A study of urban heat island of Banda Aceh City, Indonesia based on land use/cover changes and land surface temperature

Achmad, Ashfa; Sari, Laina Hilma; Ramli, Ichwana

doi:10.13170/aijst.8.1.13060

Cited by 16 publications

(9 citation statements)

References 27 publications

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“…A similar figure was also reconstructed for the rest of the regions. The stable LST in Aceh contrasts with a study in Banda Aceh which found that the region has the potential for an increase in temperature [12]. Other studies also illustrate the fact that there is an increase in temperature in the Aceh region due to land-use changes [13].…”

Section: Resultsmentioning

confidence: 73%

Sumatra Land Surface Temperature Increase

Munawar¹,

Prasetya²,

McNeil³

et al. 2021

Advances in Social Science, Education and Humanities Research

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Climate change in Sumatra island is likely a result of widespread land-use changes by the plantation industry. This study aims to investigate trends in land surface temperatures in Sumatra island. Land surface temperatures from 2001-2020 were downloaded from the National Aeronautics and Space Administration moderate resolution imaging spectroradiometer Terra satellite and divided into 5 regions and 45 sub-regions spread equally across the island. The statistical method that used to analyzed the data was cubic spline and multiple regression. The seasonal pattern and variation in the land surface temperature were examined using a cubic spline method and the seasonally adjusted land surface temperature was analyzed using a multiple regression model. On average, the land surface temperature on Sumatra island significantly increased over the ten years by 0.076°C with a 95% confidence interval of [0.010, 0.141]°C.

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Section: Resultsmentioning

confidence: 73%

Sumatra Land Surface Temperature Increase

Munawar¹,

Prasetya²,

McNeil³

et al. 2021

Advances in Social Science, Education and Humanities Research

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“…UHI is the phenomena where the temperature of an urban area is significantly higher than surrounding rural areas; it is one of the most significant challenges for the urban environment, especially in the context of global climate change [7]. Many remote sensing techniques using satellite images could detect the rapid alterations in the land use and land cover through several studies, which confirmed the surface UHI [10,11]. Naturally, the physical surface at urban environment consists of different built materials such as asphalt, gravel, stones, pebbles, concrete, etc., which characterizes with high heat capacities to store the solar energy.…”

Section: Introductionmentioning

confidence: 81%

Prediction Model of Air Temperature in Relation to Field and Remotely Sensed Data in Baghdad Greater Area

Al-Totanje

Jasim

2023

IOP Conf. Ser.: Earth Environ. Sci.

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Recently, scientific research paid attention on the air temperature increase of the urban cities. Many technologies were involved in order to identify the relationship among the air temperature and the affective factors. This research was aimed to build a prediction model of air temperature based on the field and remotely sensed data of Landsat 8 OLI. The model building consists of two factors, the first of which was a field measurement of air temperature for specified areas in Baghdad, Iraq. While the second factor was obtained using the remote sensing technology to calculate the normalized difference vegetation index (NDVI), Normalized difference water index (NDWI), Normalized difference built-up index (NDBI), and Land surface temperature (LST). Results of the multiple regression relationship among the measured factors reveals significant values that supports the model. The methodology of this study could be employed to help the environmental researchers to predict the air temperature in Baghdad city based on satellite data. We recommend applying the prediction model based on both seasons for the most significant results of air temperature measures, we also recommend evaluating this model on urban arid and cold climates.

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“…Suriana et al (2020) found that UHI tends on built-up land and lower temperatures near water bodies, this information was only obtained from Landsat imagery. A similar method was applied in Banda Aceh, researchers found that UHI was positively and significantly correlated with building density (Achmad et al, 2019).…”

Section: Literature Reviewmentioning

confidence: 99%

Urban Heat Island Assessment using Remote Sensing Data in West Java, Indonesia: From Literature Review to Experiments and Analyses

Nandi¹,

Dede²

2021

Indonesian J. Sci. Technol

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Urban heat island (UHI) is a significantly increasing temperature that occurs in the urban region due to urbanization and anthropogenic activities. The UHI represents environmental quality decrease and able to change a microclimate in the long term. It phenomenon can be estimated using multi-temporal remote sensing imagery data. This study aims to analyze the spatial dynamics of UHI in the urban region of West Java from 1998 to 2018. We only used remote sensing data from different datasets. Information of land-surface temperature is extracted from Landsat-5 TM and Landsat-8 OLI images using radiative transfer equation which validated using MODIS data in the same period. This study showed that UHI intensity in the urban region of West Java reach 5.11oC in 2018. For 20 years, the land-surface temperature increased to 4.44oC. The UHI distribution is concentrated in the central business district, industrial area, harbor, terminal, airport, and traffic jam zone. The UHI significantly increased in Depok and Cimahi, which are known as satellite cities for the surrounding megapolitan (Jakarta and Bandung Raya). This model has high validity result with a correlation value of 0.74. The UHI management is important to strengthen urban resilience in the environmental field through green open space, green belts, roof gardens, land use and land cover formal direction, and the use of high albedo materials to build construction.

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A study of urban heat island of Banda Aceh City, Indonesia based on land use/cover changes and land surface temperature

Cited by 16 publications

References 27 publications

Sumatra Land Surface Temperature Increase

Sumatra Land Surface Temperature Increase

Prediction Model of Air Temperature in Relation to Field and Remotely Sensed Data in Baghdad Greater Area

Urban Heat Island Assessment using Remote Sensing Data in West Java, Indonesia: From Literature Review to Experiments and Analyses

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