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:: Volume 33, Issue 2 (9-2018) ::
geores 2018, 33(2): 191-205 Back to browse issues page
Prediction of the Starting and Ending of Freezing Periods of Ardabil Province by Using HADCM3 Climatic Model
Behruz Sobhani 1, Akbar Goldust 2
1- Department of Natural Geography, Faculty of Literature and Human Sciences, University of Mohaghegh Ardabili, Ardabil, Iran
2- Department of Meteorology, Faculty of Literature and Human Sciences, University of Mohaghegh Ardabili, Ardabil, Iran
Abstract:   (100 Views)

Introduction and Background: One of the causes of the widespread damages caused by frost is the fact that its dimensions and nature are unknown. The prediction of frosts is one of the issues that, if implemented, can be a very great help in reducing the adverse effects of this phenomenon.
Aims: In this research, daily minimum temperature is predicted for analyzing the start and end of freezing period in Parsabad, Ardabil and Khalkhal stations for next three periods 2011- 2030, 2046-2065 and 2080 – 2099.
Methodology: Used data was data related to meteorological models, daily rainfall data, max and min temperature and sunny hours from 1996 to 2016. First, to choose the efficient model of general circulation of atmosphere, the results of nine climatic models were compared, and HADCM3 model was selected as the best model. This model’s output was down scaled by LARS-WG downscaling method. This method is very effective in downscaling of applied model’s output. After simulation of daily minimum temperature for future periods; with regard to being correct of real data from 2011 to 2016; simulated data was compared with real data.
Conclusion: Results showed that simulated data don’t have significant difference with station’s real data. Therefore, meteorological model of HADCM3­­ has acceptable capability in this simulation. According to the results obtained from this research, minimum mean temperature of stations in future years will be increasing. Date of freezing starting is delayed eventually in future periods and starting and ending date of them is closed together over the time and freezing period duration is more shortened. Date of freezing starting in Khalkhal station was the first day of October through 7th of October, in Ardabil station between 9th of October through 30th October and in Parsabad station between 10th of November through 8th of December. Date of freezing ending in Khalkhal station was estimated 13th of April through 18th of May, in Ardabil station between 17th of April through 18th May and in Parsabad station between 26th April through 28th of March.

Keywords: Prediction, Freezing, HadCM3, Ardabil Province
Full-Text [PDF 1388 kb]   (59 Downloads)    
Type of Study: Research | Subject: Climatology
Received: 2017/12/25 | Accepted: 2018/08/7 | Published: 2018/09/17
References
1. Ababaei, B., Sohrabi, T., Mirzaei, F., Reza Verdi-Nejad, V., & Karimi, B. (2010). Effect of climate change on wheat yield and its risk analysis (Case study: Isfahan plain area). Knowledge of Water and Soil, 20.1(3), 135-150. (Persian)
2. Abbasi, F., Babaeian, A., Melboosi, S., Asmari, M., & Mokhtari, L. G. (2012). Estimation of Iran's climate change in the coming decades (2025-2100 BC) using an explicit microscale of data from the general circulation model of barley. Geographical Researches Quarterly Journal, 27(1), 205-230. (Persian)
3. Ahmadi, A., Khorramian, A., & Safavi, H. R. (2015). Investigating the effects of climate change on the process of snow to runoff, Case study: Zayandehrood Basin. Iran Water Resources Research, 11(2), 70-82. (Persian)
4. Aliyari, M., Teshnelab, M., & Khaki, A. (2008). Short-term prediction of air pollution with the help of multi-layered perceptron neural networks, latency line, gamma and ANFIS with PSO-based teaching methods. Journal of Control, 2(1), 1-19. (Persian)
5. Andersen, H. E., Kronvang, B., Larsen, S. E., Hoffmann, C. C., Jensen, T. S., & Rasmussen, E. K. (2006). Climate-change impacts on hydrology and nutrients in a Danish lowland river basin. Science of the Total Environment, 365(1-3), 223-237. [DOI:10.1016/j.scitotenv.2006.02.036]
6. Ashofte, P., & Bozorg Hadad, O. (2015). Assessments of risk-based of crops water requirement under climate change using AOGCMs. Journal of Range and Watershed Managment, 68(3), 441-457. (Persian) Ashraf, B., Mousavi Bighi, M., Kamali, G., & Davari, K. (2011). Preliminary estimation of sugar beet juice demand in the period 2030-2011 by using climatic data simulated by LARS-WG micro-scaling model. Journal of Soil and Water, 25(5), 1184-1196. (Persian)
7. Babaeian, A., & Kouhi, M. (2011). Evaluation of agricultural climate indices under climate change scenarios in selected stations in Khorasan Razavi. Journal of Water and Soil, 26(4), 953-967. (Persian)
8. Bahmanesh, J., Azad Talatape, N., Montaseri, M., Rezaei, H., & Khalili, K. (2015). Effect of climate change on reference evapotranspiration, rainfall shortage and air vapor pressure in Urmia. Knowledge of Water and Soil, 25(2), 79-91. (Persian)
9. Dai, A., Fung, I. Y., & Del Genio, A. D. (1997). Surface observed global land precipitation variations during 1900–88. Journal of Climate, 10(11), 2943-2962. https://doi.org/10.1175/1520-0442(1997)010<2943:SOGLPV>2.0.CO;2 [DOI:10.1175/1520-0442(1997)0102.0.CO;2]
10. Darand, M., & Masoodian, S. A. (2015). Waiting time of frost occurrence over Iran. Geographical Researches Quarterly Journal, 30(1), 81-94. (Persian)
11. Ekström, M., Fowler, H. J., Kilsby, C. G., & Jones, P. D. (2005). New estimates of future changes in extreme rainfall across the UK using regional climate model integrations. 2. Future estimates and use in impact studies. Journal of Hydrology, 300(1), 234-251. [DOI:10.1016/j.jhydrol.2004.06.019]
12. Elguindi, N., & Giorgi, F. (2006). Simulating multi-decadal variability of Caspian Sea level changes using regional climate model outputs. Climate Dynamics, 26(2-3), 167-181. [DOI:10.1007/s00382-005-0077-5]
13. Hejazizadeh, Z., Fatahi, A., Masoumeh Bavani, A., & Naserzadeh, M. H. (2012). Evaluating the effect of climate change on flood hydrograph in future periods Case study: Bakhtiari basin. Geography, 10(34), 5-24. (Persian)
14. Hejazizadeh, Z., & Naserzadeh, M. H. (2005). Calculating and analyzing the continuity of freezing clocks using delphi language programming. Geographical Researches Quarterly Journal, 20(1), 139- 150. (Persian)
15. Kazemirad, L., & Mohammadi, H. (2015). Evaluation of the proper model of atmospheric circulation for forecasting climate change in Guilan province. Geography and Environmental Hazards, 4(16), 55-74. (Persian)
16. Khaliliaghdam, N., & Soltani, A. (2009). Assessment of climate change during last fifty years in Urmia. Journal of Water and Soil Conservation Studies, 16(4), 141-151. (Persian)
17. Khaliliaqdam, N., Mosaedi, A., Soltani, A., & Kamkar, B. (2013). Evaluation of ability of LARS-WG model for simulating some weather parameters in Sanandaj. Journal of Soil and Water Conservation Research, 19(4), 85-102. (Persian)
18. Khosravi, M., Tavousi, T., & Zohraei, A. (2015). Simulation of climate change in Sistan and Baluchestan for the period 2009-2040 by using downscaling the data of global circulation model. Geographical Researches Quarterly Journal, 30(3), 185-205. (Persian)
19. Livingston, D. P., Tuong, T. D., Isleib, T. G., & Murphy, J. P. (2016). Differences between wheat genotypes in damage from freezing temperatures during reproductive growth. European Journal of Agronomy, 74, 164-172. [DOI:10.1016/j.eja.2015.12.002]
20. Mahdi zadeh, M., Meftah Halghi, M., Seyyed Ghasemi, S., & Mosaedi, A. (2011). Investigating the Effect of Climate Change on Precipitation in Golestan Dam Basin. Journal of Water and Soil Conservation, 18(3), 117-132. (Persian)
21. Mahmoudi, P., Khosravi, M., Mas'udiyan, S. A., & Alijani, B. (2015). Relationship between tele connection patterns and Iran's pervasive frosts. Geography and Development, 13(40), 175-193. (Persian)
22. Mahmoudi, P., Khosravi, M., Masoudian, S. A., & Alijani, B. (2013). Atlas of climatology of Iran's statistical characteristics of glaciers. Geographical Researches Quarterly Journal, 28(4), 55-66. (Persian) Massoudian, S. A., & Darand, M. (2015). Investigating the trend of the number of freezing days in Iran. Geography and Development, 13(39), 49 - 60. (Persian)
23. Mirmosavi, S. H., & Hosseinbabaii, M. (2011). Study of temporal-spatial distribution of the probability of freezing in Zanjan province. Geography Magazine and Environmental Planning, 22(3), 167- 184. (Persian)
24. Modaresi, F., Araghinejad, S., Ebrahimi, K., & Kholghi, M. (2011). Investigating the effect of climate change on annual discharge of rivers (Case study: Gorganrood River). Journal of Water and Soil, 25(6), 1365- 1377. (Persian)
25. Mozaffari, G. (2013). Investigation of the process of beginning and end dates of zero and five degrees Celsius temperatures at Iran's selected stations. Geographical Researches Quarterly Journal, 28(2), 93-111. (Persian)
26. Omidvar, K., & Aslani, A. (2014). Analyzing and analyzing the temporal and spatial changes of glaciation in Zayandehrud Basin. Geographical Researches Quarterly Journal, 29(114), 147-164. (Persian)
27. Osati, K., Salajegheh, A., Mahdavi, M., Koeniger, Chapi, K., & Malekian, A. (2015). Trend analysis of streamflow in Karkheh Rivers upstream: An evidence for climate change impacts on water resources systems. Journal of Range and Watershed Managment, 68(3), 659-674. (Persian)
28. Reinsdorf, E., & Koch, H.-J. (2013). Modeling crown temperature of winter sugar beet and its application in risk assessment for frost killing in Central Europe. Agricultural and Forest Meteorology, 182, 21-30. [DOI:10.1016/j.agrformet.2013.08.001]
29. Rezaei Banafsheh, M., Jalali Ensroodi, T., Zarghami, M., & Asghari Moghadam, A. (2015). Investigating the effect of climate change on the groundwater table level of the so-called Tajik basin by statistical microscale scale. Iran Water Resources Research, 11(2), 106-116. (Persian)
30. Sarafroozeh, F., Jalali, M., Jalali, T., & Jamali, A. (2012). Evaluation of the effects of future climate change on wheat consumption in Tabriz. Journal of Geographical Space, 12(37), 81-96. (Persian)
31. Semenov, M. A., Brooks, R. J., Barrow, E. M., & Richardson, C. W. (1998). Comparison of the WGEN and LARS-WG stochastic weather generators for diverse climates. Climate Research, 10(2), 95-107. [DOI:10.3354/cr010095]
32. Soltani, A., & Ghoilipur, M. (2006). Simulation of the effect of climate change on growth, yield and water consumption of chickpea. Journal of Agricultural Science and Natural Resources, 13(2), 69-79. (Persian)
33. Steele-Dunne, S., Lynch, P., McGrath, R., Semmler, T., Wang, S., Hanafin, J., & Nolan, P. (2008). The impacts of climate change on hydrology in Ireland. Journal of Hydrology, 356(1-2), 28-45. [DOI:10.1016/j.jhydrol.2008.03.025]
34. Yao, F., Xu, Y., Lin, E., Yokozawa, M., & Zhang, J. (2007). Assessing the impacts of climate change on rice yields in the main rice areas of China. Climatic Change, 80(3-4), 395-409. [DOI:10.1007/s10584-006-9122-6]
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sobhani B, goldust A. Prediction of the Starting and Ending of Freezing Periods of Ardabil Province by Using HADCM3 Climatic Model. geores. 2018; 33 (2) :191-205
URL: http://georesearch.ir/article-1-291-en.html


Volume 33, Issue 2 (9-2018) Back to browse issues page
فصلنامه تحقیقات جغرافیایی Geographical Researches Quarterly Journal
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