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Measurements of ozone and its precursors in Beijing during summertime: impact of urban plumes on ozone pollution in downwind rural areas.

Authors :
Xu, J.
Ma, J. Z.
Zhang, X. L.
Xu, X. B.
Xu, X. F.
Lin, W. L.
Wang, Y.
Meng, W.
Ma, Z. Q.
Source :
Atmospheric Chemistry & Physics; 2011, Vol. 11 Issue 23, p12241-12252, 12p
Publication Year :
2011

Abstract

Sea-land and mount-valley circulations are the dominant mesoscale synoptic systems affecting the Beijing area during summertime. Under the influence of these two circulations, the prevailing wind is southwesterly from afternoon to midnight, and then changes to northeasterly till forenoon. In this study, surface ozone (O<subscript>3</subscript>), carbon monoxide (CO), nitric oxide (NO), nitrogen dioxide (NO<subscript>2</subscript>), nitrogen oxide (NOx) and non-methane hydrocarbons (NMHCs) were measured at four sites located along the route of prevailing wind, including two upwind urban sites (Fengtai "FT" and Baolian "BL"), an upwind suburban site (Shunyi "SY") and a downwind rural site (Shangdianzi "SDZ") during 20 June--16 September 2007. The purpose is to improve our understanding of ozone photochemistry in urban and rural areas of Beijing and the influence of urban plumes on ozone pollution in downwind rural areas. It is found that ozone pollution was synchronism in the urban and rural areas of Beijing, coinciding with the regional-scale synoptic processes. Due to the high traffic density and local emissions, the average levels of reactive gases NO<subscript>x</subscript> and NMHCs at the non-rural sites were much higher than those at SDZ. The level of long-lived gas CO at SDZ was comparable to, though slightly lower than, at the urban sites. We estimate the photochemical reactivity (L<subscript>OH</subscript>) and the ozone formation potential (OFP) in the urban (BL) and rural (SDZ) areas using measured CO and NMHCs. The OH loss rate coefficient (L<subscript>OH</subscript>) by total NMHCs at the BL and SDZ sites are estimated to be 50.7 s<superscript>-1</superscript> and 15.8 s<superscript>-1</superscript>, respectively. While alkenes make a major contribution to the L<subscript>OH</subscript>, aromatics dominate OFP at both urban and rural sites. With respect to the individual species, CO has the largest ozone formation potential at the rural site, and at the urban site aromatic species are the leading contributors. While the O<subscript>3</subscript> diurnal variations at the four sites are typical for polluted areas, the ozone peak values are found to lag behind one site after another along the route of prevailing wind from SW to NE. Intersection analyses of trace gases reveal that polluted air masses arriving at SDZ were more aged with both higher O<subscript>3</subscript> and O<subscript>x</subscript> concentrations than those at BL. The results indicate that urban plume can transport not only O<subscript>3</subscript> but its precursors, the latter leading more photochemical O<subscript>3</subscript> production when being mixed with background atmosphere in the downwind rural area. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
16807316
Volume :
11
Issue :
23
Database :
Complementary Index
Journal :
Atmospheric Chemistry & Physics
Publication Type :
Academic Journal
Accession number :
70317403
Full Text :
https://doi.org/10.5194/acp-11-12241-2011