Synoptic Conditions at Pressure Different Levels for the Dust Storm of May/ 2022 Over Iraq

https://doi.org/10.22146/ijg.93329

Ebtihal Al-khakani(1*), Alyaa Matai Hamed(2)

(1) Department of Physics, College of Education for Girls, University of Kufa, al Najaf, Iraq.
(2) Department of Geography, College of Education for Girls, Kufa University, al Najaf, Iraq.
(*) Corresponding Author

Abstract


This study examines the severe dust storm from May 12-16/2022,culminating on May 15, with a comprehensive analysis and explanation. The weather maps from the National Oceanic and Atmospheric Administration (NOAA) and the European Centre for Medium-Range Weather Forecasts (ECMWF) weather maps were used to identify systems and patterns that contributed to the storm's activity, continuity, and tracking as well as maps of pressure compounds and wind vectors in levels 1000 and 850 mbar that appear with the dust state for the same days accompanied by tracking patterns in the middle of the turbosphere 500 mbar to give a comprehensive analytical view of climate conditions at each level of pressure and higher systems supportive of their persistence on the surface. The northwesterly winds are the main factor that carries dust over long distances. The eastern desert in Syria, the Empty Quarter in the Kingdom of Saudi Arabia, the desert of western Iran, and the desert region of western Iraq are among the main sources of dust In its atmosphere. Based on weather maps of the surface and upper levels of storm days, the concentration of dust reached very high levels in Iraq's airspace and surrounding countries, including Egypt, Jordan, Lebanon, Palestine, and Syria. The intensity of the dust gradually decreased as the area was affected by wet westerly winds with relatively low temperatures and a relative increase in wind speeds due to the impact of the study area on the atmospheric decline centered around the Turkish island of Cyprus.


Keywords


Dust Storms, Weather Map, NOAA, ECMWF, Iraq.

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References

Al-Jizani, Balsam Shaker Shanishil, northwestern winds in Iraq and their impact on temperature and rainfall, Master’s thesis, University of Baghdad, College of Education for Girls, 2010, p. 21.

Al-Jumaily, K. J., & Ibrahim, M. K. (2013). Analysis of the synoptic situation for dust storms in Iraq. Int. J. Energ. Environ, 4(5), 851-858.

Alkhalidi, J., & Stefan, S. (2017). The influence of geopotential height on temperature variability over Iraq. In the EGU General Assembly Conference Abstracts Vol. 19, EGU2017-872.

Al-Khalidi, J., Bakr, D., & Abdullah, A. A. (2021). Synoptic Analysis of Dust Storm in Iraq. Environment Asia, 14(1).

Al-Lami, Huda Abbas, Dust in Iraq, Iraq Metrological Organization, Baghdad, 2012, p.3.

Al-Qadi Taghreed. (2001). The effect of surface and upper-pressure systems on the formation of dust storms in Iraq, Master’s thesis, University of Baghdad, College of Literature, 82-132.

Balsam Sh. A. (2010). Northwestern winds in Iraq and their impact on temperature and rainfall, Master’s thesis, University of Baghdad, College of Education for Girls, p. 21.

Cao, H., Amiraslani, F., Liu, J., & Zhou, N. (2015). Identification of dust storm source areas in West Asia using multiple environmental datasets. Science of the Total Environment, 502, 224-235.

Dhuha S. Zaiter, Kais J. Al-Jumaily, Characteristics of Thermal Wind over Iraq, International Journal of Scientific and Research Publications, Volume 6, Issue 5, 2016, P142-143.

European Centre for Medium-Range Weather Forecasts,https://apps.ecmwf.int/datasets/data/interim-full daily/levtype=sfcdata. https://meteologix.com/om/reanalysis/ecmwf-era5/Iraq/sea-level-pressure/20191001-0600z.html.

Ibrahim M. K. (2013). Analysis and study of synoptic patterns of dust storms in Iraq using satellite and NCEP data. M.Sc. Thesis. Dept. of Atmospheric Sciences, Al-Mustansiriyah University. International Bank for Reconstruction and Development, Sand and Dust Storms in the Middle East and North Africa (MENA) Region Sources, Costs, and Solutions, Washington, 2019, p.9.

Jasim, F. H. (2018). Meteorological Analysis of Severe Dust Storm over the Middle East. Al-Mustansiriyah Journal of Science, 29(2), 1-9.

Kutiel Haim F., Dust in the Middle East: Sources of Origin and Their Temporal Characteristics, Environmental Problems Affecting Health, Original Paper, Indoor Built Environ, University of Haifa, 2003, P421.

Majeed, H. T., & Qasim, H. M. (2021). Synoptic Situation of 28-31 October 2017 Severe Dust Storm over Iraq. Al-Mustansiriyah Journal of Science, 32(2).

Mohammed, S. K., Al Fatla, N. M., & Abdul Wahab, S. A. (2015). Analyzing the synoptic patterns associated with dust events over West Asia during the summer months Studies. Journal of Applied Physics, 7, 53-66.

Namdari, S., Karimi, N., Sorooshian, A., Mohammadi, G., & Sehatkashani, S. (2018).Impacts of climate and synoptic fluctuations on dust storm activity over the Middle East. Atmospheric environment, 173,265-276.

National Oceanic and Atmospheric Administration NOAA. https://psl.noaa.gov/cgi-in/data composites/print page.pp1.

Schemm, S., Rüdisühli, S., & Sprenger, M. (2020). The life cycle of upper-level troughs and ridges: a novel detection method, climatologies and Lagrangian characteristics. Weather and Climate Dynamics, 1(2), 459-479.

Sissakian, V., Al-Ansari, N., & Knutsson, S. (2013). Sand and dust storm events in Iraq. Journal of Natural Science, 5(10), 1084-1094.




DOI: https://doi.org/10.22146/ijg.93329

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