Abstract
In order to investigate the aerosol variability over the southwest region of Slovenia, an ultraviolet scanning elastic backscatter LiDAR was utilized to make the vertical scan for atmospheric probing. With the assumption of horizontal atmospheric homogeneity, aerosol optical variables were retrieved from the horizontal pixel data points of two-dimensional range-height-indicator (RHI) diagrams by using a multiangle retrieval method, in which optical depth is defined as the slope of the resulting linear function when height is kept constant. To make the data retrieval feasible and precise, a series of key procedures complemented the data processing, including construction of the RHI diagram, correction of Rayleigh scattering, assessment of horizontal atmospheric homogeneity and retrieval of aerosol optical variables. The measurement example demonstrated the feasibility of the ultraviolet scanning elastic backscatter LiDAR in the applications of the retrieval of aerosol extinction and determination of the atmospheric boundary layer height. Three months’ data combined with the modeling of air flow trajectories using Hybrid Single Particle Lagrangian Integrated Trajectory Model were analyzed to investigate aerosol variability. The average value of aerosol extinction with the presence of land-based air masses from the European continent was found to be two-times larger than that influenced by marine aerosols from the Mediterranean or Adriatic Sea.
Highlights
Aerosol extinction is a good measure in LiDAR applications to evaluate the aerosol characteristics, as the light extinction from aerosol is due to the dependence of light scattering and absorption on the aerosol size, shape, chemical composition and density [1,2]
Vertical profiles from elastic backscatter LiDAR suffer from the existence of an overlap function [13,14], which affects its probing in the near-filed atmosphere, especially in the study of the atmospheric boundary layer
Aerosol variability over the southwest region of Slovenia was investigated by using an ultraviolet scanning elastic backscatter LiDAR
Summary
Aerosol extinction is a good measure in LiDAR applications to evaluate the aerosol characteristics, as the light extinction from aerosol is due to the dependence of light scattering and absorption on the aerosol size, shape, chemical composition and density [1,2]. Raman LiDAR and high spectral resolution LiDAR are good solutions for the precise detection of aerosol extinction without any assumptions [11,12]. Their implementation is more complex and expensive, which limits their application to a large scope. For the application of scanning elastic backscatter LiDAR, the multiangle method is investigated to retrieve the vertical profile of atmospheric optical properties without the assumption of a relationship between extinction and backscatter coefficients [15,20]. Detail, which can be used in most scanning elastic backscatter LiDAR by using the multiangle retrieval method for the measurement of atmospheric variables
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