https://scholars.lib.ntu.edu.tw/handle/123456789/364763
Title: | Observations of ozone and carbon monoxide at Mei-Feng mountain site (2269ma.s.l.) in Central Taiwan: Seasonal variations and influence of Asian continental outflow | Authors: | Lin, Y.C. Lin, C.Y. PO-HSIUNG LIN Engling, G. Lan, Y.-Y. Kuo, T.-H. Hsu, W.T. Ting, C.-C. |
Keywords: | Asian continental outflow; Asian Pacific rim; Carbon monoxide; Diurnal variation; Long-range transport; Ozone | Issue Date: | 2011 | Journal Volume: | 409 | Journal Issue: | 16 | Start page/Pages: | 3033-3042 | Source: | Science of the Total Environment | Abstract: | Continuous measurements of ozone (O3) and carbon monoxide (CO) were carried out at Mei-Feng (24.05°N, 120.10°E, 2269m above sea level), a remote mountain site in central Taiwan, to investigate the influence of long-range transported air pollution on O3 and CO variations in the subtropical Pacific region. Data collected from March 2009 to September 2010 revealed average mixing ratios of 37±14ppb for O3 and 188±82ppb for CO at this remote site. Diurnal variations for both O3 and CO were observed as well in all seasons. The higher levels for O3 and CO in the afternoon were attributed to transport of boundary layer pollution to the site during daytime upslope flow. Monthly means of both O3 and CO showed maxima in spring and in the continental air masses from Southeast Asia, coastal China, and Korea/Japan. On the contrary, the lower O3 and CO levels found in summer were due to the marine air masses originating from the Philippine Sea and Pacific Ocean. The relationship between O3 and CO was analyzed, using nighttime data to minimize any local influence. The results showed a fairly good correlation between O3 and CO from March to September. The contribution of CO from the Asian outflow reached a maximum in spring (88ppb) and had a minimum in summer (27ppb). The photochemical buildup of O3 resulting from anthropogenic emissions in continental Asia was estimated to be 15ppb in spring, while its production was insignificant, with an average of 4ppb, in summer. A positive correlation between O3 and CO plus high ozone levels in springtime suggested that the enhancements of O3 were likely due to O3 which was photochemically produced over this region. © 2011 Elsevier B.V. |
URI: | http://www.scopus.com/inward/record.url?eid=2-s2.0-79958713318&partnerID=MN8TOARS http://scholars.lib.ntu.edu.tw/handle/123456789/364763 |
DOI: | 10.1016/j.scitotenv.2011.04.023 | SDG/Keyword: | Anthropogenic emissions; Asian Pacific rim; Co-variations; Coastal China; Continental air mass; Continental outflow; Continuous measurements; Diurnal variation; Good correlations; Local influence; Long range transport; Marine air; Mixing ratios; Ozone levels; Pacific ocean; Positive correlations; Remote sites; Seasonal variation; Southeast Asia; Upslope flows; Air quality; Carbon monoxide; Landforms; Ozone; Pollution; Ozone layer; carbon monoxide; ozone; air mass; atmospheric pollution; boundary layer; carbon monoxide; diurnal variation; mixing ratio; ozone; photochemistry; seasonal variation; air pollution; airflow; article; China; circadian rhythm; controlled study; Japan; Korea; Pacific Ocean; Philippines; photochemistry; pollution transport; priority journal; seasonal variation; Southeast Asia; spring; summer; Taiwan; Air Movements; Air Pollutants; Air Pollution; Asia; Atmosphere; Carbon Monoxide; Environment; Environmental Monitoring; Ozone; Seasons; Taiwan; Pacific Ocean; Philippine Sea; Taiwan |
Appears in Collections: | 大氣科學系 |
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