The groundwater quality and suggestion on groundwater exploitation in Xiamen, Fujian

LI Zhenghong; HAO Qichen; LI Yasong; LI Jianfeng; ZHU Yuchen; LI Qian

doi:10.16788/j.hddz.32-1865/P.2022.01.004

2022 Vol. 43, No. 1

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Article navigation > East China Geology > 2022 > 43(1): 40-48

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LI Zhenghong, HAO Qichen, LI Yasong, LI Jianfeng, ZHU Yuchen, LI Qian. 2022. The groundwater quality and suggestion on groundwater exploitation in Xiamen, Fujian. East China Geology, 43(1): 40-48. doi: 10.16788/j.hddz.32-1865/P.2022.01.004

Citation:

LI Zhenghong, HAO Qichen, LI Yasong, LI Jianfeng, ZHU Yuchen, LI Qian. 2022. The groundwater quality and suggestion on groundwater exploitation in Xiamen, Fujian. East China Geology, 43(1): 40-48. doi: 10.16788/j.hddz.32-1865/P.2022.01.004

The groundwater quality and suggestion on groundwater exploitation in Xiamen, Fujian

1. Institute of Hydrogeology and Environmental Geology, Chinese Academy of Geological Sciences, Shijiazhuang 050061, Hebei, China;
2. Key Laboratory of Groundwater Sciences and Engineering, Ministry of Natural Resources, Shijiazhuang 050061, Hebei, China;
3. The eighth Geology Party, Hebei Bureau of Geology and Mineral Exploration and Development(Hebei Marine Geological Resources Survey Center), Qinhuangdao 066000, Hebei, China

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Corresponding author: HAO Qichen, haoqichen_iheg@163.com

Received Date: 09 June 2021

Revised Date: 13 September 2021

Abstract

Abstract

Groundwater quality and pollution have become important factors restricting urban development. Based on the systematic and comprehensive analysis of organic and inorganic chemical components, the groundwater quality in the plain area of Xiamen City was comprehensively evaluated according to the "groundwater standard" and "mineral water standard", and the formation reason of inferior water was analyzed. The results show that the overall quality of shallow groundwater in Xiamen is ordinary, which consists of 22.9% directly potable water, 59.8% potable water after proper treatment, and 17.3% impotable water. The main factors affecting the groundwater quality are the inorganic components including pH value, Mn and Fe, which are related to the primary geological environment, and the inorganic components such as NO₃^-, Pb and organic components such as dichloromethane, which are resulted from human activities. The content of trace components of H₂SiO₃ and Sr, which are beneficial to human health, is generally high in groundwater. Among the 87 groups of samples, 17 groups are high H₂SiO₃ and Sr element groundwater, better than the standards of "the rank III groundwater" and "mineral water", which can be listed as superior natural mineral potable water with medical value. Based on the principle of "The high-quality water shall be used optimally and exploited according to needs", from the perspective of drinking water safety, the suggestions of scientific and orderly exploitation of high-quality mineral water, moderate exploitation of good-quality water and emergency utilization of inferior primary water were put forward for the utilization of groundwater in Xiamen.
- Xiamen /
- groundwater quality /
- influence factor /
- mineral water /
- exploitation

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References

[1]	黄初龙,郑朝洪.福建省水资源供需平衡区域差异分析[J].资源科学,2009,31(5):750-756. Google Scholar HUANG C L, ZHENG C H. Spatial differentiation of water resources supply and demand balance in Fujian Province[J]. Resources Science,2009,31(5):750-756. Google Scholar
[2]	徐祥清."以海代淡"是厦门水资源可持续发展之良策[J].台湾海峡,1999,18(4):450-455. Google Scholar XU X Q. Desalination of seawater is most effective way to solve water shortage in Xiamen[J]. Taiwan Strait,1999, 18(4):450-455. Google Scholar
[3]	谢季遥,陈星,许钦.城镇化对厦门市水资源脆弱性的影响评价[J].水电能源科学,2020,28(4):18-21. Google Scholar XIE J Y,CHEN X,XU Q. Impact of urbanization on water resources vulnerability in Xiamen City[J]. Water Resources and Power,2020,28(4):18-21. Google Scholar
[4]	黄浩,陈彬,刘正华,等.厦门岛西水东调对海岛地下水质的影响分析[J].工程地质学报,2008,16(5):688-693. Google Scholar HUANG H, CHEN B, LIU Z H,et al. Impact of west to east sea water diversion project on groundwater quality in Xiamen island[J].Journal of Engineer Geoloty,2008,16(5):688-693. Google Scholar
[5]	林玉锦,林建平.福建省主要城市地下水环境质量[C]//中国地质调查局.全国主要城市环境地质调查评价学术交流会议论文集.北京:地质出版社,2010:73-80. Google Scholar LIN Y J,LIN J P. Groundwater environmental quality of major cities in Fujian Province[C]//China Geological Survey. Proceedings of the Academic Exchange Conference on Environmental Geological Survey and Evaluation of Major Cities in China. Beijing:Geological Publishing House,2010:73-80. Google Scholar
[6]	伍成成.滨海地区浅层地下水质量现状评价[J].地下水,2014,36(5):79-80. Google Scholar WU C C. Evaluation of shallow groundwater quality in coastal area[J]. Ground Water,2014,36(5):79-80. Google Scholar
[7]	中国疾病预防控制中心环境与健康相关产品安全所. GB/T5750-2006生活饮用水标准检验方法[S].北京:中国标准出版社,2007:50-490. Google Scholar Institute of Environmental and Health-related Product Safety, Chinese Center for Disease Control and Prevention. GB/T5750-2006 Standard examination methods for drinking water[S].Beijing:China Standards Press,2007:50-490. Google Scholar
[8]	中国饮料工业协会. GB 8538-2016食品安全国家标准饮用天然矿泉水检验方法[S].北京:中国质检出版社,2017:1-187. Google Scholar China Beverage Industry Association. GB 8538-2016 National standard for food safety-Inspection method for natural mineral water for drinking[S].Beijing:China Quality Inspection Press,2017:1-187. Google Scholar
[9]	中国地质调查局.GB/T14848-2017地下水质量标准[S].北京:中国环境科学出版社,2017:1-14. Google Scholar China Geological Survey. GB/T14848-2017 Standard for groundwater quality[S].Beijing:China Environmental Science Press, 2017:1-14. Google Scholar
[10]	中国食品发酵工业研究院.GB 8537-2018食品安全国家标准饮用天然矿泉水[S].北京:中国标准出版社,2018:1-3. Google Scholar China Food Fermentation Industry Research Institute.GB 8537-2018 National standard for food safety Natural mineral water for drinking[S].Beijing:China Standards Press,2018:1-3. Google Scholar
[11]	孙跃,刘中刚,侯香梦,等.安徽合肥地区浅层地下水质量评价[J].华东地质,2019,40(1):74-80. Google Scholar SUN Y, LIU Z G, HOU X M,et al. Quality assessment for shallow groundwater in the Hefei area, Anhui Province[J]. East China Geological,2019,40(1):74-80. Google Scholar
[12]	王文俊.福建多目标区域地球化学调查成果及其应用[J].福建地质,2018,37(2):146-156. Google Scholar WANG W J. Achievements of the multi-purpose geochemistry survey in Fujian Province, and their application[J]. Geology of Fujian, 2018,37(2):146-156. Google Scholar
[13]	黄炎,陈国光,李雪平.武夷山茶叶品质与土壤地球化学背景特征关系探讨[J].华东地质,2020,41(2):166-176. Google Scholar HUANG Y,CHEN G G,LI X P.Discussion on the relationship between Wuyishan tea quality and geochemistry background characteristics[J].East China Geology, 2020,41(2):166-176. Google Scholar
[14]	沈照理,朱宛华,钟佐燊.水文地球化学基础[M].北京:地质出版社,1993:77-44. Google Scholar SHEN Z L, ZHU W H, ZHONG Z X. Fundamentals of hydrogeochemistry[M].Beijing:Geological Publishing House,1993:77-44. Google Scholar
[15]	王旭全.福建省城镇地下水环境质量状况及污染原因分析[J].福建地质科技情报,1991(3):1-7. Google Scholar WANG X Q. Analysis of groundwater environmental quality and pollution cause in Fujian province[J]. Fujian Geological Science and technology information,1991(3):1-7. Google Scholar
[16]	KATHRINA W, CHRISTINE H, ERWIN S. Groundwater nitrate contamination:Factors and indicators[J]. Journal of Environmental Management, 2012(111):178-186. Google Scholar
[17]	朱珍香,高肖飞,彭凤,等. 厦门后溪水质与流域景观特征沿城乡梯度的变化分析[J].生态学报,2019,39(6):2021-2033. Google Scholar ZHU Z X, GAO X F, PENG F, et al. Relationship between water quality and landscape characteristics of the Houxi River watershed in Xiamen City along a rural-urban gradient.Acta Ecologica Sinica,2019,39(6):2021-2033. Google Scholar
[18]	中国环境科学研究院.GB 3838-2002地表水环境质量标准[S].北京:中国环境科学出版社,2002:1-9. Google Scholar Chinese Academy of Environmental Sciences.GB 3838-2002 Environmental quality standards for surface water[S].Beijing:China Environmental Science Press,2002:1-9. Google Scholar
[19]	袁建飞,邓国仕,徐芬,等.毕节市北部岩溶地下水水化学特征及影响因素的多元统计分析[J].中国地质,2016,43(4):1446-1456. Google Scholar YUAN J F, DENG G S, XU F, et al. The multivariate statistical analysis of chemical characteristics and influencing factors of karst groundwater in the northern part of Bijie City, Guizhou Province[J]. Geology in China, 2016, 43(4):1446-1456. Google Scholar
[20]	GEOPHREY A,ABASS G,DICKSON A. Tracking nitrate sources in groundwater and associated health risk for rural communities in the white Volta River basin of Ghana using isotopic approach(δ¹⁵N、δ¹⁸O NO₃ and ³H)[J]. Science of The Total Environment, 2017,(603/604):687-698. Google Scholar
[21]	FETTER C W.污染水文地质学[M].周念清,黄勇,译.北京:高等教育出版社, 2011:254-261. Google Scholar FETTER C W. Contaminant Hydrogeology[M].ZHOU N Q,HUANG Y, translator. Beijing:Higher Education Press, 2011:254-261. Google Scholar
[22]	龙必能. 文山县饮用水水源铁锰超标调查研究、处理方法及建议[J].环境科学导刊,2007,26(2):91-93. Google Scholar LONG B N.Investigation and Treatment Method and Suggestion of overproof Manganese and iron in drinking water source of Wenshan County[J]. Environmental Science Guide,2007,26(2):91-93. Google Scholar