November 21, 2024

ali Azareh

Academic rank: Associate professor
Address:
Education: PhD. in De_Desertification
Phone: 09132576656
Faculty:

Research

Title
Drought Monitoring Using MODIS Land Surface Temperature and Normalized Difference Vegetation Index Products in Semi-Arid Areas of Iran
Type Article
Keywords
Remote Sensing, SPI, MODIS, North-West of Iran
Researchers Elham Rafiei Sardoii, ali Azareh, Hadi Eskandari Damane, hamed eskandari damaneh

Abstract

Reduction in vegetation cover and increasing land surface temperature are the most important consequences of drought which leads to land degradation. Therefore, the evaluation of drought effects on vegetation cover and its relationship with land surface temperature is very important. To that end, the objective of this study was to evaluate the relationship among vegetation cover, drought and land surface temperature in the north-west of Iran during 2001-2014. The annual (12 months) Standardized Precipitation Index (SPI) was calculated using monthly precipitation time series from 26 meteorological stations in the study area. Then, the interpolated maps of drought were produced using the Kriging method in the GIS environment. The Normalized Difference Vegetation Index (NDVI) and Land Surface Temperature (LST) index were calculated from 2001-2014 using MODIS satellite images. Then, the Pearson correlation coefficient (R) was calculated to investigate the relationship among NDVI, LST and SPI. According to the results, the changes trend of mean NDVI was similar to drought trends over the years (2001-2014) and the NDVI values have experienced its greatest reduction in 2008 (NDVI=0.087). The results also showed that LST values had a significant inverse relationship with SPI and NDVI indices (P<0.05). So, Land Surface Temperature (LST) was the highest (LST=22.3) where SPI and NDVI were the lowest (SPI=0.04 and NDVI=0.087) and there was the most severe drought in these conditions. Therefore, mean NDVI and LST could be suitable alternatives for climate indicators in the monitoring and evaluation of drought events in semi-arid areas.