Contributions of regional and intercontinental transport to surface ozone in the Tokyo area

Yoshitomi, M. and Wild, O. and Akimoto, H. (2011) Contributions of regional and intercontinental transport to surface ozone in the Tokyo area. Atmospheric Chemistry and Physics, 11 (15). pp. 7583-7599. ISSN 1680-7316

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Japan lies downwind of the Asian continent and for much of the year air quality is directly influenced by emissions of ozone precursors over these heavily-populated and rapidly-industrializing regions. This study examines the extent to which oxidant transport from regional and distant anthropogenic sources influences air quality in Japan in springtime, when these contributions are largest. We find that European and North American contributions to surface ozone over Japan in spring are persistent, averaging 3.5 +/- 1.1 ppb and 2.8 +/- 0.5 ppb respectively, and are greatest in cold continental outflow conditions following the passage of cold fronts. Contributions from China are larger, 4.0 +/- 2.8 ppb, and more variable, as expected for a closer source region, and are generally highest near cold fronts preceding the influence of more distant sources. The stratosphere provides a varying but ever-present background of ozone of about 11.2 +/- 2.5 ppb during spring. Local sources over Japan and Korea have a relatively small impact on mean ozone, 2.4 +/- 7.6 ppb, but this masks a strong diurnal signal, and local sources clearly dominate during episodes of high daytime ozone. By examining the meteorological mechanisms that favour transport from different source regions, we demonstrate that while maximum foreign influence generally does not occur at the same time as the greatest buildup of oxidants from local sources, it retains a significant influence under these conditions. It is thus clear that while meteorological boundaries provide some protection from foreign influence during oxidant outbreaks in Tokyo, these distant sources still make a substantial contribution to exceedance of the Japanese ozone air quality standard in springtime.

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Journal Article
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Atmospheric Chemistry and Physics
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08 Sep 2011 13:32
Last Modified:
23 Sep 2021 03:51