An Analysis of the Effects of the Change in Climate and Surface Soil Conditions on the Frequency of Dust Storms: The Case Study of Khorasan Razavi Province

Document Type : Research Paper

Authors

1 Desert Research Department, Research Institute of Forest and Rangeland, Agricultural Research, Education, and Extension Organization, ‎Tehran, ‎Iran

2 Postdoctoral Researcher of Geographic Science and Planning, Isfahan University, Isfahan, Iran

Abstract

In recent decades, dust storms have intensified due to climate changes, including drought and human interventions. In addition to removing soil particles, dust brings storms bring about severe economic, social, and health problems. Due to its strategic conditions – including its status as an industrial and agricultural hub and the province hosting more than 29 million Iranian and international pilgrims, especially during the seasons and months with specific holidays – should be prioritized in the examination of dust storm frequency. The purpose of this study was to examine and track the frequency of dust storms and analyze the effect of climactic changes on them through the investigation of drought trend as well as the trend of changes in the land surface coverage percentage during the statistical analysis period. The results of counting the dust codes showed that dust storms with local origin had the highest frequency. According to the monthly analysis, Sarakhs and Mashhad stations had the most dust phenomena, with the most dusty days in the study area during summer and spring seasons, especially June and July months. The results of regression analysis of drought index and the monthly local dusty days indicated the existence of a significant, positive relationship between dust increase and drought intensity in Mashhad and Sarakhs stations during the statistical period of 27 years at 99 percent confidence interval. Finally, in the light of the results obtained from the examination of the land surface changes, it is recommended that land use plans be used along with short-term methods of soil stabilization in order to reduce the economic damages and preserve people’s health against dust during busy months and seasons so as to achieve the goals of long-term methods.

Keywords

Main Subjects

References

Achakulwisut, P., Anenberg, S. C., Neumann, J. E., Penn, S. L., Weiss, N., Crimmins, A., Fann, N., Martinich, J., Roman, H., & Mickley, L. J. (2019). “Effects of increasing aridity on ambient dust and public health in the US Southwest under climate change”, GeoHealth, 3(5), pp. 127-144.
Aili, A., Oanh, N. T. K., & Abuduwaili, J. (2016). “Variation trends of dust storms in relation to meteorological conditions and anthropogenic impacts in the northeast edge of the Taklimakan Desert, China”, Open Journal of Air Pollution, 5(4), pp. 127-143.
Alipour, N., Mesbahzadeh, T., Ahmadi, H., Malekian, A., & Jafari, M. (2018). “Synoptic analysis of dust events and its relationship with drought in Qazvin and Alborz provinces”, Journal of Geography (Regional Planning), 8 (2), pp. 59-68. (in Persian)
Bao, G., Qin, Z., Bao, Y., Zhou, Y., Li, W., & Sanjjav, A. (2014). “NDVI-based long-term vegetation dynamics and its response to climatic change in the Mongolian Plateau”, Remote Sensing, 6 (9), pp. 8337-8358.
Bhalme, H. N. & Mooley, D. A. (1980). “Large-scale droughts/ floods and monsoon circulation”, Monthly Weather Review, 108(8), pp. 1197-1211.
Boroughni, M., Moradi, H., & Zanganeh Asadi, M. (2015). “Analysis of dust occurrence and its zoning in Khorasan Razavi province”, Environmental Erosion Research, 4 (20), pp. 45-57. (in Persian)
Boroughni, M., Moradi, H., Zanganeh Asad, M., & Pourhashemi, S. (2019). “Assessing the role of drought in the frequency of dust in Khorasan Razavi province”, Journal of Environmental Science and Technology, 21 (5), pp. 109-122. (in Persian)
Boroughni, M., Tai, M., & Mirnia, S. (2013). “Analysis of the relationship between hydrogeological and climatic droughts in Sabzevar plain using SWI and SPI indices”, Journal of Range and Desert Research, 20 (4), pp. 733-744. (in Persian)
Broomandi, P., Dabir, B., Bonakdarpour, B., & Rashidi, Y. (2017). “Identification of dust storm origin in South–West of Iran”, Journal of Environmental Health Science and Engineering, 15(1), pp. 1-14.
Falahat Kar, S., Saberfar, R., & Kia, S. (2018). “Analysis of changes in vegetation indices in Landsat satellite sensors (Case study: East Observatories of Golestan National Park and Qarkhod Protected Area)”, Natural Ecosystems of Iran, 9 (1), pp. 71-90. (in Persian)
Ghavidel Rahimi, Y., Farajzadeh, M., & Lashni Zand, I. (2018). “Analysis of temporal variations of Khorramabad dust storms”, Journal of Applied Research in Geographical Sciences, 18 (51), pp. 102-87. (in Persian)
Gibbs, W. J. & Maher, J. V. (1967). “Rainfall deciles as drought indicators, bureau of meteorology bulletin no. 48”, Commonwealth of Australia, Melbourne, 29.
Golian, S., Mazdiyasni, O., & AghaKouchak, A. (2015). “Trends in meteorological and agricultural droughts in Iran”, Theoretical and applied climatology, 119 (3), pp. 679-688.
Hahnenberger, M. & Nicoll, K. (2014). “Geomorphic and land cover identification of dust sources in the eastern Great Basin of Utah, USA”, Geomorphology, 204, pp. 657-672.
Hirsch, R. M. & Slack, J. R. (1984). “A nonparametric trend test for seasonal data with serial dependence”, Water Resources Research, 20 (6), pp. 727-732.
Javadian, M., Behrangi, A., & Sorooshian, A. (2019). “Impact of drought on dust storms: case study over Southwest Iran”, Environmental Research Letters, 14 (12), 124029.
Kendall, M. G. (1975). Kendall rank correlation methods, Griffin, London.
Kermani, M., Taherain, E., & Izanloo, M. (2016). “Analysis of dust and dust storms in Iran,Investigation Internal and external origin of dust storms in Iran using satellite images and Control methods”, Rahavard Salamat Journal, 2 (1), pp. 39-51.
Kermani, M., Taherian, E., & Izanloo, M. (2016). “Analysis of satellite images of fine dust and dust storms in Iran in order to investigate internal and external sources and their control methods”, Rahavard Salamat Magazine, 2 (1), pp. 39-51. (in Persian)
Khaliqi Sigaroodi, Sh., Shah Bandari Quchani, R., Dadfar, S., & Kamrani Nogh, F. (2010). “Investigating the Relationship between Drought and Dust Storms (Case Study: Yazd Province)”, The Second National Conference on Wind Erosion and Dust Storms, Yazd. (in Persian)
Mann, H. B. (1945). “Nonparametric tests against trend”, Econometrica: Journal of the econometric society, pp. 245-259.
McKee, T. B., Doesken, N. J., & Kleist, J. (1993). “The relationship of drought frequency and duration to time scales”, In Proceedings of the 8th Conference on Applied Climatology, 17 (22), pp. 179-183.
Mesbahzadeh, T. & Alipour, N. (2018). “Evaluation of the effect of drought on the occurrence of dust phenomenon using SPI, PNI and ZS indices, rangeland and watershed management”, Iranian Journal of Natural Resources, 71 (2), pp. 505-515. (in Persian)
Mesbahzadeh, T., Mirakbari, M., Mohseni Saravi, M., Khosravi, H., & Mortezaei Frizhandi, Q. (2019). “Investigation of current and future meteorological drought status using CMIP5 series model under RCP scenarios”, Journal of Watershed Management Science and Engineering, 13 (46), pp. 11-21. (in Persian)
Mirakbari, M., Mesbahzadeh, T., Mohseni Saravi, M., Khosravi, H., & Mortezaei, Q. (2018). “Evaluating the efficiency of CMIP5 series model in simulating and predicting climatic parameters of rainfall, temperature, wind speed (Case study: Yazd province)”, Natural Geography Research, 5 (3), pp. 609-593. (in Persian)
Mostafa-Zadeh, R. & Zabihi, M. (2016). “Analysis and comparison of SPI and SPEI indices in the assessment of meteorological drought using R software Software Case study: Kurdistan Province”, Earth and Space Physics, 42 (3), pp. 633-643. (in Persian)
Naeimi, M., Yousefi, M., Khosroshahi, M., Zandifar, S., & Ebrahimi Khosfi, Z. (2019). “Investigation of the effects of climatic factors on dust, a case study: West of Khorasan Razavi province”, Geographical explorations of desert areas, 7 (2), pp. 24-45. (in Persian)
Nikpour, N., Negaresh, H., Fotohi, S., Hosseini, S., & Bahrami, S. (2018). “Monitoring the trend of vegetation index (NDVI), one of the most important indicators of land degradation (in Ilam province)”, Spatial analysis of environmental hazards, 5 (4), pp. 21-48. (in Persian)
Nosrati, K. (2014). “Evaluation of standardized precipitation-evapotranspiration index (SPEI) to identify drought in different climates of Iran”, Journal of Environmental Sciences, 12 (4), pp. 63-74. (in Persian)
O’Loingsigh, T., McTainsh, G. H., Tews, E. K., Strong, C. L., Leys, J. F., Shinkfield, P., & Tapper, N. J. (2014). “The Dust Storm Index (DSI): a method for monitoring broadscale wind erosion using meteorological records”, Aeolian Research, 12, pp. 29-40.
Omidvar, K. & Nekounam, Z. (2011). “Application of rose and dust in analyzing the dust phenomenon and determining the seasonal regime of winds associated with this phenomenon (Case study: Sabzevar)”, Natural Geographical Research, 76, pp. 104-85. (in Persian)
Palmer, W. C. (1965). Meteorological drought, US Department of Commerce, Weather Bureau, Vol. 30.
Phillips, P. C. & Perron, P. (1988). “Testing for a unit root in time series regression”, Biometrika, 75 (2), pp. 335-346.
Pourhashemi, S., Boroughni, M., Zanganeh Asadi, M., & Amirahamdi, A. (2015). “Analysis of the relationship between vegetation on the occurrence of dust in Khorasan Razavi province using GIS and remote sensing”, Remote Sensing And GIS In Natural Resources, 6 (4), pp. 33-45. (in Persian)
Rafiei, Z., Yazdani, M., & Rahimi, M. (2018). “Trend analysis of the number of dust days in Iran”, Khoshkboom, 6 (2), pp. 22-11. (in Persian)
Rajaee, T., Rohani, N., Jabbari, E., & Mojaradi, B. (2020). “Tracing and assessment of simultaneous dust storms in the cities of Ahvaz and Kermanshah in western Iran based on the new approach”, Arabian Journal of Geosciences, 13 (12), pp. 1-20.
Rashki, A., Middleton, N. J., & Goudie, A. S. (2021). “Dust storms in Iran–Distribution, causes, frequencies and impacts”, Aeolian Research, 48, 100655.
Rezaei, M. & Qasemieh, H. (2019). “Evaluation of the effect of climate change on temperature and precipitation variability (Case study: Kashan, Khor and Biabank stations)”, Dry Boom, 9 (1), pp. 99-81. (in Persian)
Rezazadeh, M., Irannejad, P., & Shao, Y. (2013). “Climatology of the Middle East dust events”, Aeolian Research, 10, pp. 103-109.
Sohrabi, T., Wali, A., Ranjbar Fardavi, A., & Mousavi, S. (2018). “Quantitative analysis of vegetation feedback on the occurrence of dust in arid ecosystems (Case study: Isfahan province)”, Rangeland and Watershed Management, 71 (4), pp. 973-985. (in Persian)
Vahidi, P. (1373). “Landscaping: Tips for Higher Education Planning”, Quarterly Journal of Research and Planning in Higher Education, 2 (7 and 8), pp. 75-104. (in Persian)
Vali, A. & Rustaei, F. (2017). “Investigating the trend of wind erosion in Central Iran using the dust storm index in the last fifty years”, Journal of Soil and Water Sciences, 21 (4), pp. 189-200. (in Persian)
Vicente-Serrano, S. M., Beguería, S., & López-Moreno, J. I. (2010). “A multiscalar drought index sensitive to global warming: the standardized precipitation evapotranspiration index”, Journal of climate, 23 (7), pp. 1696-1718.
Wang, X. C., Klemeš, J. J., Dong, X., Fan, W., Xu, Z., Wang, Y., & Varbanov, P. S. (2019). “Air pollution terrain nexus: A review considering energy generation and consumption”, Renewable and Sustainable Energy Reviews, 105, pp. 71-85.
Willeke, G., Hosking, J. R. M., Wallis, J. R., & Guttman, N. B. (1994). “The national drought atlas”, Institute for water resources report, 94.
Yarmoradi, Z., Nasiri, B., Mohammadi, G. H., & Karampour, M. (2020). “Long-term characteristics of the observed dusty days and its relationship with climatic parameters in East Iran”, Arabian Journal of Geosciences, 13 (6), pp. 1-11.
Yu, P., Xu, R., Abramson, M. J., Li, S., & Guo, Y. (2020). “Bushfires in Australia: a serious health emergency under climate change”, The Lancet Planetary Health, 4 (1), pp. e7-e8.
Town and Country Planning
Volume 13, Issue 2
October 2021
Pages 491-521

Files

History

  • Receive Date: 27 June 2021
  • Revise Date: 18 September 2021
  • Accept Date: 18 September 2021

Share

How to cite

Statistics