Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/65816
Title: Responses of human health and vegetation exposure metrics to changes in ozone concentration distributions in the European Union, United States, and China
Authors: Lefohn, AS
Malley, CS
Simon, H
Wells, B
Xu, X
Zhang, L
Wang, T 
Keywords: Binning concentrations
Exposure metrics
NOx scavenging
Ozone distributions
Shifting concentrations
Trends
Issue Date: 2017
Publisher: Pergamon Press
Source: Atmospheric environment, 2017, v. 152, p. 123-145 How to cite?
Journal: Atmospheric environment 
Abstract: The impacts of surface ozone (O3) on human health and vegetation have prompted O3 precursor emission reductions in the European Union (EU) and United States (US). In contrast, until recently, emissions have increased in East Asia and most strongly in China. As emissions change, the distribution of hourly O3 concentrations also changes, as do the values of exposure metrics. The distribution changes can result in the exposure metric trend patterns changing in a similar direction as trends in emissions (e.g., metrics increase as emissions increase) or, in some cases, in opposite directions. This study, using data from 481 sites (276 in the EU, 196 in the US, and 9 in China), investigates the response of 14 human health and vegetation O3 exposure metrics to changes in hourly O3 concentration distributions over time. At a majority of EU and US sites, there was a reduction in the frequency of both relatively high and low hourly average O3 concentrations. In contrast, for some sites in mainland China and Hong Kong, the middle of the distribution shifted upwards but the low end did not change and for other sites, the entire distribution shifted upwards. The responses of the 14 metrics to these changes at the EU, US, and Chinese sites were varied, and dependent on (1) the extent to which the metric was determined by relatively high, moderate, and low concentrations and (2) the relative magnitude of the shifts occurring within the O3 concentration distribution. For example, the majority of the EU and US sites experienced decreasing trends in the magnitude of those metrics associated with higher concentrations. For the sites in China, all of the metrics either increased or had no trends. In contrast, there were a greater number of sites that had no trend for those metrics determined by a combination of moderate and high O3 concentrations. A result of our analyses is that trends in mean or median concentrations did not appear to be well associated with some exposure metrics applicable for assessing human health or vegetation effects. The identification of shifting patterns in the O3 distribution and the resulting changes in O3 exposure metrics across regions with large emission increases and decreases is an important step in examining the linkage between emissions and exposure metric trends. The results provide insight into the utility of using specific exposure metrics for assessing emission control strategies.
URI: http://hdl.handle.net/10397/65816
ISSN: 1352-2310
EISSN: 1873-2844
DOI: 10.1016/j.atmosenv.2016.12.025
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