Abstract
A new method was developed to estimate mixed layer (ML) height with light detection and ranging (lidar) observations using a 2Dimensional (2D) wavelet method, which can consider the diurnal variation characteristics of ML height. Ideal signals and real lidar observations in Shanghai, China were used to evaluate the new method. The results showed that the new method is insensitive to the type of wavelet filters. The estimated ML heights obtained by the 2D wavelet method agreed well with both of the previous methods developed for the ML height probing using lidar, including the gradient method, the 1D-wavelet method, the standard deviation method, and the conventional radiosonde method. The primary differences among the results obtained via the different lidar methods occurred in the early morning or later afternoon; when the ML is well mixed, very small differences were observed among the different lidar methods. The new method showed better determination skills than other methods when compared to the radiosonde observation results. It also performed well when there were missing profiles or observation errors and it made the new method suitable for operations where data quality control may be missed.
Highlights
The planetary boundary layer (PBL) height is an important parameter that helps to characterize the PBL
The extinction coefficients calculated with the normalized relative backscatter (NRB) signals were used for the mixed layer (ML) height estimation in this paper
This study proposes the use of the 2D wavelet (W2D) method, which is based on the principle of image edge detection with lidar retrieval data to estimate the ML height
Summary
The planetary boundary layer (PBL) height is an important parameter that helps to characterize the PBL. The dispersion of air pollutants is largely dependent on PBL height and its diurnal variation. PBL height determines the height to which an air pollutant can reach via diffusion [1,2,3], and it is an important parameter for predicting pollution. The dynamics of the PBL and the concentration of ground pollutants mutually affect each other [4,5,6]. Determining PBL height is one of the key steps of the turbulence closure scheme in numerical models [7].
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