Abstract
Spatiotemporal behaviors of particulate matter (PM2.5 and PM10) and trace gases (SO2, NO2, CO, and O3) in Hefei during the period from December 2013 to November 2015 are investigated. The mean annual PM2.5 (PM10) concentrations are 89.1 ± 59.4 µg/m3 (118.9 ± 66.8 µg/m3) and 61.6 ± 32.2 µg/m3 (91.3 ± 40.9 µg/m3) during 2014 and 2015, respectively, remarkably exceeding the Chinese Ambient Air Quality Standards (CAAQS) grade II. All trace gases basically meet the requirements though NO2 and O3 have a certain upward trend. Old districts have the highest pollution levels, followed by urban periphery sites and new districts. Severe haze pollution occurs in Hefei, with frequent exceedances in particulate matter with 178 (91) days in 2014 (2015). The abnormal PM2.5 concentrations in June 2014 attributed to agricultural biomass burning from moderate resolution imaging spectroradiometry (MODIS) wildfire maps and aerosol optical depth (AOD) analysis. PM2.5 is recognized as the major pollutant, and a longer interspecies relationship is found between PM2.5 and other criteria pollutants for episode days as compared to non-episode days. The air pollution in Hefei tends to be influenced by local primary emissions, secondary formation, and regional transport from adjacent cities and remote regions. Most areas of Anhui, southern Jiangsu, northern Zhejiang, and western Shandong are identified as the common high-potential source regions of PM2.5. Approximately 9.44 and 8.53 thousand premature mortalities are attributed to PM2.5 exposure in 2014 and 2015. The mortality benefits will be 32% (24%), 47% (41%), 70% (67%), and 85% (83%) of the total premature mortalities in 2014 (2015) when PM2.5 concentrations meet the CAAQS grade II, the World Health Organization (WHO) IT-2, IT-3, and Air Quality Guideline, respectively. Hence, joint pollution prevention and control measures need to be strengthened due to pollutant regional diffusion, and much higher health benefits could be achieved as the Hefei government adopts more stringent WHO guidelines for PM2.5.
Highlights
In recent decades, China is facing severe air pollution with the booming economic growth and dramatic increase in energy consumption [1,2]
The highest PM2.5 concentrations occur in cold seasons (January and December) as a result of pattern
The highest PM2.5 concentrations occur in cold seasons (January and December) as a result of synchronous control by emission from additional local heating and meteorological factors
Summary
China is facing severe air pollution with the booming economic growth and dramatic increase in energy consumption [1,2]. Res. Public Health 2020, 17, 229 and the pollutants involve in the evaluation including 24 h average concentrations of ground measured sulfur dioxide (SO2 ), nitrogen dioxide (NO2 ), and PM10 The real-time hourly average concentration of six criteria of air pollutants and associated air quality index (AQI) are released for public scrutiny and scientific research [10]. (4) to estimate premature mortality (∆Mort) due to PM2.5 exposure and potential mortality benefits in scenarios where PM2.5 concentrations in Hefei meet the CAAQS grade II, the World Health Organization (WHO) interim target (IT)-2, IT-3, and Air Quality. The new findings will be helpful to understand the current situation of environmental quality, enhance the environmental awareness of the general public, and enable new perspectives on how to formulate effective incentives to retrofit air pollution control strategy in central China if necessarily in time
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