Abstract

Air pollution is a major public health challenge in the highly urbanized megacities of China. However, knowledge on exposure to ambient unregulated air pollutants such as black carbon (BC) and ultrafine particles (UFP) among the Chinese population, especially among urban high school students who may have highly variable time-activity patterns, is scarce. To address this, the personal exposures to BC and UFP of high school students (aged 17 to 18) in Chengdu, China were measured at 1-min intervals via portable samplers. Monitoring lasted for 2 consecutive 24-h periods with days classified as “school days” or “non-school days”. Time-activity diaries and measurements were combined to explore spatial, temporal, and behavioral factors that contribute to different exposure profiles. The overall geometric means of BC and UFP were 3.60 μg/m3 and 1.83 × 104p/cm3, respectively with notable spatiotemporal variation in exposures observed. In general, the household and transport microenvironments were the predominant contributors to total BC (74.5%) and UFP (36.5%) exposure. However, the outdoor public microenvironment was found to have significantly higher overall average levels of BC than the household and transport microenvironments (p < 0.001) while also presenting the greatest exposure dose intensity (EDI – a measure of exposure in a microenvironment in proportion to time spent in that environment) of 4.79. The largest overall average level of UFP occurred in the indoor public microenvironment followed by transport. The outdoor public microenvironment also presented the greatest EDI of UFP (4.17). This study shows notable spatiotemporal variety in exposure patterns and will inform future exposure and population health studies. The high EDI outdoors may mean that health positive activities, such as exercise, may be being undermined by ambient pollution.

Highlights

  • IntroductionIndustrialization and urbanization in China has led to extremely severe air pollution, which has profound implications for human health

  • Rapid economic development, industrialization and urbanization in China has led to extremely severe air pollution, which has profound implications for human health

  • The current study aims to investigate personal black carbon (BC) and ultrafine particles (UFP) exposure in various microenvironments among urban high school students and to explore the spatial and temporal factors contributing to personal BC and UFP exposure

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Summary

Introduction

Industrialization and urbanization in China has led to extremely severe air pollution, which has profound implications for human health. The average UFP at the roadside in Shanghai (1.20 Â 105p/cm3) has been reported to be among the highest in urban centers across the world (Kumar et al, 2014), and the BC emission rate in China reached as high as 1000e1800 Gg/year which is the highest in the world (Bond et al, 2013). It is reported that more than 60% of the Chinese population currently lives in urban areas (Zeng et al, 2019), which typically have more densely populated urban areas in comparison to cities in high-income countries, meaning that the exposures experienced in urban China may not be well reflected by external studies

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