Supplementary material to "Mixing state of refractory black carbon in fog and haze at rural sites in winter on the North China Plain"

The variability of the mixing state of refractory black carbon aerosol (rBC) and the corresponding complicated light absorption capacity imposes great uncertainty for its climate forcing assessment. In this study, field observations using a single-particle soot photometer (SP2) were conducted to investigate the mixing state of rBC under different meteorological conditions at a rural site on the North China Plain. The results showed that the hourly mass concentration of rBC during the observation periods was 2.6 +/- 1.5 mu gm(-3) on average, with a moderate increase (3.1 +/- 0.9) during fog episodes. The mass-equivalent size distribution of rBC exhibited an approximately lognormal distribution with a mass median diameter (MMD) of 213 nm. We found that the count median diameter (CMD) of rBC particles during snowfall episodes was larger than that before snowfall, and the number of rBC particles with D-c<121 nm were reduced by 28.4 % after snow. This may indicate that rBC-containing particles with small core sizes (D-c) were much more effectively removed by snow with light snow intensity (0.23 mmh-1). Based on the Mie scattering theory simulation, the relative and absolute coating thicknesses of rBC-containing particles were estimated to be similar to 1.6 and similar to 52 nm for the rBC core with a mass-equivalent diameter (D-c) of 170 to 190 nm, respectively, which indicates that most of the rBC-containing particles were thinly coated. Furthermore, a moderate light absorption enhancement (E-abs=1.3) and relatively low absorption cross section (MAC = 5.5 m(2)g(-1)) at 880 nm were observed at the Gucheng (GC) site in winter compared with other typical rural sites. The relationship between the microphysical properties of rBC and meteorological conditions was also studied. Relatively warm and high-RH environments (RH>50%, -4 degrees C更多