河南省农村集中式供水微生物污染卫生现状及其影响因素分析

doi:10.13481/j.1671-587x.20160636

吉林大学学报(医学版) ›› 2016, Vol. 42 ›› Issue (06): 1230-1236.doi: 10.13481/j.1671-587x.20160636

河南省农村集中式供水微生物污染卫生现状及其影响因素分析

任静朝^1,2, 张光辉¹, 郝鹏飞³, 陈璐¹, 范中原¹, 王宽³, 杨海燕², 段广才^1,2

1. 新乡医学院公共卫生学院流行病与卫生统计学教研室, 河南新乡 453003;
2. 郑州大学公共卫生学院流行病与卫生统计学教研室, 河南郑州 450001;
3. 河南省新乡市疾病预防控制中心公共卫生科, 河南新乡 453003

收稿日期:2015-12-02 出版日期:2016-11-28 发布日期:2016-12-02
通讯作者: 段广才,教授,博士研究生导师(Tel:0373-3029008,E-mail:gcduan@zzu.edu.cn) E-mail:gcduan@zzu.edu.cn
作者简介:任静朝(1983-),女,河北省平山县人,讲师,医学博士,主要从事传染病流行病学和分子流行病学方面的研究。
基金资助:
河南省教育厅高等学校重点科研项目资助课题（15A330003）；河南省人力资源和社会保障厅博士后科研项目资助课题（2015013）

Hygiene condition of microbial contamination of central water supply in rural areas of Henan province and their influencing factors

REN Jingchao^1,2, ZHANG Guanghui¹, HAO Pengfei³, CHEN Lu¹, FAN Zhongyuan¹, WANG Kuan³, YANG Haiyan², DUAN Guangcai^1,2

1. Department of Epidemiology and Statistics, School of Public Health, Xinxiang Medical University, Xinxiang 453003, China;
2. Department of Epidemiology and Statistics, School of Public Health, Zhengzhou University, Zhengzhou 450001, China;
3. Department of Public Health, Xinxiang Center for Disease Control and Prevention, Xinxiang 453003, China

Received:2015-12-02 Online:2016-11-28 Published:2016-12-02

摘要/Abstract

摘要：

目的：了解河南省农村集中式供水微生物污染卫生现状，分析影响水质微生物的影响因素，为制定农村饮用水安全发展规划提供科学依据。方法：2011-2014年对河南省新乡市8个县（市）农村集中式供水进行采样，并开展卫生学状况调查（水源类型、水期类型、供水规模、季节、地方病和消毒情况等），依据《生活饮用水标准检验方法》（GB/T5750-2006）对出厂水和末梢水进行微生物检测，包括菌落总数、总大肠菌群、耐热大肠菌群和大肠埃希氏菌，并采用Logistic回归分析集中式供水菌落总数超标的影响因素，采用Poisson回归分析集中式供水菌落总数和总大肠菌群数的影响因素。结果：2011-2014年分别采水样824、820、526和636份。供水水源以深井水为主（90.0%），未经任何处理的饮用水水样占70.6%。4年水样的菌落总数合格率分别为76.0%、75.5%、66.5%和72.6%；总大肠菌群合格率依次为97.3%、94.9%、99.6%和94.3%。2011-2014年消毒供水的菌落总数超标率均低于未消毒供水（P<0.05）；2012-2014年末梢水中菌落总数超标率高于出厂水（P<0.05）；2013年和2014年中型供水能力（100~1 000t）工程的供水中菌落总数超标率低于大型供水能力（≥1 000 t）和小型供水能力（<100 t）的供水工程（P<0.05）。Logistic回归分析，丰水期的水样中菌落总数超标率高于枯水期（χ²=12.31，P<0.001）；消毒能够降低菌落总数超标率（χ²=85.32，P<0.001）；以除氟和解决苦咸水为目的的供水工程供水中菌落总数超标率较低（χ²=34.44，P<0.001；χ²=39.44，P<0.001）。Poisson回归分析，丰水期（χ²=6972.75，P<0.001）、未消毒（χ²=5415.46，P<0.001）、末梢水（χ²=97.64，P<0.001）、运营时间长（χ²=26.57，P<0.001）、供水能力小（χ²=4502.57，P<0.001）、以除氟和解决苦咸水为目的的改水工程（χ²=6226.68，P<0.001；χ²=13441.50，P<0.001）的水样中菌落总数较高。而100~1 000t的供水能力工程（χ²=802.18，P<0.001）及以除氟和苦咸水为目的供水工程（χ²=2711.88，P<0.001；χ²=1470.91，P<0.001）水样中的总大肠菌群数较低，丰水期（χ²=16583.10，P<0.001）、未消毒（χ²=276.34，P<0.001）、末梢水（χ²=1205.26，P<0.001）和运营时间长（χ²=3220.58，P<0.001）的水样中总大肠菌群数较高。结论：河南省农村集中式供水消毒比例较低，菌落总数合格率不高，总大肠菌群合格率高。水期类型、是否消毒、水样类型、运行年、供水能力和供水工程目的均不同程度地影响农村集中式供水的水质微生物。

关键词: 卫生监测, 总大肠菌群, 集中式供水, 农村, 耐热大肠菌, 微生物

Abstract:

Objective: To learn the status of microbial contamination of central water supply in the rural areas of Henan province,and to analysis the influencing factors of water microbial in order to provide basis for making the policy of drinking water safety improvement.Methods: During 2011-2014,the water sampling of central water supply in eight cities (counties) in Xinxiang city of Henan province were selected and the hygiene condition investigation (water source type,water period type,water supply scale,seasonal,local area,and disinfection) was performed.According to the Drinking Water Standard Test Method (GB/T5750-2006),the microorganisms in factory water and tap water were detected,including the total number of colonie,total coliform count,thermotolerant coliform bacteria and Escherichia coli (E.coli).The influencing factors of total number of colonies exceeding the standards were detected by Logistic regression analysis.The influencing factors of total number of colonies and total coliform count were detected by Poisson regression analysis.Results: There were 824,820,526,and 636 water samples in each year during 2011-2014.The most source of supply water was deep water(90%).The samples of drinking water without any treatment accounted for 70.6%. The qualified rates of total number of colonies were 76.0%,75.5%,66.5%,and 72.6%,respectively,and the qualified rates of coliform count were 97.3%,94.9%,99.6%,and 94.3%,respectively.The exceeding standard rates of total number of colonies of disinfected central water supply were lower than those of central water supply without disinfection (P<0.05) during 2011-2014.The exceeding standard rates of total number of colonies of tap water were higher than those of produced water during 2012-2014 (P<0.05).The exceeding standard rates of total number of colonies in medium water supply engineering (100-1 000 t) were lower than those in large(≥ 1 000 t) and small (<100 t) water supply engineerings in 2013 and 2014 (P<0.05).The Logistic regression analysis results showed that the unqualified rate of total number of colonies in wet season was higher than that in dry season (χ²=12.31,P<0.001).The disinfection could reduce the unqualified rate of total number of colonies (χ²=85.32,P<0.001).The unqualified rates of total number of colonies in the engineering for the purpose of removing fluoride and resolving bitter salt water were lower (χ²=34.44,P<0.001;χ²=39.44,P<0.001). The Poisson regression analysis results showed that wet season (χ²=6 972.75,P<0.001),without disinfection (χ²=5 415.46,P<0.001),tap water (χ²=97.64,P<0.001),long operating time (χ²=26.57,P<0.001),low water supply capacity (χ²=4 502.57,P<0.001),the engineering for the purpose of removing fluoride and resolving bitter salt water (χ²=6 226.68,P<0.001;χ²=13 441.50,P<0.001) increased the total number of colonies. The number of E.coli in samples of central water supply was lower in 100-1 000 t of water supply engineerings (χ²=802.18,P<0.001) and the engineering for the purpose of removing fluoride and resolving bitter salt water (χ²=2 711.88,P<0.001;χ²=1 470.91,P<0.001).The number of E.coli in samples of central water supply was higher in the water of wet season (χ²=16 583.10,P<0.001),the water without disinfection (χ²=276.34,P<0.001),tap water (χ²=1 205.26,P<0.001) and the water with long operating time (χ²=3 220.58,P<0.001).Conclusion: The ratio of disinfection of central water supply in the rural areas of Henan provice is low,the qualified rate of colonies is not high,and the qualified rate of total coliform count was high.The microbial contamination in central supply water in the rural areas is influenced by water period type,disinfection,water sample type,operating time,water supply capacity,and purpose of water supply engineering.

Key words: microorganism, health monitoring, rural areas, Thermotolerant Coliform bacteria, total coliforms, central water supply

中图分类号:

R123

任静朝, 张光辉, 郝鹏飞, 陈璐, 范中原, 王宽, 杨海燕, 段广才. 河南省农村集中式供水微生物污染卫生现状及其影响因素分析[J]. 吉林大学学报(医学版), 2016, 42(06): 1230-1236.

REN Jingchao, ZHANG Guanghui, HAO Pengfei, CHEN Lu, FAN Zhongyuan, WANG Kuan, YANG Haiyan, DUAN Guangcai. Hygiene condition of microbial contamination of central water supply in rural areas of Henan province and their influencing factors[J]. Journal of Jilin University Medicine Edition, 2016, 42(06): 1230-1236.

参考文献

[1] 张大元. 三峡库区重庆段移民安置区饮用水源地水质现状调查[J].环境与健康杂志,2010,27(7):621-623.
[2] 韩方岸,胡云,陈连生,等.江苏省农村饮用水水质现状及影响因素分析[J].环境与健康杂志,2009,26(4):328-330.
[3] 何加芬,姚玉斌,徐岷,等.2007年江西省农村饮用水卫生状况分析[J].环境与健康杂志,2008,25(12):1083-1085.
[4] 郑和辉,卞战强,田向红,等.中国饮用水标准的现状[J].卫生研究,2014,43(1):166-169.
[5] 崔妍,刘莹,田卓.国内外饮用水水质标准中微生物指标的比较综述[J].食品安全质量检测学报,2015,6(7):2573-2579.
[6] 谢姝.集中式供水工程饮用水微生物学指标与介水传染病的相关性[J].医药前沿,2016,6(10):7-71.
[7] 尹浦,黄少平,隗金华,等.房山区洪涝灾害发生后村级集中式供水水质检测结果分析[J].环境卫生学杂志,2014,4(4):356-358.
[8] 陈俊,高绪芳,杜慧兰,等.2009-2014年成都市生活饮用水突发污染事件分析[J].环境与健康杂志,2015,32(2):136-138.
[9] 李雯婷,唐振柱,钟格梅,等.2008-2012年广西农村集中式供水卫生监测结果分析[J].应用预防医学,2014,20(1):1-5.
[10] 蔡美,杨海霞,王文龙.2008-2010年甘肃省农村地区饮用水水质卫生状况分析[J].环境卫生学杂志,2012,2(3):128-130.
[11] 李作宁,籍继颖,姜兆刚,等.2008~2010年威海市农村生活饮用水集中供水水质监测分析[J].现代预防医学,2012,39(7):1622-1623.
[12] 杨永清.邯郸市2012年农村饮水安全集中供水工程水质监测结果分析[J].中国卫生检验杂志,2014,24(7):1008-1010.
[13] 王勇,段光顺,冷福娟,等.随州市2011年-2013年农村生活饮用水水质监测分析[J].中国卫生检验杂志,2014,24(24):3594-3596.
[14] 钟格梅,唐振柱,黄江平,等.2006年广西农村集中式供水水质卫生状况调查[J].环境与健康杂志,2008,25(2):132-135.
[15] 黄江平,唐振柱,钟格梅,等.2008-2012年广西农村集中式供水水质微生物监测结果分析[J].应用预防医学,2014(3):137-141.
[16] 王桂花,李长宝.2011-2012年凌源市农村生活饮用水微生物生物指标监测结果分析[J].中国卫生标准管理,2014,6(24):14-15.
[17] 范尉尉,陈凤格,赵伟,等.2011-2012某市农村饮用水水质动态分析[J].现代预防医学,2015,42(4):744-747.

河南省农村集中式供水微生物污染卫生现状及其影响因素分析

Hygiene condition of microbial contamination of central water supply in rural areas of Henan province and their influencing factors

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