Journal of Advances in Environmental Health Research

Journal of Advances in Environmental Health Research

Investigating the Occurrence of Dust Storms and its Zoning Using GIS During 2018-2021: A Case Study in Ahvaz, Iran

Document Type : Original Article

Author
Sara Jafari Dezfooli
Department of Natural Resources-Environmental Engineering, Khuzestan Sciences and Research Branch, Ahvaz, Iran
10.34172/jaehr.1320
Abstract
Background: A dust storm is a critical environmental issue and natural hazard in arid and semiarid regions worldwide. Particulate matters including PM10 and PM2.5 are of the primary air pollutants, which can adversely affect human health. This research aimed to determine the fine dust concentration spatiotemporally and estimate the suspended particulate matter (PM10 and PM2.5) during 2018-2021 in Ahvaz.
Methods: An analytical- descriptive method and the data from synoptic weather stations in the studied area were used in this study. The zoning of dust was done using the kriging method by ArcGIS software.
Results: The results indicated that the year 2021 experienced the highest frequency of dusty days, with 54 occurrences, while the year 2019 exhibited the lowest frequency, with only 28 dusty days. Notably, Ahvaz city recorded the highest dust concentration in 2020, reaching an average of 4667 mg/m3. Based on the findings of PM concentration over the four-year period, it is evident that 2021 recorded the highest PM10 concentration (326.14 mg/m3), while 2020 exhibited the highest PM2.5 concentration (148.26 mg/m3).
Conclusion: The results revealed that there was an increase in dust concentration in the east and north. This is probably attributed to the proximity to dust centers.
Keywords
Dust storm
Zoning
Indoor sources
Concentration of PM

Subjects

  1. Zhang Y, Liu Y, Kucera PA, Alharbi BH, Pan L, Ghulam A. Dust modeling over Saudi Arabia using WRF-Chem: March 2009 severe dust case. Atmos Environ. 2015;119:118-30. doi: 10.1016/j.atmosenv.2015.08.032.
  2. Cao H, Amiraslani F, Liu J, Zhou N. Identification of dust storm source areas in West Asia using multiple environmental datasets. Sci Total Environ. 2015;502:224-35. doi: 10.1016/j. scitotenv.2014.09.025.
  3. Furman HK. Dust storms in the Middle East: sources of origin and their temporal characteristics. Indoor Built Environ. 2003;12(6):419-26. doi: 10.1177/1420326x03037110.
  4. He S, Wang D, Li Y, Zhao P, Lan H, Chen W, et al. Social-ecological system resilience of debris flow alluvial fans in the Awang basin, China. J Environ Manage. 2021;286:112230. doi: 10.1016/j.jenvman.2021.112230.
  5. He S, Wang D, Zhao P, Li Y, Lan H, Chen W, et al. A review and prospects of debris flow waste-shoal land use in typical debris flow areas, China. Land Use Policy. 2020;99:105064. doi: 10.1016/j.landusepol.2020.105064.
  6. Tan M, Li X, Xin L. Intensity of dust storms in China from 1980 to 2007: a new definition. Atmos Environ. 2014;85:215-22. doi: 10.1016/j.atmosenv.2013.12.010.
  7. Middleton N, Tozer P, Tozer B. Sand and dust storms: underrated natural hazards. Disasters. 2019;43(2):390-409. doi: 10.1111/disa.12320.
  8. Elmore AJ, Kaste JM, Okin GS, Fantle MS. Groundwater influences on atmospheric dust generation in deserts. J Arid Environ. 2008;72(10):1753-65. doi: 10.1016/j. jaridenv.2008.05.008.
  9. Yu Y, Notaro M, Liu Z, Wang F, Alkolibi F, Fadda E, et al. Climatic controls on the interannual to decadal variability in Saudi Arabian dust activity: toward the development of a seasonal dust prediction model. J Geophys Res Atmos. 2015;120(5):1739-58. doi: 10.1002/2014JD022611.
  10. Wong S, Dessler AE. Suppression of deep convection over the tropical North Atlantic by the Saharan Air Layer. Geophys Res Lett. 2005;32(9). doi: 10.1029/2004GL022295.
  11. Menéndez I, Díaz-Hernández JL, Mangas J, Alonso I, Sánchez- Soto PJ. Airborne dust accumulation and soil development in the North-East sector of Gran Canaria (Canary Islands, Spain). J Arid Environ. 2007;71(1):57-81. doi: 10.1016/j. jaridenv.2007.03.011.
  12. Goudie AS. Dust storms: recent developments. J Environ Manage. 2009;90(1):89-94. doi: 10.1016/j. jenvman.2008.07.007.
  13. Givehchi R, Arhami M, Tajrishy M. Contribution of the Middle Eastern dust source areas to PM10 levels in urban receptors: case study of Tehran, Iran. Atmos Environ. 2013;75:287-95. doi: 10.1016/j.atmosenv.2013.04.039.
  14. Moridnejad A, Karimi N, Ariya P. Newly desertified regions in Iraq and its surrounding areas: significant novel sources of global dust particles. J Arid Environ. 2015;116:1-10. doi: 10.1016/j.jaridenv.2015.01.008.
  15. Farebrother W, Hesse PP, Chang H-C, Jones C. Dry lake beds as sources of dust in Australia during the Late Quaternary: a volumetric approach based on lake bed and deflated dune volumes. Quat Sci Rev. 2017;161:81-98. doi: 10.1016/j. quascirev.2017.02.019.
  16. Panikkath R, Jumper CA, Mulkey Z. Multilobar lung infiltrates after exposure to dust storm: the Haboob Lung Syndrome. Am J Med. 2013;126(2):e5-7. doi: 10.1016/j.amjmed.2012.08.012.
  17. Yu HL, Yang CH, Chien LC. Spatial vulnerability under extreme events: a case of Asian dust storm’s effects on children’s respiratory health. Environ Int. 2013;54:35-44. doi: 10.1016/j. envint.2013.01.004.
  18. Perini K, Ottelé M, Giulini S, Magliocco A, Roccotiello E. Quantification of fine dust deposition on different plant species in a vertical greening system. Ecol Eng. 2017;100:268-76. doi: 10.1016/j.ecoleng.2016.12.032.
  19. Goudie AS. Desert dust and human health disorders. Environ Int. 2014;63:101-13. doi: 10.1016/j.envint.2013.10.011.
  20. Aghababaeian H, Ostadtaghizadeh A, Ardalan A, Asgary A, Akbary M, Yekaninejad MS, et al. Global health impacts of dust storms: a systematic review. Environ Health Insights. 2021;15:11786302211018390. doi: 10.1177/11786302211018390.
  21. Ai N, Polenske KR. Socioeconomic impact analysis of yellow-dust storms: an approach and case study for Beijing. Econ Syst Res. 2008;20(2):187-203. doi: 10.1080/09535310802075364.
  22. Al-Hemoud A, Al-Dousari A, Misak R, Al-Sudairawi M, Naseeb A, Al-Dashti H, et al. Economic impact and risk assessment of sand and dust storms (SDS) on the oil and gas industry in Kuwait. Sustainability. 2019;11(1):200. doi: 10.3390/ su11010200.
  23. Chan YC, McTainsh G, Leys J, McGowan H, Tews K. Influence of the 23 October 2002 dust storm on the air quality of four Australian cities. Water Air Soil Pollut. 2005;164(1):329-48. doi: 10.1007/s11270-005-4009-0.
  24. Boroghani M, Moradi H, Zanganeh Asadi M. An analysis on the determination of climatic drought indices and zoning in Khorasan Razavi province. Journal of Arid Regions Geographic Studies. 2015;5(19):70-84. [Persian].
  25. Ebrahimi-Khusfi Z, Nafarzadegan AR, Dargahian F. Predicting the number of dusty days around the desert wetlands in southeastern Iran using feature selection and machine learning techniques. Ecol Indic. 2021;125:107499. doi: 10.1016/j. ecolind.2021.107499.
  26. Wang H, Jia X, Li K, Li Y. Horizontal wind erosion flux and potential dust emission in arid and semiarid regions of China: a major source area for East Asia dust storms. CATENA. 2015;133:373-84. doi: 10.1016/j.catena.2015.06.011.
  27. Hahnenberger M, Nicoll K. Meteorological characteristics of dust storm events in the eastern Great Basin of Utah, U.S.A. Atmos Environ. 2012;60:601-12. doi: 10.1016/j. atmosenv.2012.06.029.
  28. O’Loingsigh T, McTainsh GH, Tews EK, Strong CL, Leys JF, Shinkfield P, et al. The Dust Storm Index (DSI): a method for monitoring broadscale wind erosion using meteorological records. Aeolian Res. 2014;12:29-40. doi: 10.1016/j. aeolia.2013.10.004.
  29. Goodarzi M, Hosseini SA, Ahmadi H. Investigation of temporal and spatial distribution of days with dust in the west and southwest of Iran. Iranian Journal of Watershed Management Science and Engineering. 2018;11(39):1-10. [Persian].
  30. Mehrabi S, Soltani S, Jafari R. Analyzing the relationship between dust storm occurrence and climatic parameters. J Water Soil Sci. 2015;19(71):69-81. doi: 10.18869/acadpub. jstnar.19.71.69. [Persian].
  31. Kandakji T, Gill TE, Lee JA. Identifying and characterizing dust point sources in the southwestern United States using remote sensing and GIS. Geomorphology. 2020;353:107019. doi: 10.1016/j.geomorph.2019.107019.
  32. Hojati S, Khademi H, Faz Cano A, Landi A. Characteristics of dust deposited along a transect between central Iran and the Zagros Mountains. CATENA. 2012;88(1):27-36. doi: 10.1016/j.catena.2011.09.002.
  33. Nabavi SS, Moradi H, Shrifikia M. Evaluation of dust storm temporal distribution and the relation of the effective factors with the frequency of occurrence in Khuzestan province from 2000 to 2015. Scientific-Research Quarterly of Geographical Data (SEPEHR). 2019;28(111):191-203. doi: 10.22131/ sepehr.2019.37518. [Persian].
  34. Geravandi S, Yari AR, Jafari M, Goudarzi G, Vosoughi M, Dastoorpoor M, et al. Effects of dust phenomenon and impacts with emphasis on dust problems and present solutions in Khuzestan (Iran). Arch Hyg Sci. 2018;7(2):134-8.
  35. Zarasvandi A, Carranza EJ, Moore F, Rastmanesh F. Spatio-temporal occurrences and mineralogical–geochemical characteristics of airborne dusts in Khuzestan province (southwestern Iran). J Geochem Explor. 2011;111(3):138-51. doi: 10.1016/j.gexplo.2011.04.004.
  36. Reshno A. Dust phenomenon in Khuzestan province. Specialized rainfall magazine, internal publication of Khuzestan Meteorology Department. 2008;15(3):192-202.
  37. Mohammadiha A, Rivandi A, Taghizadeh H, Mohammadpourpanjah M. Capturing and Tracking the Spread of a Dust Storm Using MODIS Sensor Images. The Second National Conference on Wind Erosion and Dust Storms; 2008; Yazd University. p. 1-8.
  38. Goherdoost A, Azimi F, Zahorians M. Review and Analysis of Synoptic Maps of the Peak of Dusty Days in Khuzestan Province. The First International Congress on the Phenomenon of Dust and Dealing with its Harmful Effects; 2012. p. 709-18.
  39. Rasouli A, Sari Saraf B, Mohammadi G. Dust climate in the west of the country in the last 55 years by using non-parametric statistical methods to analyze the occurrence of the phenomenon. Natural Geography Quarterly. 2018;4(11):15-28.
  40. Naddafi K, Ahrampush MH, Jafari V, Nabizadeh Nodehi R, Yonesyan M. Investigation of total suspended particles and its ingredients in the central area of Yazd. J Shahid Sadoughi Univ Med Sci. 2008;16(4):21-5. [Persian].
Journal of Advances in Environmental Health Research
Volume 12, Issue 2
Spring 2024
Pages 58-64