Land Surface Temperature Retrieval from Landsat 9 Satellite Data in the Case of Injibara Town and the Surrounding Banja District, Awi Nationality Administrative Zone, Amhara, Ethiopia
Land surface temperature (LST) is crucial for various applications like agriculture, hydrology, urban planning, and climate analysis. Rapid urbanization and climate change have intensified land surface temperature (LST) variations, particularly in agriculturally dependent regions like Ethiopia, wher...
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| Main Authors: | , |
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| Format: | Article |
| Language: | English |
| Published: |
Universitas Muhammadiyah Surakarta
2025-07-01
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| Series: | Forum Geografi |
| Subjects: | |
| Online Access: | https://journals2.ums.ac.id/index.php/fg/article/view/6363 |
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| Summary: | Land surface temperature (LST) is crucial for various applications like agriculture, hydrology, urban planning, and climate analysis. Rapid urbanization and climate change have intensified land surface temperature (LST) variations, particularly in agriculturally dependent regions like Ethiopia, where temperature fluctuations directly impact livelihood?s. However, localized LST dynamics in areas such as Injibara town and Banja District remain understudied??despite their sensitivity to climate variability and urban heat effects. This study address the gap by estimating LST using Landsat 9 data and analyzing its correlation with Normalized Difference Vegetation Index (NDVI). Landsat 9, launched in 2021, provides enhanced imaging capabilities and advanced sensors compared to its predecessors. Data from the United States Geological Survey (USGS) Earth Explorer website were processed using ArcGIS 10.8. LST was derived using the emissivity equation model incorporating land surface emissivity (LSE) and brightness temperature calculations. NDVI analysis revealed values ranging from -0.03 to 1, with high vegetation (0.35 – 1) concentrated in government and private forests in the northwest, while low vegetation (-0.03–0.15) dominated urban areas, barren lands, and unproductive regions in the south and southeast. The LST results indicated the highest temperatures (38-43°C) in northwest and southeast lowland regions, while the lowest temperatures (14-22°C) were in central highlands. Approximately 40.8% of the area exhibited temperatures between 29-32°C. The study result revealed a negative relationship (R2=0.2506) among LST and NDVI, suggesting higher vegetation cover correlates with lower temperatures. To support regional climate resilience, the researchers recommend; integrating green infrastructure in urban planning, prioritizing afforestation in Banja’s lowlands, and expanding research to other Ethiopian agro-ecological zones using high spatial resolution data for comparative analysis. |
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| ISSN: | 0852-0682 2460-3945 |