Ground-level ozone in urban Beijing over a 1-year period: Temporal variations and relationship to atmospheric oxidation

“…Beijing and Tokyo are at similar latitudes in East Asia, so their O 3 concentrations and temporal variations are comparable (Akimoto et al, ; Wang et al, ; Yoshino et al, ). Accordingly, we assumed that the empirical relationship between O 3 and HO 2 concentrations established in Tokyo (Kanaya et al, ) was applicable for estimating the HO 2 concentrations in Beijing.…”

Influences of Atmospheric Pollution on the Contributions of Major Oxidation Pathways to PM_2.5 Nitrate Formation in Beijing

“…Beijing and Tokyo are at similar latitudes in East Asia, so their O 3 concentrations and temporal variations are comparable (Akimoto et al, ; Wang et al, ; Yoshino et al, ). Accordingly, we assumed that the empirical relationship between O 3 and HO 2 concentrations established in Tokyo (Kanaya et al, ) was applicable for estimating the HO 2 concentrations in Beijing.…”

Influences of Atmospheric Pollution on the Contributions of Major Oxidation Pathways to PM_2.5 Nitrate Formation in Beijing

“…Interestingly, the spring also had high WSOC/OC ratios. The relatively strong solar radiation and high concentrations of ozone in spring (Sun et al, 2015;Wang et al, 2015b) were plausible reasons. Other important factors may be the prevalent dust and relatively high wind speed in this season.…”

“…The high WSOC/OC ratio has been used to infer great extent of secondary aerosol formation and/or aging of aerosols during long-range transport (Ram et al, 2012). Therefore, the high WSOC/OC ratios in summer were likely due to active SOA formation associated with higher O 3 , solar radiation, and VOC emissions (Sun et al, 2015;Wang et al, 2015b). In addition, the high acidity in particulate in the summer of Beijing, which can enhance the production of secondary organic aerosols through heterogeneous acid-catalyzed chemistry (Pathak et al, 2011;Rengarajan et al, 2011), may be another reason.…”

Water-soluble organic carbon (WSOC) and its temperature-resolved carbon fractions in atmospheric aerosols in Beijing

“…As such, several source processes were expected to contribute to the pollution of NO x and O 3 (e.g., vehicle exhaust, evaporative emissions, petrochemical emissions, and coating-related emissions) (Choi et al (2011) in the target local environment. Likewise, Wang et al (2015) observed the regional transport of O 3 along the upwind directions in Beijing over a period of one year (December 2012 to November 2013) along with the relationship of its well-known precursors (CO,NO,and NO 2 ). It is interesting to note that from 2009 to 2012, the possibly important role of the oceanic sources was also observed along with local sources (Chen, 2014;Lim et al, 2010;Xu et al, 2008;Zhang et al, 2014).…”

Identification of nitrogen dioxide and ozone source regions for an urban area in Korea using back trajectory analysis