Characteristics of surface ozone at an urban site of Xi'an in Northwest China

• Published in: Journal of environmental monitoring Vol. 14; no. 1; pp. 116 - 126
• Main Authors: Wang, Xin, Shen, Zhenxing, Cao, Junji, Zhang, Leiming, Liu, Li, Li, Jianjun, Liu, Suixin, Sun, Yufan
• Format: Journal Article
• Language: English
• Published: England 01.01.2012
• Subjects: Air Pollutants - analysis; Air Pollution - statistics & numerical data; China; Cities - statistics & numerical data; Environmental Monitoring; Models, Chemical; Nitrogen Oxides - analysis; Ozone - analysis; Seasons; Volatile Organic Compounds - analysis; China; China, People's Rep., Qinling Mts; China, People's Rep., Shaanxi Prov., Xian; China, People's Rep
• ISSN: 1464-0325; 1464-0333
• DOI: 10.1039/c1em10541h

Surface ozone concentrations in Xi'an, China were monitored from March 23, 2008 to January 12, 2009 using the Model ML/EC9810 ozone analyzer. The daily average O 3 ranged from <1 ppb to 64.2 ppbv with an annual average of 16.0 ppbv. The seasonal average of O 3 in summer (32.5 ppbv) was more than 10 times higher than that in winter (3.0 ppbv). A significant positive correlation was found between ozone concentration and ambient temperature, indicating that the intensity of solar radiation was one of the several major factors controlling surface ozone production. Using the NOAA HYSPLIT 4 trajectory model, the three longest O 3 pollution episodes were found to be associated with the high biogenic volatile organic carbon (BVOC) emissions from the vegetation of Qinling Mountains. No significant weekday and weekend difference in O 3 levels was detected due to the non-significant change in NO x emissions. O 3 depletion by NO emission directly emitted from vehicles, low oxygenated VOC concentrations, and low-level solar radiation caused by high aerosol loading all contributed to the low levels of O 3 found in Xi'an compared to other cities and rural areas. The purpose of the present study is to assess the current O 3 levels in Xi'an and to investigate factors controlling the O 3 levels.