作者
PL Hayes, AM Ortega, MJ Cubison, KD Froyd, Y Zhao, SS Cliff, WW Hu, DW Toohey, JH Flynn, BL Lefer, N Grossberg, S Alvarez, B Rappenglück, JW Taylor, JD Allan, JS Holloway, JB Gilman, WC Kuster, JA De Gouw, P Massoli, X Zhang, J Liu, RJ Weber, AL Corrigan, LM Russell, G Isaacman, DR Worton, NM Kreisberg, AH Goldstein, R Thalman, EM Waxman, R Volkamer, YH Lin, JD Surratt, TE Kleindienst, JH Offenberg, S Dusanter, S Griffith, PS Stevens, J Brioude, WM Angevine, JL Jimenez
发表日期
2013/8/27
期刊
Journal of Geophysical Research: Atmospheres
卷号
118
期号
16
页码范围
9233-9257
简介
Organic aerosols (OA) in Pasadena are characterized using multiple measurements from the California Research at the Nexus of Air Quality and Climate Change (CalNex) campaign. Five OA components are identified using positive matrix factorization including hydrocarbon‐like OA (HOA) and two types of oxygenated OA (OOA). The Pasadena OA elemental composition when plotted as H : C versus O : C follows a line less steep than that observed for Riverside, CA. The OOA components from both locations follow a common line, however, indicating similar secondary organic aerosol (SOA) oxidation chemistry at the two sites such as fragmentation reactions leading to acid formation. In addition to the similar evolution of elemental composition, the dependence of SOA concentration on photochemical age displays quantitatively the same trends across several North American urban sites. First, the OA/ΔCO …
学术搜索中的文章
PL Hayes, AM Ortega, MJ Cubison, KD Froyd, Y Zhao… - Journal of Geophysical Research: Atmospheres, 2013