Boiled or Bottled: Regional and Seasonal Exposures to Drinking Water Contamination and Household Air Pollution in Rural China,Environmental Health Perspectives

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Boiled or Bottled: Regional and Seasonal Exposures to Drinking Water Contamination and Household Air Pollution in Rural China
Environmental Health Perspectives ( IF 10.4 ) Pub Date : 2020-12-4 , DOI: 10.1289/ehp7124
Alasdair Cohen ₁ , Ajay Pillarisetti ₂ , Qing Luo ₃ , Qi Zhang ₃ , Hongxing Li ₃ , Gemei Zhong ₄ , Gang Zhu ₅ , John M Colford ₆ , Kirk R Smith ₆ , Isha Ray _{7,

8} , Yong Tao ₃

Affiliation

Abstract

Background:

Inadequate access to safe drinking water remains a global health problem, particularly in rural areas. Boiling is the most commonly used form of point-of-use household water treatment (HWT) globally, although the use of bottled water in low- and middle-income countries (LMICs) is increasing rapidly.

Objectives:

We assessed the regional and seasonal prevalence of HWT practices (including bottled water use) in low-income rural areas in two Chinese provinces, evaluated the microbiological safety of drinking water and associated health outcomes, and estimated the air pollution burden associated with the use of solid fuels for boiling.

Methods:

We conducted cross-sectional surveys and collected drinking water samples from 1,033 rural households in Guangxi and Henan provinces. Temperature sensors affixed to pots and electric kettles were used to corroborate self-reported boiling frequencies and durations, which were used to model household air pollution (HAP) in terms of estimated particulate matter $less than or equal to 2.5 micrometers$ in aerodynamic diameter ( ${PM}_{2.5}$ ) concentrations.

Results:

Based on summer data collection in both provinces, after controlling for covariates, boiling with electric kettles was associated with the largest log reduction in thermotolerant coliforms (TTCs) ( $negative 0.66$ $log base 10$ TTC most probable number $per 100 milliliters$ ), followed by boiling with pots ( $negative 0.58$ ), and bottled water use ( $negative 0.39$ ); all were statistically significant ( $lowercase italic p less than 0.001$ ). Boiling with electric kettles was associated with a reduced risk of TTC contamination [risk ratio $open parenthesis risk ratio closed parenthesis equals 0.25$ , $lowercase italic p less than 0.001$ ] and reported diarrhea ( $risk ratio equals 0.80$ , $lowercase italic p equals 0.672$ ). TTCs were detected in 51% ( $lowercase italic n equals 136$ ) of bottled water samples. For households boiling with biomass, modeled ${PM}_{2.5}$ concentrations averaged $79 micrograms per meter cubed$ ( $standard deviation equals 21$ ).

Discussion:

Our findings suggest that where boiling is already common and electricity access is widespread, the promotion of electricity-based boiling may represent a pragmatic stop-gap means of expanding safe water access until centralized, or decentralized, treated drinking water is available; displacing biomass use for water boiling could also reduce HAP concentrations and exposures. Our results also highlight the risks of increasing bottled water use in rural areas, and its potential to displace other sources of safe drinking water, which could in turn hamper efforts in China and other LMICs toward universal and affordable safe water access. https://doi.org/10.1289/EHP7124

更新日期：2020-12-05

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