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Temperature simulation of southwestern Iran during (2015-2050) using data from the general air circulation model
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Mohammad Babadi   , Gabrail Ghorbanian , Manije Zohourian , Reza Borna |
| Department of Geography Management, Ahvaz Brench, Islamic Azad university, Ahvaz, Iran |
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Abstract: (1785 Views) |
| In recent years, global warming and climate change have been associated with dire consequences for human societies. Changes in climate patterns can lead to severe floods, extreme heat and cold, more frequent droughts, and global warming. This increase in global warming has upset the Earth's climate balance and caused widespread climate change in most parts of the world, known as climate change. Therefore, identifying temperature patterns in the future can be very useful in meteorological studies and other related sciences. This research work was done in 2019 in Ahvaz. The aim of this study is to simulate the temperature in the period of 36 (2050-2015) using data from the general air circulation model in southwestern Iran. In this study, the EH5OM database was used to simulate daily temperature. After extracting the data, spatial and temporal distribution of temperature patterns using ArcGIS software was performed using common cryogenic zoning statistics (OK) techniques. Using the data of the general air circulation model during the 36-year period, the monthly, seasonal and annual temperature patterns of the region, mediation and relevant maps were drawn. Based on the results of the prevailing temperature patterns in the annual period, it is fully consistent with the topography of the study area, which indicates the strong effect of altitude on temperature. The highest average simulated temperature per year is related to Mahshahr port station with 26.25 C and the lowest temperature belongs to Aligudarzwith 12.56 C. Also, in July, with the standard deviation of 3.9, the highest temperature was obtained in all stations, and in January, with the standard deviation of 4.6, the lowest temperature was obtained. |
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| Keywords: temperature, general air circulation model, simulation, topography. |
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Full-Text [PDF 184 kb]
(1335 Downloads)
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Type of Study: Research |
Subject:
Special
Received: 2020/11/28 | Accepted: 2020/10/1 | Published: 2020/10/1
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