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Arsenic-contaminated cold-spring water in mountainous areas of Hui County, Northwest China: A new source of arsenic exposure

Although pump-well is the primary drinking water source in rural areas of China, there are still 8.4% of villages reliant on cold-spring. In this study, a survey of arsenic concentration in cold-springs and pump-wells was carried out in Hui County, Northwest China. A total of 352 drinking water samp... Full description

Journal Title: Science of the Total Environment 15 November 2011, Vol.409(24), pp.5513-5516
Main Author: Zhang, Qiang
Other Authors: Zheng, Quanmei , Sun, Guifan
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 0048-9697 ; E-ISSN: 1879-1026 ; DOI: 10.1016/j.scitotenv.2011.08.055
Link: https://www.sciencedirect.com/science/article/pii/S0048969711009247
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recordid: elsevier_sdoi_10_1016_j_scitotenv_2011_08_055
title: Arsenic-contaminated cold-spring water in mountainous areas of Hui County, Northwest China: A new source of arsenic exposure
format: Article
creator:
  • Zhang, Qiang
  • Zheng, Quanmei
  • Sun, Guifan
subjects:
  • Arsenic Contamination
  • Cold-Spring
  • Pump-Well
  • Mountainous
  • Northwest China
  • Environmental Sciences
  • Biology
  • Public Health
ispartof: Science of the Total Environment, 15 November 2011, Vol.409(24), pp.5513-5516
description: Although pump-well is the primary drinking water source in rural areas of China, there are still 8.4% of villages reliant on cold-spring. In this study, a survey of arsenic concentration in cold-springs and pump-wells was carried out in Hui County, Northwest China. A total of 352 drinking water samples, including 177 cold-springs and 175 pump-wells, were collected. The maximum arsenic concentrations in cold-springs and pump-wells were 0.482 mg/L and 0.067 mg/L, respectively. We found that 15.8% (28) of total cold-springs and 1.1% (2) of total pump-wells had arsenic concentrations exceeding the maximum allowable concentration of arsenic in drinking water of rural China (0.05 mg/L). Our findings show that 5 cold spring-contaminated villages are located in the mountainous areas of Hui County and 2224 inhabitants may be at risk of high arsenic exposure. This paper indicates that arsenic contamination of cold-springs may be more serious than expected in mountainous areas of Northwest China and extensive surveys and epidemiological studies should be carried out to investigate the potential contaminated areas and affected population.
language: eng
source:
identifier: ISSN: 0048-9697 ; E-ISSN: 1879-1026 ; DOI: 10.1016/j.scitotenv.2011.08.055
fulltext: fulltext
issn:
  • 0048-9697
  • 00489697
  • 1879-1026
  • 18791026
url: Link


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titleArsenic-contaminated cold-spring water in mountainous areas of Hui County, Northwest China: A new source of arsenic exposure
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subjectArsenic Contamination ; Cold-Spring ; Pump-Well ; Mountainous ; Northwest China ; Environmental Sciences ; Biology ; Public Health
descriptionAlthough pump-well is the primary drinking water source in rural areas of China, there are still 8.4% of villages reliant on cold-spring. In this study, a survey of arsenic concentration in cold-springs and pump-wells was carried out in Hui County, Northwest China. A total of 352 drinking water samples, including 177 cold-springs and 175 pump-wells, were collected. The maximum arsenic concentrations in cold-springs and pump-wells were 0.482 mg/L and 0.067 mg/L, respectively. We found that 15.8% (28) of total cold-springs and 1.1% (2) of total pump-wells had arsenic concentrations exceeding the maximum allowable concentration of arsenic in drinking water of rural China (0.05 mg/L). Our findings show that 5 cold spring-contaminated villages are located in the mountainous areas of Hui County and 2224 inhabitants may be at risk of high arsenic exposure. This paper indicates that arsenic contamination of cold-springs may be more serious than expected in mountainous areas of Northwest China and extensive surveys and epidemiological studies should be carried out to investigate the potential contaminated areas and affected population.
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