of the influence of human activity and climate change on water resources of the North China Plain. Acta Geoscientica Sinica, 28(6):567-571.
    Reghunath R, Murthy T S, Raghavan B R. 2002. The utility of multivariate statistical techniques in hydrogeochemical studies: An example from Karnataka, India. Water Research, 36(10): 2437-2442.
    State Administration for Quality Supervision and Inspection and Quarantine. 2007. Standards for groundwater quality (GB/T14848-2007) (draft for approval). Beijing: China Standards Press.
    Shankar M R, Mohan G. 2006. Assessment of the groundwater potential and quality in Bhatsa and Kalu river basins of Thane district, western Deccan Volcanic Province of India. Environmental Geology, 49(7): 990- 998.
    WANG Lan-hua, LI Ming-ming, et al. 2014. Pollution characteristics and health risk assessment of heavy metals in soil of a vegetable base in North China. Acta Geoscientica Sinica, 35(2): 191-196.
    ?tambuk-Giljanovi? N. 1999. Water quality evaluation by index in Dalmatia. Water Research, 33(16): 3423-3440.
    LI Ya-song, ZHANG Zhao-ji, et al. 2012. Application of an improved grey clustering method to groundwater quality evaluation. Water Resources Protection, 28(05): 25-28.
  • Relative Articles

    [1] Yan-pei Cheng, Fa-wang Zhang, Hua Dong, Xue-ru Wen, 2024: Groundwater and environmental challenges in Asia, Journal of Groundwater Science and Engineering, 12, 223-236.  doi: 10.26599/JGSE.2024.9280017
    [2] Djafer Khodja Hakim, Aichour Amina, Metaiche Mehdi, Ferhati Ahmed, 2024: Groundwater quality assessment for drinking and irrigation purposes in Boumerdes Region, Algeria, Journal of Groundwater Science and Engineering, 12, 397-410.  doi: 10.26599/JGSE.2024.9280030
    [3] Rui-fang Meng, Hui-feng Yang, Xi-lin Bao, Bu-yun Xu, Hua Bai, Jin-cheng Li, Ze-xin Liang, 2023: Optimizing groundwater recharge plan in North China Plain to repair shallow groundwater depression zone, China, Journal of Groundwater Science and Engineering, 11, 133-145.  doi: 10.26599/JGSE.2023.9280012
    [4] Khan Tanzeel, Akhtar Malik Muhammad, Malghani Gohram, Akhtar Rabia, 2022: Comparative analysis of bacterial contamination in tap and groundwater: A case study on water quality of Quetta City, an arid zone in Pakistan, Journal of Groundwater Science and Engineering, 10, 153-165.  doi: 10.19637/j.cnki.2305-7068.2022.02.005
    [5] Xiao-xia Tong, Rong Gan, Shu-qian Gu, Xing-le Sun, Kai-tuo Huang, Xiao-feng Yan, 2022: Stable chlorine isotopic signatures and fractionation mechanism of groundwater in Anyang, China, Journal of Groundwater Science and Engineering, 10, 393-404.  doi: 10.19637/j.cnki.2305-7068.2022.04.007
    [6] ZHANG Yu-qin, WANG Guang-wei, WANG Shi-qin, YUAN Rui-qiang, TANG Chang-yuan, SONG Xian-fang, 2018: Hydrochemical characteristics and geochemistry evolution of groundwater in the plain area of the Lake Baiyangdian watershed, North China Plain, Journal of Groundwater Science and Engineering, 6, 220-233.  doi: 10.19637/j.cnki.2305-7068.2018.03.007
    [7] WU Ting-wen, WANG Li-huan, WANG Lin-shu, KONG Qing-xuan, 2018: Evaluation of groundwater quality and pollution in Daqing Oilfield, Journal of Groundwater Science and Engineering, 6, 40-48.  doi: 10.19637/j.cnki.2305-7068.2018.01.005
    [8] WU Ting-wen, WANG Li-huan, YANG Xiang-kui, 2017: Evaluation of groundwater potential and eco-geological environment quality in Sanjiang Plain of Heilongjiang Province, Journal of Groundwater Science and Engineering, 5, 193-201.
    [9] TAO Hong, ZHENG Miao-miao, FAN Li-min, LI Wen-li, DING Jia, LI Hui, HE Xu-bo, TAO Fu-ping, 2017: Research on quality changes and influencing factors of groundwater in the Guanzhong Basin, Journal of Groundwater Science and Engineering, 5, 296-302.
    [10] LIU Ji-chao, SHI Jian-sheng, GAO Ye-xin, REN Zhan-bing, 2016: Exploration on compound water circulation system to solve water resources problems of North China Plain, Journal of Groundwater Science and Engineering, 4, 229-237.
    [11] LIU Hong-wei, Klaus Hisby, ZHOU Yang-xiao, MA Zhen, CHEN She-ming, GUO Xu, 2016: Features and evaluation of sea/saltwater intrusion in southern Laizhou Bay, Journal of Groundwater Science and Engineering, 4, 141-148.
    [12] LIU Min, NIE Zhen-long, WANG Jin-zhe, WANG Li-fang, TIAN Yan-liang, 2016: An assessment of the carrying capacity of groundwater resources in North China Plain region–Analysis of potential for development, Journal of Groundwater Science and Engineering, 4, 174-187.
    [13] WANG Kui-feng, 2016: Evaluation of the water resources carrying capacity of Shandong peninsula, China, Journal of Groundwater Science and Engineering, 4, 120-130.
    [14] YI Qing, GE Li-qiang, CHENG Yan-pei, DONG Hua, LIU Kun, ZHANG Jian-kang, YUE Chen, 2015: Compilation of Groundwater Quality Map and study of hydrogeochemical characteristics of groundwater in Asia, Journal of Groundwater Science and Engineering, 3, 176-185.
    [15] LIU Li-jun, LIU Zhi-gang, LI Dou, ZHANG Shao-cai, CUI Qiu-ping, WANG Juan, 2014: Evaluation of groundwater supply capacity for agricultural drought emergency relief of Hebei Plain, Journal of Groundwater Science and Engineering, 2, 36-45.
    [16] WANG Chun-xiao, ZHANG Zhao-ji, FEI Yu-hong, QIAN Yong, 2014: Research on Migration Features of Salt-Fresh Water Interface on the North China Plain, Journal of Groundwater Science and Engineering, 2, 68-79.
    [17] CHEN Feng, LI Lian-juan, ZHANG Hao, LI Yan, 2014: Evaluation on Water Burst (inrush) Risks on 15# Coal Seam Roof of Shigejie Coal Mine of Shaanxi Lu’an Group, Journal of Groundwater Science and Engineering, 2, 40-46.
    [18] Zhao Wang, Jiansheng Shi, Zhaoji Zhang, Yuhong Fei, 2013: Organic Contamination of Soil and Goundwater in the Piedimont Plain of the Taihang Mountains, Journal of Groundwater Science and Engineering, 1, 74-81.
    [19] Yan Zhang, Shuai Song, Jing Li, Fadong Li, Guangshuai Zhao, Qiang Liu, 2013: Stable Isotope Composition of Rainfall, Surface Water and Groundwater along the Yellow River, Journal of Groundwater Science and Engineering, 1, 82-88.
    [20] Aizhong Ding, Lirong Cheng, Steve Thornton, Wei Huang, David Lerner, 2013: Groundwater quality Management in China, Journal of Groundwater Science and Engineering, 1, 54-59.
  • 加载中

Catalog

    Article Metrics

    Article views (781) PDF downloads(1712) Cited by()
    Proportional views
    Related

    JGSE-ScholarOne Manuscript Launched on June 1, 2024.

    Online Submission

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return