1. Observing a dust aerosol layer at a height of 3–4 km above the ground on the southern margin of the Tarim Basin.
- Author
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He, Qing, Li, Jinglong, Zhao, Tianliang, Zhang, Hailiang, and Meng, Lu
- Subjects
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DUST , *AEROSOLS , *GLOBAL environmental change , *PARTICULATE matter , *EVAPOTRANSPIRATION , *CHEMICAL models , *CLIMATE change - Abstract
The vertical distribution and transport properties of dust aerosols play a key role in regional and even global climate and environmental changes. However, there are still gaps in understanding the optical properties, transport mechanisms, and topographic effects on dust in the dust-prone area-southern margin of the Tarim Basin. In this study, we use the Ground-Based Aerosol Lidar (GBQL-01) installed in Hotan and Minfeng in cooperation with the Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) to synthesize and analyze the dust formation process at the southern margin of the basin once, and to test the reliability of the ground-based aerosol lidar. The variability characteristics of meteorological elements during this dust process will be discussed. Furthermore, the Weather Research and Forecasting Model with Chemistry (WRF-Chem) was used to reproduce this dust process. The results show that the vertical transport of dust particles reaches about 4 km and 3 km in Hotan and Minfeng, respectively, and the dust aerosol stratification intensity is obvious within 1 km height in both places, and there is a dust aerosol layer at 3 km height in both places. The high winds are blocked by the large topography of the Tianshan Mountains and the northern slopes of the Tibet Plateau, and they change to northeasterly winds, triggering dusty weather outbreaks at the southern margin of the Tarim Basin. When the dusty weather subsided, dust aerosols with concentrations of 300–400 μg m−3 were still present at an altitude of 4 km, and a clear suspended dust phenomenon was formed. Meanwhile, the increase of wind speed and relative humidity, as well as the decrease of temperature, easily contribute to the occurrence of dusty weather and the transport of particulate matter. This work provides a useful reference for the study of regional climate change, topographic effects and "suspended dust". • The evaluation of the ground-based aerosol lidar's performance was conducted in an integrated manner using CALIPSO and particulate matter data. This assessment is essential for future studies. • Data on the height of dust stratification in the southern margin of the Tarim Basin (Hotan and Minfeng) was collected, confirming the presence of a stable aerosol layer at an altitude of 3 km. • The analysis using the WRF-Chem model clearly demonstrates the influence of topographic effects on dust aerosols. Additionally, this study confirms the occurrence of a unique phenomenon known as "suspended dust.". [ABSTRACT FROM AUTHOR]
- Published
- 2024
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