The Taklamakan Desert, one of the major sources of background Asian dust, is situated in the Tarim Basin, with the Tianshan Mountains in the north, Pamir Plateau in the west, and Kunlun Mountains in the south. Dunhuang (40°00?N, 94°30?E; 1146 m above sea level) is located in the east of the Taklamakan Desert, China. The area is significant for studying the initial state of Asian dust particle transportation, which is mainly influenced by westerly winds.
The Taklamakan Desert, one of the major sources of background Asian dust, is situated in the Tarim Basin, with the Tianshan Mountains in the north, Pamir Plateau in the west, and Kunlun Mountains in the south. Dunhuang (40°00?N, 94°30?E; 1146 m above sea level) is located in the east of the Taklamakan Desert, China. The area is significant for studying the initial state of Asian dust particle transportation, which is mainly influenced by westerly winds.
In a paper recently published in Atmospheric and Oceanic Science Letters, Dr. Ammara Habib, from the Institute of Atmospheric Physics, Chinese Academy of Sciences, and coauthors, report balloon-borne measurements of dust particles in the free troposphere (0–14 km above sea level in this study) under calm weather conditions over a Chinese desert region.
All balloon-borne measurements in this study were carried out at Dunhuang, in the Taklamakan Desert, during calm weather conditions. The aerosol number concentration, size distribution, mass concentration, and horizontal mass flux due to westerly wind were investigated. The measurements were performed on 17 August 2001, 17 October 2001, 11 January 2002, and 30 April 2002. Five channels (0.3, 0.5, 0.8, 1.2, and 3.6 μm in diameter) were used in the Optical Particle Counter for particle size measurements.
Coarse particle sizes were frequently observed in the mid and lower troposphere. The vertical profiles of aerosol number concentrations strongly suggest that mineral particles originating from desert areas have an influence locally and are transported long distances in all seasons. The vertical distribution of particle concentrations with aerosols larger than 3.6 μm in diameter exhibited a decrease in concentration at the altitude of 5–10 km above sea level.
Read more at Institute of Atmospheric Physics, Chinese Academy of Sciences
Image: This is the experimental site at Dunhuang. (Credit: Bin Chen)