Rushayati, Siti Badriyah; Annisa, Namira Nur; Setiawan, Yudi; Condro, Aryo Adhi Climate Change Mitigation Towards the Lens of Urban Heat Island under Urban Forest Development Journal Article In: Julnal Sylva Lestari, vol. 13, iss. 2, pp. 406-421, 2025, ISBN: 2549-5747. @article{Rushayati2025,
title = {Climate Change Mitigation Towards the Lens of Urban Heat Island under Urban Forest Development},
author = {Siti Badriyah Rushayati and Namira Nur Annisa and Yudi Setiawan and Aryo Adhi Condro},
url = {http://algm.ipb.ac.id/wp-content/uploads/2025/10/UHI_Rushayati_2025.pdf},
doi = {https://doi.org/10.23960/jsl.v13i2.1090},
isbn = {2549-5747},
year = {2025},
date = {2025-10-05},
journal = {Julnal Sylva Lestari},
volume = {13},
issue = {2},
pages = {406-421},
abstract = {Rapid urbanization and land-use change in Indonesian cities have led to urban heat islands, exacerbating air pollution. This situation elevates sensible heat, thereby compromising human thermal comfort. Palu City, situated in Central Sulawesi Province, Indonesia, has experienced significant urban heat island effects in recent decades. To mitigate this issue, increased development of green open spaces is necessary. This study prioritizes urban forest development in urban areas using a spatial analysis approach. We employ a weighting and scoring system based on vegetation indices, land cover, and air temperature parameters. Our study identified three priority areas with total areas of approximately 6,741 ha, 2,746 ha, and 20,695 ha for priorities 1, 2, and 3, respectively. This study prioritizes areas with high temperatures, low vegetation cover, and bare land for urban forest development. To effectively implement the proposed urban forest development plan, this study also highlights recommendations to create a more sustainable, resilient, and livable urban environment.},
keywords = {urban forest, urban heat island},
pubstate = {published},
tppubtype = {article}
}
Rapid urbanization and land-use change in Indonesian cities have led to urban heat islands, exacerbating air pollution. This situation elevates sensible heat, thereby compromising human thermal comfort. Palu City, situated in Central Sulawesi Province, Indonesia, has experienced significant urban heat island effects in recent decades. To mitigate this issue, increased development of green open spaces is necessary. This study prioritizes urban forest development in urban areas using a spatial analysis approach. We employ a weighting and scoring system based on vegetation indices, land cover, and air temperature parameters. Our study identified three priority areas with total areas of approximately 6,741 ha, 2,746 ha, and 20,695 ha for priorities 1, 2, and 3, respectively. This study prioritizes areas with high temperatures, low vegetation cover, and bare land for urban forest development. To effectively implement the proposed urban forest development plan, this study also highlights recommendations to create a more sustainable, resilient, and livable urban environment. |
Saninah, Tsamarah Nada; Rushayati, Siti Badriyah; Hermawan, Rachmad Urban forest development at landside of Hang Nadim Batam Airport based on the microclimate and noise study Conference vol. 528, IOP Conf. Ser.: Earth Environ. Sci, 2020. @conference{Saninah2020,
title = {Urban forest development at landside of Hang Nadim Batam Airport based on the microclimate and noise study},
author = {Tsamarah Nada Saninah and Siti Badriyah Rushayati and Rachmad Hermawan},
url = {https://iopscience.iop.org/article/10.1088/1755-1315/528/1/012064/meta},
doi = {10.1088/1755-1315/528/1/012064},
year = {2020},
date = {2020-07-21},
volume = {528},
publisher = {IOP Conf. Ser.: Earth Environ. Sci},
abstract = {The landside of Hang Nadim Batam Airport can be adapted to urban forests to reduce emissions, stabilize the microclimate, and reduce noise. The purpose of this research are to study the microclimate and noise around the Hang Nadim Batam Airport, and develop landside based on the condition of the airport urban forest. Research was conducted on April, 8th-15th 2019 based on the density of vegetation. Location determining, characteristics of trees and leaf area index, air temperature and humidity, and noise were used as the methods of this research. The factors that analyzed by this research were NDVI, tree profile diagrams, LAI, air temperature and humidity, thermal humidity, and noise. The result showed that there were 55 trees of 11 species from 6 families. The profile diagram showed the densest vegetation was at point F, one of the points of measurements with dense vegetation category, seen by horizontally and vertically. The highest air temperature and thermal humidity was at point E and the lowest was at point F. The highest humidity was at point F and the lowest was at point E. The highest noise was at rare vegetation and the lowest was at dense vegetation. Landside development needs to look at ecology, technical, and aesthetic.},
keywords = {microclimate, noise, urban forest},
pubstate = {published},
tppubtype = {conference}
}
The landside of Hang Nadim Batam Airport can be adapted to urban forests to reduce emissions, stabilize the microclimate, and reduce noise. The purpose of this research are to study the microclimate and noise around the Hang Nadim Batam Airport, and develop landside based on the condition of the airport urban forest. Research was conducted on April, 8th-15th 2019 based on the density of vegetation. Location determining, characteristics of trees and leaf area index, air temperature and humidity, and noise were used as the methods of this research. The factors that analyzed by this research were NDVI, tree profile diagrams, LAI, air temperature and humidity, thermal humidity, and noise. The result showed that there were 55 trees of 11 species from 6 families. The profile diagram showed the densest vegetation was at point F, one of the points of measurements with dense vegetation category, seen by horizontally and vertically. The highest air temperature and thermal humidity was at point E and the lowest was at point F. The highest humidity was at point F and the lowest was at point E. The highest noise was at rare vegetation and the lowest was at dense vegetation. Landside development needs to look at ecology, technical, and aesthetic. |
