Abstract
Four synoptic regimes were identified as accompanying the widespread dust in central and eastern Saudi Arabia. The widespread cases of dust were classified based on the value and spread of the aerosol index data from the TOMS aerosol index (TOMS AI) satellite over the area of interest. The synoptic regimes of these dust cases were recognized using the Empirical Orthogonal Function (EOF) analysis of their mean sea level pressure (SLP), which was obtained from the National Centers for Environmental Prediction and the National Center for Atmospheric Research (NCEP/NCAR) Reanalysis Project dataset. The variations of the analyzed SLP of these four regimes appeared as meridional distributions for the first two regimes and zonal distributions for the second two regimes. A surface synoptic study of the first two regimes showed that the most significant features were either a strong low-pressure system over the eastern region or a strong high-pressure system over the western region. The synoptic features for the less significant regimes (the second two regimes) were characterized by the interaction between the northern high-pressure belt, which shifted northward because of the significant regime decrease, and the southern low-pressure belt. In addition, the upper synoptic study showed that the upper synoptic systems support the surface systems. Moreover, the study showed that the surface northerly wind over the eastern Arabian Peninsula is the dominant wind during strong dust activity, whereas the surface southerly wind is dominant during weak dust activity.
Highlights
The Arabian Peninsula and surrounding deserts is one the major dust-source regions in the world [1,2]; dust production in these areas is more active from April to July [3,4,5], and it is considered as the most dominant source region of dust that affected Iran [6]
Mashat and Awad [10] classified the Arabian Peninsula source regions into temporary and permanent dust regions, with the eastern region classified as a permanent dust source region
By considering the unique conditions of the different regions regarding the synoptic features associated with dust events, the purpose of this study is to specify the main synoptic types of the widespread spring dust events in central and eastern Saudi Arabia
Summary
The Arabian Peninsula and surrounding deserts is one the major dust-source regions in the world [1,2]; dust production in these areas is more active from April to July [3,4,5], and it is considered as the most dominant source region of dust that affected Iran [6]. Mashat and Awad [10] classified the Arabian Peninsula source regions into temporary and permanent dust regions, with the eastern region classified as a permanent dust source region. Suitable atmospheric conditions are required for lifting the dust from its source into the atmosphere [12]. An extensive discussion of the causes of the Middle Eastern dust storms can be found in [13]
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