干旱区研究

Arid Zone Research >

2016 , Vol. 33 >Issue 5: 1125 - 1131

DOI: https://doi.org/10.13866/j.azr.2016.05.29

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Spatial Distribution of Fluorion in Water in the Keriya River Basin

  • Namat Tohti ,
  • ZHANG Feng ,
  • SHI Qing-dong
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  • Key Laboratory of Oasis Ecology of Ministry of Education,Xinjiang University,Urumqi 830046,Xinjiang,China

Received date: 2016-01-29

  Revised date: 2016-04-12

  Online published: 2025-12-01

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Abstract

Fluoride is a chemical element with important effects on the biosphere,lithosphere and human health. In this study,21 surface water samples,8 groundwater samples and 1 lake water sample were collected from the Keriya River Basin and the Ulugkol Lake in the Kunlun Mountains in northern marginal zone of the Tibetan Plateau in different seasons from 2014 to 2015. The fluorion content,pH values and total dissolved solids (TDS) were measured. The fluorion content of surface water varied from 0.09 and 6.08 mg·L-1,that of groundwater ranged from 2.68 to 6.0 mg·L-1,and that of lake water was measured as 4.81 mg·L-1. The measured pH values of surface water and groundwater varied from 7.28 to 8.60 and from 7.26 to 7.87 respectively,and the measured pH value of lake water was 8.95. The TDS of surface water and groundwater ranged from 216 to 2 884 mg·L-1 and from 1 113 to 3 884 mg·L-1 respectively,and the TDS of lake water was 17 281 mg·L-1. The results are as follows:① The Ulugkol was a lake with high fluorion content,high alkalinity and high salt content; ② There was basically no seasonal variation of chemical parameters of surface water in the upper reaches. In the middle and lower reaches,however,the fluorion content,EC value,TDS and water hardness (excluding pH valuje) were all notably lower in summer because of flood water dilution,and the fluorion content in river water was higher in winter due to groundwater recharge; ③ The fluorion content and TDS of surface water from the upper to the lower reaches of the Keriya River was holistically increased because of the dissolution of chemical elements and water evaporation. The fluorion content in river water at the upper reaches was much lower than that in the Yutian Oasis and the Daryaboy Oasis. However,the fluorion content in groundwater in the former was higher than that in the latter because of soda salinization;④ There was a good correlation between the fluorion content in river water and groundwater and TDS,but not between it and pH value; ⑤ The fluorion content in the Keriya River Basin was slightly higher than that in other drainage basins in the Tarim Basin,such as the Aksu River Basin and the Yarkant River Basin.

Key words: fluorion content; pH value; TDS; spatial distribution; Yutian Oasis; Daryaboy Oasis; Keriya River; Tarim Basin

Cite this article

Namat Tohti , ZHANG Feng , SHI Qing-dong . Spatial Distribution of Fluorion in Water in the Keriya River Basin[J]. Arid Zone Research, 2016 , 33(5) : 1125 -1131 . DOI: 10.13866/j.azr.2016.05.29

References

〔1〕 孙占学.氟的水文地球化学〔J〕.华东地质学院学报,1992,15(3):288-295.〔Sun Zhanxue.Hydrogeochemistry of fluorine〔J〕.Journal of East China Geological Institute,1992,15(3):288-295.〕
〔2〕 何锦,张福存,韩双宝,等.中国北方高氟地下水分布特征和成因分析〔J〕.中国地质,2010,37(3):621-626.〔He Jin,Zhang Fucun,Han Shuangbao,et al.The distribution and genetic types of high fluoride groundwater in northern China〔J〕.Geology in China,2010,37(3):621- 626.〕
〔3〕 何世春.我国一些天然水中的氟〔J〕.地理科学,1987,7(3):280-285.〔He Shichun.Fluorine in some natural water of China〔J〕.Scientia Geographica Sinica,1987,7(3):280-285.〕
〔4〕 刘东生,陈庆沐,余志成,等.我国地方性氟病的地球化学问题〔J〕.地球化学,1980,10(1):13-22.〔Liu Dongsheng,Chen Qingmu,Yu Zhicheng,et al.Geochemical environment problems concerning the endemic fluorine disease in China〔J〕.Geochimica,1980,10(1):13-22.〕
〔5〕 郑宝山.土壤的苏打盐渍化与地方性氟病〔J〕.环境科学学报,1983,3(2):113-122.〔Zheng Baoshan.Soda salinization and endemic fluorosis of soil〔J〕.Acta Scientiae Circumiseantiae,1983,3(2):113-122.〕
〔6〕 刘亚传,刘冬梅,张振壁,等.我国沙漠地区潜水氟的分布,成因及演变〔J〕.地理研究,1988,7(2):28-40.〔Liu Yachuan,Liu Dongmei,Zhang Zhenbi,et al.A preliminary study of distribution,formation and evolution of fluorine in the phreatic water desert areas of China〔J〕.Geographical Research,1988,7(2):28-40.〕
〔7〕 王根绪,程国栋.西北干旱区水中氟的分布规律及环境特征〔J〕.地理科学,2000,20(2):153-159.〔Wang Genxu,Cheng Guodong.The distributing regularity of fluoride and its environmental characteristics in arid area of northern China〔J〕.Scientia Geographica Sinica,2000,20(2):153-159.〕
〔8〕 陈玮,许凤林.塔克拉玛干沙漠腹地地下水氟的水文地球化学特征〔J〕.干旱区研究,1991,17(2):71-76.〔Chen Wei,Xu Fenglin.Hydrogeochemical characteristics of fluoride of groundwater in the hinterland of Taklamakan desert〔J〕.Arid Zone Research,1991,17(2):71-76.〕
〔9〕 张群,李同贺,吕晓红.塔里木盆地西部地区氟分布规律及成因分析〔J〕.水资源保护,2010,26(4):43-45.〔Zhang Qun,Li Tonghe,Lv Xiaohong.Causes of distribution of fluoride in western region of Tarim basin〔J〕.Water Resources Protection,2010,26(4):43-45.〕
〔10〕周天骧.塔里木河干流流域环境中的氟与地方性氟中毒的关系〔J〕.干旱区地理,1994,17(1):76-82.〔Zhou Tianxiang. Relationship between fluoride content in environment and endemic fluorosis in the basin of main stream of Tarim river〔J〕.Arid Land Geography,1994,17(1):76-82.〕
〔11〕张慧,马英杰,樊自立,等.塔里木河地表及地下水中氟离子的分布和变化规律〔J〕.环境科学学报,2000,20(5):579-583.〔Zhang Hui,Ma Yingjie,Fan Zili,et al.The distribution and change of fluoride in the surface water and groundwater of Tarim river〔J〕.Acta Scientiae Circumstantiae,2000,20(5):579-583.〕
〔12〕周兴佳,李保生,朱峰,等.南疆克里雅河绿洲发育和演化过程研究〔J〕.云南地理环境研究,1996,8(2):44-57.〔Zhou Xingjia,Li Baosheng,Zhu Feng,et al.The research on the development and evolution of the oasis of Keriya river in southern Xinjing〔J〕.Yunnan Geographic Environment Research,1996,8(2):44-57.〕
〔13〕樊自立,季方.克里雅河中下游自然环境变迁与绿色走廊保护〔J〕.干旱区研究,1989,6(3):16-24.〔Fan Zili,Ji Fang.The changes of natural environment and the green corridor protection in middle-lower reaches of the Keriya river〔J〕.Arid Zone Research,1989,6(3):16- 24.〕
〔14〕Yang X,Zhu Z,Jaekel D,et al.Late quaternary palaeoenvironment change and landscape evolution along the Keriya River,Xinjiang,China:The relationship between high mountain glaciation and landscape evolution in fore land desert regions〔J〕.Quaternary International,2002,97/98:155-166.
〔15〕朱震达,陆錦华,江伟铮,等.塔克拉玛干沙漠克里雅河下游地区风沙地貌的形成发育与环境变化趋势的初步研究〔J〕.中国沙漠,1988,8(2):1-10.〔Zhu Zhenda,Lu Jinhua,Jiang Weizheng,et al.Study on formation and development of aeolian landform and trend of environmental change at lower reach of the Keriya river,Taklamakan desert〔J〕.Journal of Desert Research,1988,8(2):1-10.〕
〔16〕谢协忠.水分析化学〔M〕.北京:中国电力出版社,2007:284-286.〔Xie Xiezhong.Water Analytical Chemistry〔M〕.Beijing: China Electric Power Press,2007:284-286.〕
〔17〕霍崇仁,王禹良.水文地质学〔M〕.北京:水利电力出版社,1988:312-320.〔Huo Chongren,Wang Yuliang.Hydrological Geology〔M〕.Beijing:Water Resources and Electric Power Press,1988:312-320.〕
〔18〕弗里泽 R A,彻里 J A.地下水〔M〕.北京:地震出版社,1979:287-295.〔Freeze R A,Cherry J A.Groundwater〔M〕.Beijing:Earthqua-ke Press,1979:287-295.〕
〔19〕WHO.Guidelines for Drinking-Water Quality〔M〕.World Health Organisation,Geneva,Switzerland,2011:564-566.
〔20〕付炜.阿克苏河流域自然环境中氟的分布与地方性氟中毒区水化学分析〔J〕.应用科学学报,2002,20(2):197-201.〔Fu Wei.The distribution of fluoride in the natural environment of the Aksu river basin and a chemical analysis of the water in endemic fluorosis regions〔J〕.Journal of Applied Sciences,2002,20(2):197-201.〕
〔21〕李鸿娟,卢玉东,韩明超,等.乌兰布和沙漠地下水中氟离子的分布及成因分析〔J〕.地下水,2012,34(4):31-32.〔Li Hongjuan,Lu Yudong,Han Mingchao,et al.The distribution and genetic types of fluoride groundwater in Wulanbuhe desert〔J〕.Groundwater,2012,34(4):31-32.〕
〔22〕Ozsvath D L.Fluoride concentrations in a crystalline bedrock aquifer Marathon County,Wisconsin〔J〕.Environmental Geology,2006,50(1):132- 138.
〔23〕Deshmukh A N,Valadaskar P M,Malpe D B.Fluoride in environment:A review〔J〕.Gondwana Geological Magazine,1995,9:1-20.
〔24〕Kearns L E,Kite L E,Leavens P B,et al.Fluorine distribution in the hydrous silicate minerals of the Franklin Marble,Orange County,New York.Am〔J〕.Mineral,1980,65:557-562.
〔25〕Kim K,Jeong G Y.Factors influencing natural occurrence of fluoride-rich groundwater:A case study in the southeastern part of the Korean Peninsula〔J〕.Chemosphere,2005,58(10):1 399-1 408.
〔26〕Ha X P,Ding J L,Tashpolat Tiyip,et al.Sialbedo space-based extraction of salinization information in arid area〔J〕.Acta Pedologica Sinica,2009,46(3):381-390.
〔27〕刘国华,海米提·依米提,王庆峰,等.于田绿洲土壤盐分特征分析〔J〕.水土保持研究,2009,16(3):260-263.〔Liu Guohua,Hemit Yimita,Wang Qingfeng,et al.Study on the characteristics of soil salinity on Yutian Oasis〔J〕.Research of Soil and Water Conservation,2009,16(3):260-263.〕
〔28〕Rao S N,Devadas D J.Fluoride incidence in groundwater in an area of Peninsular India〔J〕.Environmental Geology,2003,45(2):243-251.
〔29〕蔡珩.阜阳高氟地下水形成的地质环境浅析〔J〕.地下水,1999,21(3):129-132.〔Cai Heng.Elementary analysis of high fluoride groun-dwater causes by geological environment〔J〕.Groundwater,1999,21(3):129-132.〕
〔30〕Ramamohana,Rao N V,Rao N,et al.Fluorine distribution in waters of Nalgonda District,Andhra Pradesh,India〔J〕.Environmental Geology,1993,21(1/2):84-89.
〔31〕Saxena V K,Ahmed S.Inferring the chemical parameters for the dissolution of fluoride in groundwater〔J〕.Environmental Geology,2003,43(6):731-736.
〔32〕陈荷生.水在克里雅河流域生态地理环境中的作用〔J〕.中国沙漠,1988,8(2):38-53.〔Chen Hesheng.Effect of water eco-geographic environment of the Keriya river valley〔J〕.Journal of Desert Research,1988,8(2):38-53.〕
〔33〕Zhu Bingqi,Yang Xiaoping.The ion chemical of surface and gronud waters in the Taklamakan desert of Tarim basin,western China〔J〕.Chinese Science Bulletin,2007,52(15):2 123-2 129.
〔34〕Su Chunli,Wang Yanxin,Xie Xianjun,et al.Aqueous geochemistry of high fluoride groundwater in Datong Basin,Northern China〔J〕.Journal of Geochemical Exploration,2013,135:79-92.
〔35〕Perel'man A L.Geochemistry of Elements in Supergene Zone〔M〕.Jerusalem:Keter Publishing House,1977.
〔36〕Rafique T,Naseem S,Usmani T H,et al.Geochemical factors controlling the occurrence of high fluoride groundwater in the Nagar Parkar area,Sindh,Pakistan〔J〕.Journal of Hazardous Materials,2009,171:424-430.
〔37〕Fitts C R.Groundwater Science〔M〕.Amsterdam:Academic Press,2002:162-174.
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