To understand the development mechanism of the aerosols in the surface boundary layer, the variation in the aerosol number concentration due to the divergence and convergence of the wind fields was investigated. The aerosol number concentration was measured in the size ranges of 0.3∼10.0 ㎛ using a laser particle counter(LPC) from 0000 LST on 03 Feb. to 0600 LST on 07 Feb. 2004 at Mokpo in Korea during snowfall. The Velocity Azimuth Display(VAD) technique was used to retrieve the radar wind fields such as the horizontal wind field, divergence, and deformations including the vertical air velocity from a single Doppler radar. As a result, the distribution of the aerosol number concentration is apparently different for particles larger than 1 ㎛ during snowfall, and it has a tendency to increase at the beginning of the snowfall. The increase and decrease in the aerosol concentration due to the convergence and divergence of the wind fields corresponded to the particles with diameters greater than 1 ㎛. It is found that the fluctuations in the aerosol number concentration are well correlated with the development and dissipation of snowfall radar echoes due to the convergence and divergence of horizontal wind fields near the surface boundary layer in the inland during the snowfall.

• 이동인(부경대학교 환경대기과학과) | Dong-In Lee Corresponding Author
• 강미영(부경대학교 환경대기과학과) | Mi-Young Kang
• 서길종(부경대학교 지구환경공학연협동과정) | Kil-Jong Seo
• 유철환(기상청) | Cheol-Hwan You
• 박성화(부경대학교 지구환경공학연협동과정) | Sung-Hwa Park
• 김부경(부경대학교 지구환경공학연협동과정) | Poo-Kyoung Kim
• 박남식(부산시청 환경보전과) | Nam-Sik Park