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Volume 13, Issue 3 (Autumn 2023)
Disaster Prev. Manag. Know. 2023, 13(3): 296-317 |
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Mohammadi N, Hejazizadeh Z. Investigating the Effect of Global Warming on Increasing the Risk of Wildfires in Iran. Disaster Prev. Manag. Know. 2023; 13 (3) :296-317
URL: http://dpmk.ir/article-1-618-en.html
URL: http://dpmk.ir/article-1-618-en.html
1- Department of Climatology, Faculty of Geographical Sciences, Kharazmi University, Tehran, Iran.
Abstract: (1326 Views)
Background and objective Today, Iran is one of the most vulnerable countries to climate change due to its geographical and climatic features. One of the most important negative effects of climate change is the increase in temperature, which can increase the risk of wildfires. Wildfires are an environmental challenge and one of the threats to a large part of the forests in the world, including Iran. This study aims to investigate the effect of global warming on the increase in the risk of wildfires in Iran by using remote sensing technology and spatial analysis.
Method The temperature data of the synoptic stations (Mehrabad, Yazd, Bam, Shiraz, Isfahan and Bushehr) in a 32-year period from 1988 to 2020 were first prepared from the Meteorological Organization. Then, Excel macros and XLSTAT plugin were used to check the temperature trend. To identify the vegetation cover, the Normalized Difference Vegetation Index (NDVI) was used from the Landsat 8 satellite with a spatial resolution of 27.84 meters, whose source of data was the Google Earth Engine. Then, the parameters of elevation, slope, aspect, and amount of solar radiation were used to calculate the topography. To identify the spatial distribution of fire occurrence, the kernel density estimation (KDN) was used by classification of areas into low-risk and high-risk areas based on NASA’s MODIS C6 satellite images (2000-2023).
Results The results of examining the temperature trend in all stations in the 32-year period showed an increasing and significant trend at 95 and 99% confidence intervals. This could be due the increase of greenhouse gases in urban centers, which is logical. The results of the NDVI showed that areas with high vegetation density were more susceptible to wildfires. Investigation of the solar radiation area showed that the northern highlands of Tehran, the banks of the Caspian Sea and northern areas of Iran, northwestern Iran (Ardebil and Tabriz cities), and central Iran (Kerman, Isfahan, Yazd and Shiraz cities) had a high pixel value, indicating that the amount of solar radiation was higher in these regions than in other regions of Iran. Finally, the spatial distribution map and the KDN showed that the provinces of Kohgiluyeh & Boyer-Ahmad and Khuzestan were more prone to a wildfires.
Conclusion Iran has faced climate change caused by global warming. Considering the new climate of Iran, which will be hotter and dryer, it will be more prone to wildfires. Therefore, comprehensive planning to reduce the effect of climate change is needed in the field of crisis management in Iran, which can help reduce the vulnerability and increase resilience.
Method The temperature data of the synoptic stations (Mehrabad, Yazd, Bam, Shiraz, Isfahan and Bushehr) in a 32-year period from 1988 to 2020 were first prepared from the Meteorological Organization. Then, Excel macros and XLSTAT plugin were used to check the temperature trend. To identify the vegetation cover, the Normalized Difference Vegetation Index (NDVI) was used from the Landsat 8 satellite with a spatial resolution of 27.84 meters, whose source of data was the Google Earth Engine. Then, the parameters of elevation, slope, aspect, and amount of solar radiation were used to calculate the topography. To identify the spatial distribution of fire occurrence, the kernel density estimation (KDN) was used by classification of areas into low-risk and high-risk areas based on NASA’s MODIS C6 satellite images (2000-2023).
Results The results of examining the temperature trend in all stations in the 32-year period showed an increasing and significant trend at 95 and 99% confidence intervals. This could be due the increase of greenhouse gases in urban centers, which is logical. The results of the NDVI showed that areas with high vegetation density were more susceptible to wildfires. Investigation of the solar radiation area showed that the northern highlands of Tehran, the banks of the Caspian Sea and northern areas of Iran, northwestern Iran (Ardebil and Tabriz cities), and central Iran (Kerman, Isfahan, Yazd and Shiraz cities) had a high pixel value, indicating that the amount of solar radiation was higher in these regions than in other regions of Iran. Finally, the spatial distribution map and the KDN showed that the provinces of Kohgiluyeh & Boyer-Ahmad and Khuzestan were more prone to a wildfires.
Conclusion Iran has faced climate change caused by global warming. Considering the new climate of Iran, which will be hotter and dryer, it will be more prone to wildfires. Therefore, comprehensive planning to reduce the effect of climate change is needed in the field of crisis management in Iran, which can help reduce the vulnerability and increase resilience.
Type of Study: Research |
Subject:
Special
Received: 2023/08/20 | Accepted: 2023/10/14 | ePublished: 2023/12/21
Received: 2023/08/20 | Accepted: 2023/10/14 | ePublished: 2023/12/21
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