Publications

Zhao, YF; Ding, JX; Han, Y; Lu, TW; Zhang, YR; Luo, H (2023). Aerosol Physical-Optical Properties under Different Stages of Continuous Wet Weather over the Guangdong-Hong Kong-Macao Greater Bay Area, China. REMOTE SENSING, 15(5), 1413.

Abstract
The spatiotemporal distributions and physical-optical properties of aerosols are of great scientific significance for the study of climate change and atmospheric environment. What are the characteristics of aerosols in constant high humidity? Continuous wet weather (CWW) is a special weather phenomenon that occurs frequently during the late winter and early spring in South China. In this study, the CALIPSO satellite data and the ERA5 and MERRA-2 reanalysis data are used to analyze the aerosol optical properties of a total of 68 CWW processes from 2012 to 2021 in the Guangdong-Hong Kong-Macau Greater Bay Area (GBA). We attempt to explore the variations in meteorological conditions and physical-optical properties of aerosols during the before-stage, wet-stage, and after-stage under different humidity levels. The results show that the prevailing wind direction is northeasterly and that the temperature and humidity are lower under the influence of cold high pressure in the before-stage. Moreover, the high aerosol optical depth (AOD) mainly results from regional transport. During the wet-stage, clean ocean airflow causes AOD to remain at a low level, whereas temperature and humidity increase significantly. The wet-stage ends with coldness when it is controlled by cold high pressure again. The atmospheric circulation in the after-stage is similar to that in the before-stage. However, a remarkable feature is that there is a temperature and humidity inversion layer, which results in a significant increase in AOD. This study reveals the physical-optical properties of aerosols during the three stages and the influence mechanism of meteorological factors on aerosols, which can provide a scientific basis for the study of CWW in the future.

DOI:
10.3390/rs15051413

ISSN:
2072-4292