Abstract
Every year, a large number of aerosols are released from dust storms into the atmosphere, which may have potential impacts on the climate, environment, and air quality. Detecting dust aerosols and monitoring their movements and evolutions in a timely manner is a very significant task. Satellite remote sensing has been demonstrated as an effective means for observing dust aerosols. In this paper, an algorithm based on the multi-spectral technique for detecting dust aerosols was developed by combining measurements of moderate resolution imaging spectroradiometer (MODIS) reflective solar bands and thermal emissive bands. Data from dust events that occurred during the past several years were collected as training data for spectral and statistical analyses. According to the spectral curves of various scene types, a series of spectral bands was selected individually or jointly, and corresponding thresholds were defined for step-by-step scene classification. The multi-spectral algorithm was applied mainly to detect dust storms in Asia. The detection results were validated not only visually with MODIS true color images, but also quantitatively with products of Ozone Monitoring Instrument (OMI) and Cloud Aerosol Lidar with Orthogonal Polarization (CALIOP). The validations showed that this multi-spectral detection algorithm was suitable to monitor dust aerosols in the selected study areas.
Highlights
The study of atmospheric aerosols has become a very interesting topic in recent years due to evidence showing their impact on climate change [1]
The validations showed that this multi-spectral detection algorithm was suitable to monitor dust aerosols in the selected study areas
Some dust storms can remain suspended in the air for several days and travel by wind far from where they originated
Summary
The study of atmospheric aerosols has become a very interesting topic in recent years due to evidence showing their impact on climate change [1]. Usually occurring in arid and semi-arid regions, can carry large quantities of dust and move forward like an overwhelming tide to destroy crop plants, ruin mining and communication facilities, weather vestiges, damage small villages, reduce visibility, and hinder human daily activities, as well as impact aircraft and road transportation. It pollutes the atmosphere and air quality, influences cloud formation [3], obscures sunlight, and alters temperature. Some dust storms can remain suspended in the air for several days and travel by wind far from where they originated
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