Abstract
Northern China was hit by a severe dust storm on 15 March 2021, covering a large area and bring devastating impact to a degree that was unprecedented in more than a decade. In the study, we carried out a day-and-night continuous monitoring to the path of the moving dust, using multi-spectral data from the Chinese FY-4A satellite combined with the Japanese Himawary-8 from visible to near-infrared, mid-infrared and far-infrared bands. We monitored the whole process of the dust weather from the occurrence, development, transportation and extinction. The HYSPLIT(Hybrid Single Particle Lagrangian Integrated Trajectory) backward tracking results showed the following two main sources of dust affecting Beijing during the north China dust storm: one is from western Mongolia; the other is from arid and semi-arid regions of northwest of China. Along with the dust storm, the upper air mass, mainly from Siberia, brought a significant decrease in temperature. The transport path of the dust shown by the HYSPLIT backward tracking is consistent with that revealed by the satellite monitoring. The dust weather, which originated in western Mongolia, developed into the “3.15 dust storm” in north China, lasting more than 40 h, with a transport distance of 3900 km, and caused severe decline in air quality in northern China, the Korean peninsula and other regions. It is the most severe dust weather in the past 20 years in east Asia.
Highlights
Sand and dust storms are severe environmental issues and air pollution events occurring in arid and semi-arid regions of the world [1,2]
Influenced by the Mongolia cyclone, the dust weather originated in western Mongolia and developed into the “3.15 dust storm” in north China
We carried out a day-and-night continuous satellite monitoring using combined data from visible light channel, near-infrared channel, mid infrared to thermal infrared channels and window area of the FY-4A AGRI and Himawari-8 Advanced Himawari Imager (AHI)
Summary
Sand and dust storms are severe environmental issues and air pollution events occurring in arid and semi-arid regions of the world [1,2]. With the progress of satellite remote sensing technology in recent years, the new generation of geostationary environmental satellites can realize continuous and real-time monitoring of dust storm via the multi-channel observation data from visible light, short-wave infrared, medium-wave infrared and long-wave infrared [9,10]. The Maximum PM10 concentration at Ordos was 9985 μg/m3 from 20:00 March to 10:00 March, and that at Beijing it reached 9753 μg/m3 at 01:00 15 March, which was consistent with that observed by the satellite monitoring
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