Fluorine in drinking water and urine in the urban and rural areas of northwestern China——Its determination by a fluoride ion selective electrode 被引量：2

Fluorine in drinking water and urine in the urban and rural areas of northwestern China——Its determination by a fluoride ion selective electrode

下载PDF

导出

摘要 In this study, the author determined fluorine in drinking water and urine of residents who are divided into four age groups (5, 12, 35-44, 65-74 aged), living in Huangling City, Shaanxi Province and at 6 villages of Qin'an County, Gansu Province, P.R.China. Some residents are living in fluorine exposure areas. A total of 929 residents (463 females and 466 males) involved in the study were selected from 7 tap water systems. Drinking water samples were collected from each area and analyzed using the fluoride ion-selective method. No positive correlation relationship was found between fluorine concentrations in urine and those in drinking water in the area where the fluorine concentrations of drinking water are within the range of 1-2 mg/L. The fluorine absorbed by resistents of different ages is different in amount. With the same concentrations of fluorine in drinking water, more fluorine would be absorbed by young residents than old residents. No difference can be seen in absorption amount of fluorine among different genders. In this study, the author determined fluorine in drinking water and urine of residents who are divided into four age groups （5, 12, 35-44, 65-74 aged）, living in Huangling City, Shaanxi Province and at 6 villages of Qin＇an County, Gansu Province, ER.China. Some residents are living in fluorine exposure areas. A total of 929 residents （463 females and 466 males） involved in the study were selected from 7 tap water systems. Drinking water samples were collected from each area and analyzed using the fluoride ion-selective method. No positive correlation relationship was found between fluorine concentrations in urine and those in drinking water in the area where the fluorine concentrations of drinking water are within the range of 1-2 mg/L. The fluorine absorbed by resistents of different ages is different in amount. With the same concentrations of fluorine in drinking water, more fluorine would be absorbed by young residents than old residents. No difference can be seen in absorption amount of fluorine among different genders.

作者 WANG Binbin ZHENG Baoshan LIAN Weijuan YANG Lan HUANG Ruizhe RUAN Jianping

机构地区 The State Key Laboratory of Environmental Geochemistry Gansu Provincial People＇s Hospital School ofStomatology Stomatological Hospital Department of Environmental Security Systems

出处《Chinese Journal Of Geochemistry》 EI CAS 2009年第2期172-175,共4页 中国地球化学学报

关键词氟离子选择性电极饮用水中国西北地区农村地区居民生活城市尿自来水系统 fluoride urinary fluoride ion-selective method

分类号 TQ658.41 [化学工程—精细化工] TU991.25 [建筑科学—市政工程]

引文网络
相关文献

参考文献7

1Wang Binbin,Zheng Baoshan,Wang Hongying,Ping Yakun,Tao Yuehua.Dental caries in fluorine exposure areas in China[J].Environmental Geochemistry and Health.2005(4)
2刘晓静,郑宝山,王滨滨,王明仕.The characteristics of dissolution of fluoride and aluminum from brick tea[J].Chinese Journal Of Geochemistry,2005,24(4):382-385. 被引量：1
3王滨滨,郑宝山,翟城,刘小静,安宁.Research on Relationship Between Fluorine in Tap Water and That in Urine of Chinese Residents[J].Chinese Journal Of Geochemistry,2004,23(4):373-379. 被引量：2
4Murray J.J.Appropriate use of Fluoride for Human Health[]..1986
5(World,Health,Organization).Guideline for Drinking-Water Quality.Vol.2:Health Criteria and Other Supporting Information[]..1996
6Hinman,A. R.,Sterritt,G. R.,Reeves,T. G.The US experience with fluoridation[].Community and Dental Health.1996
7Binbin,Wang,Baoshan,Zheng,Cheng,Zhai,Guangqian,Yu,Xiaoqing,Liu.Relationship between fluorine in drinking water and dental health of residents in some large cities in China[].Environment International.2004

二级参考文献20

1[11]Zheng Baoshan (1993) Is " F-Al combined toxicosis " or heavy fluorosis? [J] Chinese Journal of Endemiology. 12, 53-57 (in Chinese with English abstract).
2[1]Anna C.S. and Kiss S.A. (1994) Elemental analysis of tea leaves by atomic spectroscopic methods [J]. Magnesium Research. 7, 77-83.
3[2]Bai Xuexin (1986) Brick-tea fluorosis [J]. Chinese Journal of Endemiology. 5, 110 (in Chinese with English abstract).
4[3]Flaten T.P. (2002) Aluminum in tea-concentrations, speciation and bioavailability [J]. Coordination Chemistry Reviews. 228, 385-395.
5[4]Fung K.F., Zhang Z.Q., Wong J.W.C., and Wong M.H. (1999) Fluoride contents in tea and in their infusion [J]. Environ. Pollut. 104, 197-205.
6[5]Liu Dazhong and Wang Daoxin (1995) The concentration of soluble F in different teas and their preventing dentals [J]. Science of Life. 15, 44-45.
7[6]Ligna J. and Yen C.H. (1997) Avoidance mechanisms of physiological interference of aluminum in tea plant [J]. Chinese Journal of Agrichemistry. 35, 61-69.
8[7]Liu Xiaojing, Zheng Baoshan, and An Ning (2004) Analysis of fluoride in tea. In 8th Symposium on Metal Ions in Biology and Medicine [C]. pp.55-62. Budapest, Hungrary.
9[8]Mclachlan D.R.C. (1995) Aluminum and the risk for Alzheimer's disease [J]. Enviromentrics. 6, 233-275.
10[9]Nagata T., Hayatsu M., and Kosuge N. (1992) Identification of aluminum forms in tea leaves by 27Al-NMD [J]. Phytochemistry. 31, 1215-1218.

共引文献1

1葛云红,刘艳辉,赵河立,苏立永,阮国岭.海水淡化水进入市政管网需考虑和解决的问题[J].中国给水排水,2009,25(8):84-87. 被引量：30

同被引文献24

1张秀丽,唐红艳,郑照霞,许宏伟,黄长青.改水不同时间地方性氟中毒病区居民尿氟含量变化[J].中国地方病防治,2006,21(5):299-301. 被引量：3
2钱海雷,向全永,陈连生,金泰廙.基准剂量在氟接触人群骨效应评价中的应用[J].环境与职业医学,2007,24(1):12-15. 被引量：14
3高素虹,蔡梦华,洪祥奇.灰化蒸馏-氟试剂比色法与离子色谱法测定茶叶中氟含量的比较[J].预防医学论坛,2010,16(6):549-550. 被引量：11
4涂俊,刘克俭,李明峰,张裕曾,刘富强,鲁翠荣,马俊香,宋玉娥.职业性氟接触人群血氟、尿氟水平及相关因素研究[J].中国工业医学杂志,2010,23(3):163-165. 被引量：15
5梁超轲,田厚文.煤烟型氟中毒的毒理—流行病学研究[J].卫生研究,1990,19(1):18-21. 被引量：3
6罗国兵.离子色谱法测定污水中F^-、Cl^-、NO_2^-、NO_3^-和SO_4^(2-)[J].理化检验（化学分册）,2011,47(6):741-742. 被引量：5
7吕立群.离子色谱法测定大气降水中的氟离子、乙酸、甲酸、氯离子、硝酸根和硫酸根离子[J].中国环境监测,2011,27(5):21-23. 被引量：37
8陈红梅,朱春华,杨文杰.5-Br-PADAP衍生反相高效液相色谱法测定有机物中的氟含量[J].天津工业大学学报,2011,30(5):50-53. 被引量：4
9严进.环境水样中痕量氟的液膜富集与测定[J].化学试剂,2012,34(8):726-728. 被引量：1
10曹景鑫,陈闯,夏国华.某大型破产企业无机氟作业人员离岗时职业健康检查结果分析[J].中国职业医学,2013,40(3):278-279. 被引量：2

引证文献2

1曾远娴,陈梓云,肖鑫,余贵宏,李文娟.废水中氟离子测定方法的对比研究[J].嘉应学院学报,2017,35(2):64-68. 被引量：2
2郑光,田雨来,曹俭,侯强,黄沪涛,张雪涛,方莉.职业性氟化氢接触对工人骨骼的影响[J].职业卫生与应急救援,2022,40(1):46-52. 被引量：5

二级引证文献7

1高美娟,杜松山,李艳.陕北农村饮用水氟含量的快速检测方法研究[J].化工管理,2019(15):26-27. 被引量：3
2杨川,李乔丽,李文强.碱熔-氟电极法测定电解铝烟气脱氟产品中的氟[J].上海化工,2020,45(5):48-51. 被引量：1
3芮小峰,陈博,张志龙.氟接触工人sSema4D水平与骨损伤相关性分析[J].中国地方病防治,2022,37(3):254-255. 被引量：1
4郑光,李凤仪,王翔,朱冬青,赵忠林,郭盈.低剂量职业性氟化氢接触与骨代谢生化指标相关性分析及基准剂量研究[J].中华劳动卫生职业病杂志,2023,41(3):198-203. 被引量：1
5何璐阳,张靖琦,李娟,李百春,孙宇涵,弓宇娟,路小婷,宋静,牛侨,王林平.铝氟的交互作用对铝厂作业工人总体认知功能的影响[J].环境与职业医学,2023,40(6):695-699.
6郑光,孙赟,赵忠林,金惜雯,陈香,郑幼桥,张雪涛.氟化氢铵接触工人骨代谢生物标志研究[J].职业卫生与应急救援,2023,41(4):403-408.
7陈娜,张磊,杨亮,邓静,毛晓峰,万佳丽.长寿区职业人群骨量减少与职业暴露相关性研究[J].保健医学研究与实践,2023,20(S02):24-27.

1范士林.室外自来水管道施工组织与管理[J].建材与装饰（上旬）,2016(30):199-200. 被引量：1
2曲志军,张金松.两种不同供水方式的水质研究[J].西南给排水,2005,27(5):9-12.
3林来信.实用微型自来水系统[J].电子世界,1999(4):50-50.
4Q'IN:情绪空间[J].城市住宅,2003,10(11):123-123.
5杨永福,王增杰,郭从彦.中牟县农村饮水安全工程建设存在的问题及对策[J].河南水利与南水北调,2010(8):27-28.
6黄忠仓.香港的集水与水价[J].城镇供水,1995,0(2):32-34.
7户万,吴彪.周敏:无畏的探索者[J].科学中国人,2015(2):68-71.
8家用微型自来水系统[J].农业装备技术,2002(2):40-40.
9宁夏出台全国首个维护农村妇女“三权”意见[J].Women of China,2015,0(3):77-77.
10北京百子湾小区中学[J].城市环境设计,2009(9):50-53.

Chinese Journal Of Geochemistry

2009年第2期

浏览历史

内容加载中请稍等...