Extreme events of cold and heat waves in the northeastern regions of Iran during the period 2001-2020

Document Type : Original Article

Authors

1 PhD student in Climate, Science and Research Branch, Islamic Azad University, Tehran, Iran

2 Department of Urban Planning, Semnan, Islamic Azad University, Tehran, Iran

3 Associate Professor, Institute of Meteorology and Atmospheric Sciences, Tehran, Iran

4 Associate Professor, Islamic Azad University, Islam shahr, Tehran, Iran

Abstract

Thermal temperature events for a period of 20 years (2001-2020) were extracted based on the data of synoptic meteorological stations in Mashhad, Sabzevar, Quchan, Neishabour, Bojnourd and Gonbad Kavous and the atmospheric patterns leading to these events were investigated. In this period, a total of 158 cases of cold waves and 1,014 cases of heat waves have been recorded in selected stations in the study area.

From a statistical point of view, after using the Sen’s slope estimator nonparametric method, it has been shown that there was no significant increase in the intensity of cold waves for none of the stations and the highest trend of decreasing the intensity of cold waves is related to Mashhad station by 0.045 degrees Celsius per year. The number of cold waves during the statistical period has increased in Quchan, Neishabour and Gonbad Kavous stations and has decreased in Mashhad, Sabzevar and Bojnourd stations. The highest decreasing trend of heat waves is related to Quchan station by 0.056 degrees Celsius per year and no sharp increasing trend has been observed for any of the stations and at any of the significant levels. The number of heat waves during the statistical period has increased in Sabzevar, Neishabour and Gonbad Kavous stations and has decreased in Mashhad, Quchan and Bojnourd stations.

From the point of view of synoptic analysis, strengthening of two high pressure systems (Siberia and Zinc in Europe) and expansion of orbital tabs of these two systems and creating high pressure belt in latitudes about 35 to 55 degrees north and altitude banding pattern of 500 hPa Northwest of the Aral Sea and the impact of the study area on the active tilt canal can lead to a noticeable decrease in temperature and the occurrence of a cold wave, which is associated with northeast winds of 850 hPa. In contrast, the spread of the European high-pressure system to the northeast of the country, along with the region's impact from the high-altitude subtropical ridge centered on North Africa and increasing the geopotential height of 500 hPa compared to the long-term average of the same period causes heat waves and temperature increases.

Thermal temperature events for a period of 20 years (2001-2020) were extracted based on the data of synoptic meteorological stations in Mashhad, Sabzevar, Quchan, Neishabour, Bojnourd and Gonbad Kavous and the atmospheric patterns leading to these events were investigated. In this period, a total of 158 cases of cold waves and 1,014 cases of heat waves have been recorded in selected stations in the study area.

From a statistical point of view, after using the Sen’s slope estimator nonparametric method, it has been shown that there was no significant increase in the intensity of cold waves for none of the stations and the highest trend of decreasing the intensity of cold waves is related to Mashhad station by 0.045 degrees Celsius per year. The number of cold waves during the statistical period has increased in Quchan, Neishabour and Gonbad Kavous stations and has decreased in Mashhad, Sabzevar and Bojnourd stations. The highest decreasing trend of heat waves is related to Quchan station by 0.056 degrees Celsius per year and no sharp increasing trend has been observed for any of the stations and at any of the significant levels. The number of heat waves during the statistical period has increased in Sabzevar, Neishabour and Gonbad Kavous stations and has decreased in Mashhad, Quchan and Bojnourd stations.

From the point of view of synoptic analysis, strengthening of two high pressure systems (Siberia and Zinc in Europe) and expansion of orbital tabs of these two systems and creating high pressure belt in latitudes about 35 to 55 degrees north and altitude banding pattern of 500 hPa Northwest of the Aral Sea and the impact of the study area on the active tilt canal can lead to a noticeable decrease in temperature and the occurrence of a cold wave, which is associated with northeast winds of 850 hPa. In contrast, the spread of the European high-pressure system to the northeast of the country, along with the region's impact from the high-altitude subtropical ridge centered on North Africa and increasing the geopotential height of 500 hPa compared to the long-term average of the same period causes heat waves and temperature increases.

Keywords

References

  1. Barati, Gholam Reza, Seyed Shafi Mousavi, 2005, The Relocation of Winter Waves of Heat in Iran, Journal of Geography and Development, Third Year, No. 5, pp. 52-41.
  2. Ismail Nejad, Morteza, Mahmoud Khosravi, Behlool Alijani, Seyed Abolfazl Masoudian, 2013, Identification of Iranian heat waves, Geography and Development, Winter 2013, Volume 11, No. 33; Pp. 39 – 53
  3. Zarrin, Azar, 2007, Subtropical High Pressure Analysis on Iran, PhD Thesis in Climatology, Department of Geography, Faculty of Social Sciences, Tarbiat Modares University
  4. Aguilar, E.; Peterson, T.C.; Obando, P.; Frutos, R.; Retana, J.A.; Solera, M.; Soley, J.; García, I.; González, Araujo, R.M.; Santos,A.R.; et.al. Changes in Precipitation and Temperature Extremes in Central America and Northern South America, 1961–2003. J.Geophys. Res. 2005, 110, D23107, doi: 10.1029/2005JD006119.
  5. Ahmadabadi, Ali, Mohammad Ahmadi, 2005, Study and recognition of the synoptic pattern of amplification of heat waves on Iran, Proceedings of the Hamadan Medical Climate Conference, Malayer, Teachers Association, pp. 122-115.
  6. Alijani, Behlool, Mahmoud Hoshyar, 2008, Identification of synoptic patterns of severe cold in northwestern Iran, Natural Geography Research, No. 65, pp. 16-1.
  7. Ghavidel Rahimi, Yousef, 2011, Determining the statistical threshold and synoptic analysis of cold cloud temperatures in Maragheh, Journal of Applied Research in Geographical Sciences, No. 22, pp. 62-45.
  8. Ghavidel Rahimi, Yousef, 2011, Identification, classification and synoptic analysis of superheated wave in summer 2010 in Iran, Geographical study of arid regions, No. 3, pp. 100-85.
  9. Keellings, D., & Moradkhani, H. (2020).Spatiotemporal evolution of heat waveseverity and coverage across the UnitedStates. Geophysical Research Letters, 47, e2020GL087097. https://doi.org/10.1029/2020GL087097Received 14 JAN 2020Accepted 14 APR 2020Accepted article online 23 APR 2020KEELLINGS AND MORADKHANI 1of 9.
  10. Mojarad, Firooz, Jafar Masoumpour, Tayebeh Rostami, 2015, Statistical Analysis - Synonymy of heat waves above 40 degrees Celsius in western Iran, Geography and Environmental Hazards, No. 13, pp. 57-41.
  11. Motalebizadeh, Salmaz 1394, Identification, classification and synoptic analysis of cold waves in northwestern Iran, Master Thesis in Climate Hazards, Department of Natural Geography, Tarbiat Modares University
  12. Saeed Jahanbakhsh, Fatemeh Ghavidel, Mohammad Ashjaei, 2015, Identification, classification and synoptic analysis of heat waves to reduce human hazards in northwestern Iran, Natural Hazards Management, Second Year, No. 4, pp. 377-391.
  13. Sheridan, S.C.; Allen, M.J. Changes in the Frequency and Intensity of Extreme Temperature Events and Human Health Concerns. Clim. Chang. Rep. 2005, 1, 155–162, doi:10.1007/s40641-015-0017-3.
  14. Stocker, T.F.; Qin, D.; Plattner, G.-K.; Alexander, L.V.; Allen, S.K.; Bindoff, N.L.; Bréon, F.-M.; Church, J.A.; Cubasch, U.; Emori,S.; et al. Technical summary. In Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth AssessmentReport of the Intergovernmental Panel on Climate Change; Stocker, T.F., Qin, D., Plattner, G.K., Tignor, M., Allen, S.K.,Boschung, J., Nauels, A., Xia, Y., Bex, V., Midgley, P.M., Eds.; Cambridge University Press: Cambridge, UK, 2013; pp. 33–115,doi:10.1017/CBO9781107415324.005.
  15. Tavousi, Taghi, Faezeh Shoja, Elaheh Asgari, 1398, Review of Climatic Zones of Northeast Iran Based on the Integrated Application of Drought Index Change, Desert Management, No. 31, pp. 117-134
  16. World Meteorological Organization. Atlas of Mortality and Economic Losses from Weather and Climate Extremes. 1970–2012; WMO: Geneva, Switzerland, 2014; p. 1123.
  17. August 1399, Heat Wave Report No. 5-99, National Center for Drought and Crisis Management, Meteorological Organization.
Journal of Climate Research
Volume 1401, Issue 50 - Serial Number 50
Vol. 13, No. 50, Summer 2022
September 2022
Pages 41-60

Files

Share

How to cite

Statistics