宝鸡市饮用水源地重金属健康风险评价
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摘要
宝鸡市饮用水源地包括冯家山水库、清姜河及部分井水。为全面掌握宝鸡市饮用水源地水质安全状况,对宝鸡市水源地饮用水中重金属进行含量检测及健康风险评价。结果表明:宝鸡市主要水源地饮用水中重金属含量在国家标准限值范围内,但宝鸡市各主要饮用水源地水均出现Pb浓度最大值超标、均值(井水、清姜河及冯家山水库分别为35、43. 92、47μg/L)接近国家标准的情况;宝鸡市水源地饮用水致癌风险在4. 75×10-4~6. 84×10-4之间,非致癌风险在1. 05×10-7~3. 25×10-7之间,重金属元素致癌风险值大小顺序为Cr> As> Cd> Ni;宝鸡市水源地饮用水对儿童健康风险略大于成人健康风险,应引起重视;宝鸡市水源地饮用水健康风险呈现出井水>清姜河河水>冯家山水库水的空间分布状态。宝鸡市各水源地饮用水水质达标,但存在致癌健康风险,其中Cr是主要风险因子。
Baoji City 's drinking water sources include Fengjiashan Reservoir,Qingjiang River and some wells. In order to fully grasp the water quality safety status of drinking water sources in Baoji City,the content and health risk assessment of drinking water from heavy metals in water sources were carried out. The results showed that: the content of heavy metals in drinking water of major water sources in Baoji City was within the limits of the national standards,but the maximum Pb concentration exceeded in the major drinking water sources in Baoji City. The mean value( well water,Qingjiang River,and Fengjiashan Reservoir was 35,43. 92,47 μg/L) were close to the national standards. The risk index of drinking water in drinking water sources in Baoji City was between 4. 75 × 10-4 and 6. 84 × 10-4,and the non-carcinogenic risk was between 1. 05 × 10-7 and 3. 25 × 10-7. The order of the carcinogenic risk caused by heavy metals was Cr > As > Cd > Ni,the water quality of children in major drinking water sources in Baoji City was slightly greater than the risk of adult health and should be taken seriously. The health risks of major drinking water sources in Baoji City showed that the spatial distribution pattern of well water > Qingjiang River water >Fengjiashan Reservoir water. The water quality of drinking water sources in Baoji City met the standard,but the health risk risk exceeded the threshold recommended by the relevant international organizations,and the risk of cancer-causing health was the main one,among which Cr was the main risk factor.
Baoji City 's drinking water sources include Fengjiashan Reservoir,Qingjiang River and some wells. In order to fully grasp the water quality safety status of drinking water sources in Baoji City,the content and health risk assessment of drinking water from heavy metals in water sources were carried out. The results showed that: the content of heavy metals in drinking water of major water sources in Baoji City was within the limits of the national standards,but the maximum Pb concentration exceeded in the major drinking water sources in Baoji City. The mean value( well water,Qingjiang River,and Fengjiashan Reservoir was 35,43. 92,47 μg/L) were close to the national standards. The risk index of drinking water in drinking water sources in Baoji City was between 4. 75 × 10-4 and 6. 84 × 10-4,and the non-carcinogenic risk was between 1. 05 × 10-7 and 3. 25 × 10-7. The order of the carcinogenic risk caused by heavy metals was Cr > As > Cd > Ni,the water quality of children in major drinking water sources in Baoji City was slightly greater than the risk of adult health and should be taken seriously. The health risks of major drinking water sources in Baoji City showed that the spatial distribution pattern of well water > Qingjiang River water >Fengjiashan Reservoir water. The water quality of drinking water sources in Baoji City met the standard,but the health risk risk exceeded the threshold recommended by the relevant international organizations,and the risk of cancer-causing health was the main one,among which Cr was the main risk factor.
引文
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[2] MUHAMMAD S,SHAH M T,KHAN S. Health risk assessment of heavy metals and their source apportionment in drinking water of Kohistan region,Northern Pakistan[J].Microchemical Journal,2011,98(2):334-343.
[3]COVELLO V T,MERKHOFER M W. Risk assessment methods:approaches for assessing health and environmental risks[M]. Berlin:Springer Netherlands,1993.
[4]马海涛,何金平,杨晓灵,等.南宁市邕江水源地重金属污染物健康风险初评[J].环境科学与技术,2014,37(S1):377-381.
[5]韩芹芹,王涛,杨永红.乌鲁木齐市主要饮用水源地水质健康风险评价[J].中国环境监测,2015,31(1):57-63.
[6]黄睿智,班美玲,苏相琴,等.广西某城市饮用水水源地重金属健康风险评价[J].工业安全与环保,2015,41(6):21-24.
[7] WANG Qiulian,ZHANG Zhen,LIU Wei. Environmental Health Risk Assessment of Drinking Water Source in Tianjin[J]. Environmental Science and Technology,2009,32(5):187-190.
[8] KAVCAR P,SOFUOGLU A,SOFUOGLU S C. A health risk assessment for exposure to trace metals via drinking water ingestion pathway[J]. International Journal of Hygiene and Environmental Health,2009,212(2):216-227.
[9] US EPA. Available information on assessment exposure from pesticides in food[R]. Washington DC:U. S. Environmental Protection Agency Office of Pesticide Programs,2000.
[10]李莹莹,张永江,邓茂,等.武陵山区域典型生态保护城市饮用水源地水质人体健康风险评价[J].环境科学研究,2017,30(2):282-290.
[11]段小丽,王宗爽,王贝贝,等.我国北方某地区居民饮水暴露参数研究[J].环境科学研究,2010,23(9):1216-1220.
[12]国家体育总局. 2010年国民体质监测报告[M].北京:人民体育出版社,2016.
[13]国家环境保护总局.地表水环境质量标准:GB3838-2002[S].北京:中国环境科学出版社,2002.
[14]国家技术监督局.地下水质量标准GB/T14848-2017[S].北京:中国标准出版社,2017.
[15]王若师,许秋瑾,张娴,等.东江流域典型乡镇饮用水源地重金属污染健康风险评价[J].环境科学,2012,33(9):3083-3088.
[16]PAN Huiyun,LU Xinwei,LEI Kai. A comprehensive analysis of heavy metals in urban road dust of Xi'an,China:contamination,source apportionment and spatial distribution[J]. Science of the Total Environment,2017,609:1361-1369.
[17] ZHOU Qiuhong,ZHENG Na,LIU Jingshuang,et al.Residents health risk of Pb,Cd and Cu exposure to street dust based on different particle sizes around zinc smelting plant,Northeast of China[J]. Environmental Geochemistry and health,2015,37(2):207-220.
[18]王济,张一修,高翔.城市地表灰尘重金属研究进展及展望[J].地理研究,2012,31(5):821-830.
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