2003
DOI: 10.1029/2002jd003184
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Chemical composition of Asian continental outflow over the western Pacific: Results from Transport and Chemical Evolution over the Pacific (TRACE‐P)

Abstract: We characterize the chemical composition of Asian continental outflow observed during the NASA Transport and Chemical Evolution over the Pacific (TRACE‐P) mission during February–April 2001 in the western Pacific using data collected on the NASA DC‐8 aircraft. A significant anthropogenic impact was present in the free troposphere and as far east as 150°E longitude reflecting rapid uplift and transport of continental emissions. Five‐day backward trajectories were utilized to identify five principal Asian source… Show more

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Cited by 77 publications
(105 citation statements)
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“…Using CARIBIC observations, Lai et al (2010) also reported the CO / CO 2 ratio in the range of 15.6-29.3 ppb ppm −1 from the air mass influenced by both biofuel and fossil fuel burning in the Indochinese Peninsula. Further, the CO / CO 2 ratio is also observed at about 13 ppb ppm −1 in the south-eastern Asian outflow during February-April 2001 during the TRACE-P cam- paign and it suggests the combined influence of fossil fuel and biofuel burning (Russo et al, 2003). The overall ratios (using all data) from autumn to spring (8.4-12.7 ppb ppm −1 ) suggest the dominance of local emission sources during these seasons, and this range corresponds to the range of anthropogenic combustion sources (10-15 ppb ppm −1 ) in developed countries (Suntharalingam et al, 2004;Takegawa et al, 2004;Wada et al, 2011).…”
Section: Correlation Between Co and Comentioning
confidence: 92%
“…Using CARIBIC observations, Lai et al (2010) also reported the CO / CO 2 ratio in the range of 15.6-29.3 ppb ppm −1 from the air mass influenced by both biofuel and fossil fuel burning in the Indochinese Peninsula. Further, the CO / CO 2 ratio is also observed at about 13 ppb ppm −1 in the south-eastern Asian outflow during February-April 2001 during the TRACE-P cam- paign and it suggests the combined influence of fossil fuel and biofuel burning (Russo et al, 2003). The overall ratios (using all data) from autumn to spring (8.4-12.7 ppb ppm −1 ) suggest the dominance of local emission sources during these seasons, and this range corresponds to the range of anthropogenic combustion sources (10-15 ppb ppm −1 ) in developed countries (Suntharalingam et al, 2004;Takegawa et al, 2004;Wada et al, 2011).…”
Section: Correlation Between Co and Comentioning
confidence: 92%
“…Note that these initial parameters cover concentrations of chemical species from polluted urban air (e.g., BC = 10.0 µg m −3 and SO 2 = 10.0 parts per billion by volume (ppbv) at the surface in Beijing; Han et al, 2009;Takegawa et al, 2009) to free tropospheric air (e.g., BC = 0.1 µg m −3 and SO 2 = 0.1 ppbv in the free troposphere over the western Pacific; Russo et al, 2003;Oshima et al, 2012). The calculations were conducted using hourly photolysis rates for equinox at midlatitudes, although results obtained in this study can be applied irrespective of latitude and season (see Sects.…”
Section: Calculation Of Conversion Rate (1/τ Bc )mentioning
confidence: 99%
“…Aircraft campaigns have shown that variability in the amount of vertical transport out of East Asia impacts the amount of PAN that moves downwind Nowak et al, 2004;Russo et al, 2003). However Liang et al (2005) suggest that transpacific transport is mainly dependent on the meteorology in the eastern half of the Pacific.…”
Section: Other Potential Natural Drivers Of Pan Variabilitymentioning
confidence: 99%