Chemical Composition of PM2.5 and its Impact on Visibility in Guangzhou, Southern China

ABSTRACT

A one-year field experiment was conducted in 2013 at an urban and suburban site in Guangzhou, Southern China to study the chemical compositions of PM_2.5 and reconstruct the IMPROVE Algorithm to investigate the impact of aerosol components on visibility. Annual average PM_2.5 mass concentration was 61.3 ± 27.6 and 54.2 ± 29.7 µg m^–3 at the urban and suburban site, with organic matter (OM), sulfate (SO₄^2–), and nitrate (NO₃^–) among the dominant components, accounting for 40.3%, 16.3%, and 8.0% of the PM_2.5 mass concentration respectively. Based on the modified IMPROVE Algorithm, the localized Mass Scattering Efficiencies (MSE) for sulfate and nitrate was obtained, with values of 2.16 ± 0.34 m² g^–1 and 2.63 ± 0.66 m² g^–1 at urban site and 2.22 ± 0.31 m² g^–1 and 2.76 ± 0.84 m² g^–1 at suburban site. Hygroscopic growth factors (Gf) for OM and EC were also taken into consideration with average values of 1.28 ± 0.13 m² g^–1 and 1.15 ± 0.11 m² g^–1 at the urban site and 1.18 ± 0.09 m² g^–1 and 1.10 ± 0.09 m² g^–1 at the suburban site. The estimated total light extinction coefficient was 294.7 ± 106.9 and 255.8 ± 119.0 Mm^–1 at the urban and suburban site, with OM, SO₄^2– and NO₃^– contributing 41.7%, 16.5% and 11.5% at the urban site, and 42.1%, 21.3% and 9.1% at the suburban site. Secondary water-soluble ions and OM as a whole was becoming increasingly vital under polluted conditions, with nitrate in particular being more important under heavily polluted conditions in Guangzhou.