کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
6342995 | 1620502 | 2016 | 11 صفحه PDF | دانلود رایگان |
- Potential dust transport has clear seasonal differentiation. Spring and summer have largest potential transport distance.
- Potential dust transport showed two main potential dust transport channels in different seasons and heights.
- Saline dust from the Ebinur Lake basin will significantly accelerate the melting of snow and ice in the Tianshan Mountains.
In this paper, the HYSPLIT model, driven with reanalysis meteorological data from 1978 to 2013, was used to understand the potential transport characteristics of dust and salt dust emanating from the playa of Ebinur Lake in arid northwest China. Daily air parcel trajectories were computed forward for 8Â days from an origin centered over Ebinur Lake at 100Â m above ground level. Air parcel trajectory density plots were mapped for seven levels: 0-100Â m agl., 100-500Â m agl., 500-1000Â m agl., 1000-1500Â m agl., 1500-2000Â m agl., 2000-3000Â m agl., and 3000-5000Â m agl. These show that potential dust transport pathways have clear seasonal differentiation. The potential transport distance of dust and salt dust is greatest in spring and summer. In autumn and winter, the potential transport of the high-density air trajectory is below 1000Â m traveling a shorter distance. Potential dust transport pathways showed notifying directivity in different seasons and heights. Southeast in spring and summer, and north to northeast in autumn and winter are the two main potential transport channels of dust and salt dust. Accordingly, dust and salt dust from the playa of Ebinur Lake may influence the atmospheric processes and biogeochemical cycles of a vast region. The main area of influence of dust and salt dust is close to the source area, and will significantly accelerate the melting of snow and ice in the Tianshan Mountains. This highlights the urgent need to combine remote sensing, isotope and other methods to further research the transport characteristics of dust and salt dust from the playa of the Ebinur Lake.
Journal: Atmospheric Research - Volumes 178â179, 1 September 2016, Pages 196-206