Oceanologia | |
Lidar observation of aerosol transformation in the atmospheric boundary layer above the Baltic Sea | |
Stefan Sitarek1  Tadeusz Stacewicz2  Piotr Markuszewski3  Tomasz Petelski4  Przemysław Makuch4  | |
[1] Corresponding author at: Institute of Oceanology, Polish Academy of Sciences, Powstańców Warszawy 55, 81–712 Sopot, Poland.;Department of Environmental Science, Stockholm University, Stockholm, Sweden;Institute of Applied Optics, Warsaw, Poland;Institute of Oceanology, Polish Academy of Sciences, Sopot, Poland; | |
关键词: Aerosol; Lidars measurements; Atmospheric boundary layer; | |
DOI : | |
来源: DOAJ |
【 摘 要 】
Investigation results of a coarse and accumulation mode of aerosol properties above the Baltic Sea are reported. A most important role in the direct aerosol effect on climate have aerosols from the group of coarse and accumulation mode particles. Overseas in the atmosphere, there is a lot of aerosols from the fine fraction but their impact is not so important as coarse and accumulation mode particles. Sea spray emission from the sea surface takes place over a wide range of aerosol particle size distribution, it is also large in size range which are studying in this work (Lewis and Schwartz, 2004). The discussed range is most important in view of atmospheric optical properties, smaller particles do not have such an influence on scattering as particles from range 0.5–2 µm. The research was performed with a multiwavelength lidar. Due to the application of special software, the aerosol particle size distributions were retrieved from the lidar returns. That provided an opportunity to determine the profiles of the aerosol effective radius. We showed that the aerosol properties depend mainly on the direction of the air mass advection and the wind speed. The impact of the Baltic Sea on the aerosol size distribution is huge in the case of the advection from the open sea. Moreover, the aerosol effective radiuses in the whole boundary layer are much larger in the case of strong than for light wind. Our results suggest that the aerosol flux and the aerosol particle size distribution should be related to the wind speed in the emission function.
【 授权许可】
Unknown