References
Aghanabati, A., 2004. Geology of Iran. Organization of Geology and Mineral Exploration of the country.
Amir Azadi, A. R., & Jafari, M., 2020. Prioritization and identification of dust centers in Fars province. Geography, 18(64), 64–78. [In Persian]. https://civilica.com/doc/1411943
Azadeslamiyeh, M. R., Kalantari, S., Shirmardi, M., & Tazeh, M., 2017. Investigating the effect of salinity on the threshold wind erosion velocity (Case study: Meybod) [Conference paper]. In
Proceedings of the 4th National Conference on Wind Erosion and Dust Storms (Yazd, Iran).
https://civilica.com/doc/714416
Chatrenour, M., Norouzi, A., Farrokhian Firouzi, A., and Landi, A., 2020. Investigating soil properties in susceptible areas of dust production in Khuzestan province by visible and wave-near infrared spectroscopy. Journal of Watershed Engineering and Management, 12(3), 670–685. https://doi.org/10.22092/ijwmse.2019.123907.1570
Cornelis, W. M., and Gabriels, D., 2003. The effect of surface moisture on the entrainment of dune sand by wind: an evaluation of selected models. Sedimentology, 50(4), 771-790. https://doi.org/10.1046/j.1365-3091.2003.00577.x
Dargahian, F. and Lotfi Nasab Asl, S., 2019. Temporal and spatial changes and precipitation trends in watersheds leading to dust centers in Khuzestan province. Iranian Nature, 5(3), 59-67. [In Persian]. https://civilica.com/doc/1890626
Food and Agriculture Organization of the United Nations. 2020., Standard operating procedure for soil calcium carbonate equivalent: Titrimetric method. Rome, Italy: FAO. ttps://www.fao.org/documents/card/en/c/ca7152en
Ghahari, G., Hosseinimarandi, H. and Saif, M., 2019. Monitoring of climatic factors affecting the intensification of the phenomenon of dust and sand dune (wind erosion) in Fars province. Fars Agriculture and Natural Resources Research and Education Center. [In Persian].
Hosseinimarandi, H., Ghahari, G., Mesbah, S.H., and Abbasi, H., 2022. Monitoring the dust sources of sand dunes in Fars Province (The project final report) (Report No. 0-09-09-09-135-961571). Fars Agricultural and Natural Resources Research and Education Center. [In Persian].
Jalali, N., Iranmanesh, F., and Davoodi, M., 2017. Identification on dust storm sources and their affecting areas in south-west provinces of Iran, using MODIS image. Watershed Engineering and Management, 9(1), 318-331. [In Persian]. https://doi.org/10.22092/ijwmse.2017.112374
Jooybari, S. A., Pirovan, H., Rezaei, P., and Gholami, H., 2022. Investigating and analyzing the concentration of heavy metals and indicators of sediment pollution in Handijan dust center, Khuzestan province. Scientific-Research Journal of Watershed Engineering and Management, 41(3), 312-331. [In Persian]. https://doi.org/10.22092/ijwmse.2021.353711.1884
Katorani, S., Ahmadi, M., and Dadashi Rudbari, A., 2024. Spatial distribution and trends of dust particles in West Asia and their relationship with land use changes. Iranian Journal of Water and Soil Research, 55(8), 1415-1432. https://doi.org/10.22059/ijswr.2024.374563.669685
Li, X., Zhang, L., and Li, J., 2017. Application of waste iron in wet flue gas desulfurization. Environmental Science and Pollution Research, 24(3), 2269–2278. doi: 10.1007/s11356-024-35646-z
Meshkat, M. A., Daneshvar, M. R., Ekhtesasi, M. R., and Dashtkian, K., 2006. Mapping of degradation of vegetative cover,wind erosion and salt affected soils in some of of the yazd-ardekan plain. Range and Desert Research of Iran, 13(1), 10-16. [In Persian].
Mohamadkhan, Sh., Abravesh, S., Sarvati, M., & Gharudi Tali, M., 2021. Origin of aeolian sediments based on geochemical traces by sedimentary fingerprinting method [In Persian].
Geographical Studies of Dry Areas,
12(46), 17–30. Retrieved from
https://jargs.hsu.ac.ir/article_161553
Naeimi, M., Eftekhari, A., Khalifehzadeh, R., Dargahian, F., and Zandifar, S., 2022. Dust mitigation by the application of treated sewage effluent (TSE) in Iran. Scientific Reports, 12(1), 15521. [In Persian]. doi: 10.1038/s41598‑022‑19331‑0
Nivar, M., and Baghery, M., 2020. Spatial analysis of observational rainfall in Fars province and its projection using the CanESM5 climatic model output. Journal of Climate Research, 7(2), 57-70. https://nivar.irimo.ir/article_212718.html
Nikolay, S. K., Natalia, E. K., Dmitry, V. V., Ksenia, S. N., and Alexander, V. R., 2021. Physicochemical properties of road dust in Moscow. Science of The Total Environment, 762, 143081. DOI: 10.1016/j.scitotenv.2020.143081
Noorzadeh Haddad, M., & Bahrami, H., 2015. Investigating the relationship of fine dust concentration with surface moisture and soil size distribution using a portable wind erosion simulator in the desert areas of western Khuzestan province. Geographical Explorations of Desert Areas, 3(1), 60–72. [In Persian].
Noorzadeh Haddad, M., & Landi, A., 2018. Mineralogy study and sensitivity of fine dust production sources to gravel cover in the soil surface: A case study of western lands of Khuzestan province.
Ahar Geographical Space Quarterly,
18(64), 61–74. [In Persian].
http://geographical-space.iau-ahar.ac.ir/article-1-2270-fa.html
Omidvar, K., and Omidi, Z., 2013. Analysis of dust phenomenon in the south and central regions of Fars province. Geographical Researches of Desert Areas, 1(1), 1-10.
Shao, Y., 2008. Integrated Wind-Erosion Modelling. In Y. Shao (Ed.), Physics and Modelling of Wind Erosion (pp. 303-360). Springer. doi.org/10.1007/978-1-4020-8895-7_9
U.S. Department of Agriculture (USDA)., 2017. Soil survey manual (Soil Survey Division Staff; Soil Conservation Service, Handbook No. 18). U.S. Department of Agriculture.
Vafaeinezhad, A., Kheirkhah Zarkesh, M. M., Ahmadi Dahka, F., and Fallah Zazouli, M., 2014. Monitoring of dust haze phenomenon using remote sensing and GIS and its synoptic analysis: Case study of 18 June 2012 dust haze. Geographical Data, 23(91), 69-80. https://sid.ir/paper/253173/en
World Meteorological Organization (WMO)., 2017. Dust storm or sandstorm. In International Cloud Atlas. World Meteorological Organization.
Yamani, M., Lak, R., Gorabi, A., Shahbazi, R., and Shabani Iraqi, A., 2014. Analysis of the potential of wind erosion and dust phenomena through the application of wind circulation patterns in the Damghan basin.
Journal of Marine Science and Technology, 23(91), 69-80.
https://magazine.hormozgan.ac.ir/article-1-536-fa.html
Zhang, G., Li, L., Tang, W., Liu, L., Shi, P., Han, X., & Dai, J., 2023. Wind erosion from crusted playa surfaces by no saltation and with saltation: A comparison through laboratory wind tunnel experiments. International Soil and Water Conservation Research. Advance online publication. https://doi.org/10.1016/j.iswcr.2022.10.007
Zulfaqari, H., Masoompour, J., Shaygan Mehr, Sh., and Ahmadi, M., 2018. Observational survey of dust storms in the western regions of Iran during the years 2014 to 2018. Journal of Geography and Environmental Planning, 22(3), 17-45. [In Persian]. https://sid.ir/paper/153296/fa