Abstract
Studies have shown that ozone (O3) has adverse impacts on human health. In China, O3 levels have continued to increase since 2010. When compared to the large number of studies concerning the health effects of PM2.5 in China, there have been limited explorations of the effects of O3. The Beijing region has one of the highest O3 concentrations in the country, but there appear to be no published studies regarding the health effects of O3 in Beijing. In this study, we applied a time-stratified case-crossover design to explore the effects of O3 on cause-specific mortality for a rural location near Beijing over the period 2005–2013. For year-round effects, we found that for all-causes mortality, with a 10-unit increase in O3 concentration, the odds ratios (ORs) were in the range of 1.009–1.020 for different lag days. The ORs for cardiovascular mortality with a 10-unit increase in O3 concentration were in the range of 1.011–1.017 for different lag days. For warm season effects, the ORs with a 10-unit increase in O3 concentration for all-cause mortality were in the range of 1.025–1.031 for different lag days. The ORs for cardiovascular mortality with a 10-unit increase of O3 concentration were in the range of 1.020–1.024 for different lag days. Our findings fill a knowledge gap that has hitherto existed in studies regarding O3 health impacts, and our results will strengthen the rationale for O3 control in China.
Highlights
IntroductionChina has experienced increasing numbers of severe air pollution events
In recent years, China has experienced increasing numbers of severe air pollution events
We used a time-stratified case-crossover model to account for the effects of O3 on human health, and the analysis provided lag-specific estimates
Summary
China has experienced increasing numbers of severe air pollution events. Studies have demonstrated adverse impacts of ozone on human health; among all of the air pollutants, ozone (O3 ) and PM2.5 (particles with aerodynamic diameters < 2.5 μm) are believed to have the most significant associations between cause-specific mortality and morbidity, especially cardiorespiratory morbidity [1,2]. In China, strict policies for PM10 (particles with aerodynamic diameters < 10.0 μm) and PM2.5 control have been implemented. Due to these strategies, concentrations of atmospheric TSP (total suspended particles) and PM10 have been decreasing since 1998. Levels of PM2.5 continued to decrease during the period
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