The influence of upslope fog on hygroscopicity and chemical composition of aerosols at a forest site in Taiwan

This study investigated the influence of upslope fog formation on the chemical composition and single hygroscopicity parameter (kappa) of rural aerosols from Dec. 1st to Dec. 24th, 2018 at the Xitou forest site (23.67 degrees N, 120.80 degrees E, 1178 m above sea level (a.s.l.)) in central Taiwan. The aerosol chemical compositions were monitored using a mini compact time-of-flight aerosol mass spectrometer (mini-C-ToF-AMS), and the ambient aerosol particles were collected by a 13-stage micro-orifice uniform deposit impactor (MOUDI) for a Fourier-transform infrared spectrometer with an attenuated total reflectance accessory (FTIR-ATR) analysis. kappa of aerosols was derived from the comparison of AMS pToF size distribution and FTIR-ATR measurement using the kappa-Kohler equation. Our results show that the moderate correlation between OOA and CO provided evidence of upstream anthropogenic emission and time-lagged aged secondary organic aerosol transport by the daytime sea breeze and valley wind. Larger particles (D-va similar to 800 nm -1.0 mu m) had a higher fog scavenging removal efficiency (62% for organic and 81% for nitrate, respectively), and smaller particles (D-va similar to 100 nm-700 nm) could remain growth through gas-to-aqueous partition. The submicrometer nitrate particles were likely significantly formed via gas particle partitioning as HNO3(aq) or NH4NO3 while the larger micrometer-sized sea salt-like nitrate particles might be formed via heterogeneous reaction of gaseous HNO3 with deliquesced sea salt particles. The inconsistency of submicrometer nitrate between real-time AMS and offline FTIR-ATR measurements indicates that the evaporation loss of HNO3 or NH4NO3 during MOUDI filter sampling could lead to the unavailable kappa(p-NO3) (kappa for nitrate-containing particles) retrieval. The average kappa(p-org) (organics-containing particles) was 0.19 +/- 0.12 (r(2) >= 0.8) and nearly overlapped with kappa(p-SO4) (0.22 +/- 0.08) (sulfate-containing particles) during misty daytime, indicating that aerosols were more likely internally mixed particles to have similar hygroscopicity and physical mixing state property.