Identifying Seasonal and Diurnal Variations and the Most Frequently Impacted Zone of Aerosols in the Aral Sea Region

With the desiccation of the Aral Sea, salt-alkali dust storms have increased in frequency and the surrounding environment has deteriorated. In order to increase our understanding of the characteristics and potential impact zone of atmospheric aerosols in the Aral Sea region, we evaluated seasonal an...

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Bibliographic Details
Published in:International journal of environmental research and public health 2022-10, Vol.19 (21), p.14144
Main Authors: Ge, Yongxiao, Wu, Na, Abuduwaili, Jilili, Kulmatov, Rashid, Issanova, Gulnura, Saparov, Galymzhan
Format: Article
Language:English
Subjects:
Aerosols
Aerosols - analysis
Air Pollutants - analysis
Air pollution
Biodiversity
Climate change
Desiccation
Diurnal variations
Dust
Dust - analysis
Dust storms
Ecosystems
Environmental Monitoring - methods
Eolian dust
Humans
Lakes
Rain
Remote sensing
Research methodology
Salt
Seasonal variations
Seasons
Smoke
Storms
Thickness
Water shortages
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Summary:With the desiccation of the Aral Sea, salt-alkali dust storms have increased in frequency and the surrounding environment has deteriorated. In order to increase our understanding of the characteristics and potential impact zone of atmospheric aerosols in the Aral Sea region, we evaluated seasonal and diurnal variation of aerosols and identified the zone most frequently impacted by aerosols from the Aral Sea region using CALIPSO data and the HYSPLIT model. The results showed that polluted dust and dust were the two most commonly observed aerosol subtypes in the Aral Sea region with the two accounting for over 75% of observed aerosols. Occurrence frequencies of polluted dust, clean continental, polluted continental/smoke, and elevated smoke showed obvious seasonal and diurnal variations, while occurrence frequency of dust only showed obvious seasonal variation. Vertically, the occurrence frequencies of all aerosol subtypes except dust showed significant diurnal variation at all levels. The thickness of polluted dust layers and dust layers exhibited same seasonal and diurnal variations with a value of more than 1.0 km year-round, and the layer thickness of clean continental and polluted continental/smoke shared the same seasonal and diurnal variation features. The zone most severely impacted by aerosols from the Aral Sea region, covering an area of approximately 2 million km , was mainly distributed in the vicinity of the Aral Sea region, including western Kazakhstan, and most of Uzbekistan and Turkmenistan. The results provide direct support for positioning monitoring of aeolian dust deposition and human health protection in the Aral Sea region.
ISSN:1660-4601
1661-7827
1660-4601
DOI:10.3390/ijerph192114144