Dust and climate interactions in the Middle East: Spatio-temporal analysis of aerosol optical depth and climatic variables

干旱 干旱指数 沙漠气候 降水 蒸散量 自然地理学 环境科学 气候学 气候变化 构造盆地 地理 蒸发皿 趋势分析 气溶胶 生态学 地质学 气象学 海洋学 古生物学 机器学习 生物 计算机科学
作者
Hossein Mousavi,Davood Moshir Panahi,Zahra Kalantari
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:927: 172176-172176 被引量:21
标识
DOI:10.1016/j.scitotenv.2024.172176
摘要

The Middle East (ME) is grappling with an alarming increase in dust levels, measured as aerosol optical depth (AOD), which poses significant threats to air quality, human health, and ecological stability. This study aimed to investigate correlations between climate and non-climate driving factors and AOD in the ME over the last four-decade (1980–2020), based on analysis of three variables: actual evapotranspiration (AET), potential evapotranspiration (PET), and precipitation (P). A comprehensive analysis is conducted to discern patterns and trends, with a particular focus on regions such as Rub al-Khali, Ad-Dahna, An-Nafud Desert, and southern Iraq, where consistently high dust levels were observed. 77 % of the study area is classified as arid or semi-arid based on the aridity index. Our results indicate an upward trend in dust levels in Iraq, Iran, Yemen, and Saudi Arabia. We noted an increasing AET trend in regions such as the Euphrates and Tigris basin, northern-Iran, and the Nile region, along with rising PET levels in arid and semi-arid zones such as Iran, Iraq, and Syria. Conversely, P showed a notable decrease in northern-Iraq, Syria, southwestern Iran, and southern-Turkey. Comparison of long-term changes (10-year moving averages) of AOD and P showed a consistent increase in AOD with P levels decreasing in all climate regions. Utilizing Budyko space-based analysis, we found that climatic factors mainly influence much of the Middle East, while non-climatic factors have a strong impact on certain areas like the Euphrates and Tigris-basin, Iraq, and northern-Iran. The Middle East experiences complex and intricate interactions between dust events and their drivers. To address this issue, a comprehensive and multi-system approach is necessary, which considers both climate and non-climate drivers. Moreover, an efficient dust control strategy should include soil and water conservation, advanced monitoring, and public awareness campaigns that involve regional and international collaboration.
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