تعیین حساسیت اراضی به فرسایش بادی در کانون گردوغبار سجزی اصفهان

نوع مقاله : مقاله پژوهشی

نویسندگان

1 بخش تحقیقات منابع طبیعی، مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی استان اصفهان، سازمان تحقیقات، آموزش و ترویج کشاورزی، کاشان، ایران.

2 گروه بخش تحقیقات بیابان، موسسه تحقیقات جنگلها و مراتع کشور، سازمان تحقیقات، آموزش و ترویج کشاورزی، تهران، ایران

‎10.22052/deej.2025.256845.1107

چکیده

فرسایش بادی و طوفان‌های گردوغبار به یکی از اساسی‌ترین چالش‌های کشور و استان اصفهان تبدیل شده است. بدین منظور، ویژگی‌های بادهای فرساینده و حساسیت اراضی به فرسایش بادی در منطقۀ سجزی واقع در شرق اصفهان مورد مطالعه قرار گرفت. با استفاده از آمار سرعت و جهت باد ساعتی چهار ایستگاه هواشناسی، جهت، شدت و انرژی بادهای فرساینده محاسبه شد. محدودۀ کانون گردوغبار سجزی، به کمک تصاویر ماهواره‌ای و مطالعات میدانی مشخص گردید. برای تعیین خصوصیات فیزیکی و شیمیایی و محاسبۀ سرعت آستانه باد و فرسایش‌پذیری خاک، به ‌ترتیب 9 و 6 نمونه برداشت شد. میزان فرسایش در سرعت‌های مختلف باد در تونل باد اندازه‌گیری و سرعت آستانۀ باد به دو روش مشاهداتی و محاسباتی تعیین گردید. مقاومت فشاری و برشی خاک در عرصه به کمک دستگاه پنترومتر و توروین اندازه‌گیری شد. نتایج نشان داد که انرژی بادهای فرساینده براساس شاخص پتانسیل حمل ماسه در ایستگاه شرق اصفهان در کلاس زیاد است. جهت باد غالب فرساینده از شرق به غرب، یعنی از دشت سجزی به سمت شهر اصفهان است. آستانۀ فرسایش بادی از 5/6 تا 12 متر بر ثانیه متغیراست و مقاومت برشی خاک سطحی از1 تا 06/2 و مقاومت فشاری از 1/1 تا 2 گرم بر سانتی‌متر مکعب تغییر می‌کند. با توجه به نتایج، حساسیت خاک منطقۀ سجزی به فرسایش بادی، بسیار بالاست. جنگل‌کاری و بوته‌کاری با گونه‌های بومی و مقاوم و استفاده از مالچ‌های سازگار با محیط‌زیست در نقاط حساس‌تر به‌همراه مدیریت بهره‌برداری از سرزمین و معادن پیشنهاد می‌شود.

کلیدواژه‌ها

موضوعات

عنوان مقاله [English]

Assessing Land Susceptibility to Wind Erosion in the Sejzi Dust Source, Isfahan

نویسندگان [English]

  • Seyyed Morteza Abtahi 1
  • Hamid Reza Abbasi 2
1 Research Division of Natural Resources, Isfahan Agricultural and Natural Resources Research and Education Center (AREEO), Kashan, Iran.
2 Research Division of Desert, Research Institute of Forests and Rangelands, Agricultural Research Education and Extension Organization (AREEO), Iran.
چکیده [English]

Introduction: Dust storms are a severe environmental phenomenon prevalent in arid and semi-arid regions worldwide. They inflict substantial socioeconomic damage by disrupting communication systems, land and air transportation, and reducing national income. Furthermore, they pose critical risks to human and animal health, sometimes resulting in fatalities. This research aims to address this issue in the dust source areas of eastern Isfahan. The study is designed to identify zones sensitive to wind erosion and dust generation, and to investigate the dynamics of dust storms through an analysis of wind intensity and the calculation of threshold velocities across the study area.
 
Materials and Methods: This study was conducted to characterize erosive winds, delineate dust sources, and assess land susceptibility to wind erosion in the Sejzi region of Isfahan. Hourly wind speed and direction data from four meteorological stations—Isfahan, East Isfahan, Murcheh Khort, and Kabutarabad—were analyzed to determine the direction, intensity, and energy of erosive winds.
Potential dust source areas were first identified through the interpretation of satellite imagery and subsequent field surveys. Following the confirmation of dust sources, land units were delineated on a map. A total of nine soil samples were collected for the analysis of physical and chemical properties, and an additional six samples were dedicated to determining wind threshold velocity and soil erodibility.
The erosion potential of the soils was quantified using a wind tunnel, where sediment removal rates were measured at various wind speeds to determine the threshold wind velocity through both observational and computational methods. Furthermore, the shear and compressive strengths of the terrain were evaluated, and the physical and chemical properties of the soil samples were analyzed in the laboratory.
 
Results: The analysis of wind data revealed that the energy of erosive winds, quantified by the Sand Transport Potential (STP) index, is classified as high at the East Isfahan station and medium to low at the other stations (Isfahan, Murcheh Khort, and Kabutarabad). The prevailing direction of these erosive winds is predominantly from the east to west, extending from the Sejzi Plain towards the city of Isfahan.
Laboratory and field measurements of soil properties showed a threshold wind velocity for particle entrainment ranging from 6.5 to 12 m/s. Furthermore, the geotechnical analysis indicated that the shear strength of the topsoil varies between 1.0 and 2.06 kg/cm², while the compressive strength ranges from 1.1 to 2.0 kg/cm².
Discussion and conclusion: The findings of this study demonstrate that the Sejzi region poses a significant environmental threat to Isfahan, primarily due to its potent combination of high-energy easterly winds and erodible surface soils. The determined threshold wind velocities (6.5-12 m/s) are frequently exceeded, as evidenced by the wind energy analysis, confirming the high potential for dust emission and transport directly toward the city. Therefore, given this region's critical role as a dust source, the implementation of targeted restoration strategies is not just beneficial but imperative. Any such strategies must be fundamentally informed by the soil's specific physical and chemical properties—such as its low shear strength and specific texture—to ensure effectiveness and long-term sustainability. Mitigation measures could include the stabilization of highly erodible units identified in this study through mechanical methods (such as checkerboards) or biological approaches (using native, drought-resistant vegetation), tailored to the distinct conditions of each mapped land unit.

کلیدواژه‌ها [English]

  • Desert
  • Dust source
  • Isfahan
  • Sajzi plain
  • Wind Erosion

مراجع

  1. Abbasi, H., Gohardoust, A., khaksarian, F., & Baranizadeh, M. (2022). Identification of land sensitivity to wind erosion using field data in Hamoun-e Baringak, Sistan. Journal of Natural Environmental Hazards11(33), 121-134.
  2. Abbasi, H., Ruhipour, H., Khosrowshahi, M., Kashki, M., Dashtakian, K., Qurbanian, D., & Rudgarmi, P. (2013). The distribution of wind deposits in the country based on aerial photographs (1372-1382) (report on the progress of the country's sand dunes digital data bank). The third national conference on wind erosion and dust storms - Yazd University.
  3. Behrawan, H., Yarahmadi, J., & Abbasi, H. (2023). Identification and Monitoring of Sand and Dust Storms Sources (SDSS) in East Azarbaijan Province. Geographic Research, 38(3), 319-329.
  4. Breed, C.S., & Grow, T. (1979). Morphology and distribution of dunes in sand seas observed by remote sensing a study of global sand seas: US Government Printing Office Washington, DC. 1052, 253-302.
  5. Duniway, M., Alix, C., Pfennigwerth, A., Stephen, E. Fick, Travis, W., and Barger, N. (2019). Wind Erosion and Dust from US Drylands: A Review of Causes, Consequences, and Solutions in a Changing World. Ecosphere, 10, 3. https://doi.org/10.1002/ecs2.2650.
  6. Fryberger, S.G., & Dean, G. (1979). Dune forms and wind regime. In: McKee, E.D. (Ed.), A Study of Global Sand Seas, U.S. Geological Survey, Washington, Professional Paper, 1052, 137–169.
  7. Heidarian, P., Azhdari, A., Jodaki, M., Darvishi Khatooni, H., & Shahbazi, R. (2017). Identifying interior sources of dust storms using remote sensing, GIS and geology (case study: Khuzestan province). Scientific Quarterly Journal of Geosciences27(105), 33-46.
  8. Jafari, M., Zehtabian, Gh.R., & Mesbahzadeh, T. (2019). Statistical analysis of the dust storm phenomenon (case study: Isfahan). Iranian Journal of Range and Desert Research, 25(4), 863-876.
  9. Javiz E., Jalalian, A., Mosaddeghi, M., Chavoshi, E., & Honarjoo, N. (2023). The Effect of Clay Mulch based on Bentonite Clay in the Dust Storm Stabilization in the Sajzi Critical Region (East of Isfahan). Journal of Water and Soil Science, 26(4), 217-232.
  10. Kharazmi, R., Abbasi, H., Moradi sani, S., & Khaksarian, F. (2023). Identification of Active Dust Source Areas Using Field and Remote Sensing Methods for Determining Wind Erosion Threshold Velocity (Case Study: Eastern Kerman Province). Iranian Journal of Forest and Range Protection Research21(1), 55-75.
  11. Kimura, R., & Moriyama, M. (2014). Application of a satellite- based aridity index in dust source regions of northeast Asia. Journal of Arid Environments, 109, 31-38.
  12. Lancaster, N. (1994). Dune morphology and dynamics Geomorphology of desert environments: Springer, 474-505.
  13. Lancaster, N., & Baas, A. (1998). Influence of vegetation cover on sand transport by wind: field studies at Owens Lake, California. Earth Surface Processes and Landforms, 23(1), 69-82.
  14. Livingstone, I., & Warren, A. (1996). Aeolian geomorphology: an introduction, Longman.https://www.mehrnews.com/news/5504313/.
  15. Nasry, M., Rahimi, M., Jalili, H., Tarighat, F., & Damavandi, A. (2025). An examination of the correlation between the occurrence of dust storms and temperature variations in southeastern Iran (case study: Sistan-Baluchistan Province). Iranian Journal of Forest and Range Protection Research, 23(1), doi:10.22092/ijfrpr.2025.368227.1657
  16. Norouzi S., & Khademi, H. (2015). Spatial and Temporal Variation in Dust Deposition Rate in Isfahan and its Relationship with Selected Climatic Parameters. Journal of Water and Soil Science, 19(72), 149-162.
  17. Parsamehr, A.H., & Khosravani, Z. (2017). Analysis of erosive winds and depositions drift potential in desert regions of Esfahan Province. Iranian Journal of Range and Desert Research, 23(4), 832-842.
  18. Pourhashemi, S., Boroghani, M., Zangane Asadi, M. A., & Amir Ahmadi, A. (2016). Analysis relation of vegetation cover on the number of dust event in Khorasan Razavi using geographic information system and remote sensing. RS & GIS for Natural Resources, 6(4), 33-45.
  19. Shahriari, A., Mohammadi, S. M., Shirmohammadi, E., Fatemi Ghomesheh, A., & Galavi, H. (2025). Investigating the spatial distribution of soil wind-erodible indices using geostatistical methods in the Sistan plain. Journal of Natural Environmental Hazards, 14(43), 111-132. doi: 10.22111/jneh.2024.49372.2060
  20. Shirazi, M., Akhavan Ghalibaf, M., Matinfar, H.R., & Nakhkesh, M. (2019). Evaluation of Landsat OLI data for estimating Aerosol Optical Thickness over deserts. Iranian Journal of Range and Desert Research,26(4), 855-867.
  21. Soleimani, Z., Teymouri, P., Darvishi Boloorani, A., Mesdaghinia, A.R., Middleton, N., & Griffin, D.W. (2020). An Overview of Bioaerosol Load and Health Impacts Associated with Dust Storms: A Focus on the Middle East. Atmospheric Environment, 223, 117187. https://doi.org/https://doi.org/10.1016/j.atmosenv.2019.117187.
مهندسی اکوسیستم بیابان
دوره 14، شماره 49
اسفند 1404
صفحه 1-14

فایل ها

هم رسانی

ارجاع به این مقاله

آمار