LOCAL CLIMATE ZONE (LCZ) IN BANDAR LAMPUNG CITY
Abstract
The rapid growth of the population in Bandar Lampung has led to a change in the land's usage from vegetation to built-up land. In the end, less vegetation will be present, which also results in higher temperatures in urban. This study intends to identify the state of the city's building density, vegetation density, land surface temperature, and Local Climate Zone (LCZ) in Bandar Lampung. Local Climate Zone (LCZ) maps can provide information on the physical structure of urban planning based on building density, and vegetation density, and are useful in the mitigation and public monitoring of increasing urban temperatures. The data was collected using images from Landsat 8 OLI/TIRS and high-resolution satellite imagery from Maxar Technologies downloaded using Google Earth Pro. Additionally, a field survey was used to measure the air temperature. The LCZ Generator WUDAPT is used to process LCZ data. The findings revealed that Bandar Lampung was dominated by medium-density buildings in the city's canter and medium-density vegetation in its western. The highest LST in residential areas is 35°C, while forest areas have the lowest LST at 15,68°C. There are 14 LCZ classifications, covering seven building types and seven land cover types. The dense tree zone has the highest vegetation density, the open low-rise zone has the highest land surface temperature, and the compact low-rise zone has the highest building density.
Keywords
Full Text:
PDFReferences
Aslam, A., & Irfan A. R. (2022). The Use of Local Climate Zones in The Urban Environment: A Systematic Review of Data Sources, Methods, And Themes. Urban Climate, 42: 1-17.
Astuti, Sola Tri., & Fitria N. (2021). Identifikasi Local Climate Zone Sebagai Upaya Mitigasi Urban Heat Island di Kota Semarang. Geomedia, 19(1): 54-65.
Badan Pusat Statistik Provinsi Lampung. (2021). Provinsi Lampung Dalam Angka Tahun 2021. Bandar Lampung: BPS Lampung.
Gitawardani, A. (2019). Analisis Pengaruh Penggunaan Lahan Terhadap Suhu Permukaan dan Keterkaitannya dengan Fenomena Urban Heat Island Menggunakan Citra Satelit Landsat (Studi Kasus: Kota Bandar Lampung). Skripsi. Teknik Geomatika, Institut Teknologi Sumatera.
Hidayati, I. N., Suharyadi., & Projo D. (2018). Kombinasi Indeks Citra untuk Analisis Lahan Terbangun dan Vegetasi Perkotaan. Majalah Geografi Indonesia, 32(1): 24-32.
Ikhsanuddin, N. S. (2015). Analisis Perubahan Penggunaan Lahan RTH Publik Kota Bandar Lampung Tahun 2009-2015. Jurnal Penelitian Geografi, 3(2): 1-12.
Kaya, S. (2011). Multi-Temporal Analysis of Urban Area Changers using Built-up: 1-6.
Manik, T. K. & Syarifah S. (2013). The Impacts of Urban Heat Island: Assessing Vulnerability in Indonesia. Asian Cities Climate Resilience (13).
Mardiansjah, F. H., & Paramita R. (2019). Urbanisasi dan Pertumbuhan Kota-Kota di Indonesia: Suatu Perbandingan Antar-Antar Kawasan Makro Indonesia. Jurnal Pengembangan Kota, 7(1): 91-110.
Pradhesta, Y. F. Nurjani, E. & Arijuddin, B. I. (2012). Local Climate Zone Classification for Climate-based Urban Planning Using Landsat 8 Imagery (A case study in Yogyakarta Urban Area). IOP Conf. Ser: Earth Environ. Sci. 303.
Stewart, I. D., & Oke T. R. (2012). Local Climate Zones for Urban Temperature Studies. Bull Am Meteorol Soc, 93(12): 1879-1900.
Wass H. J. D., & Nababan, B. (2010). Pemeteaan dan Analisis Index Vegetasi Mangrove di Pulau Saparua Maluku Tengah. E-Jurnal Ilmu dan Teknologi Kelautan Tropis, 2(1): 50-58.
Wibowo, A., Yusoff, M.M., & Shalleh, K. O. (2020). Monitoring Urban Heat Signature and Profiles of Localized Urban Environment in The University of Malaya. IOP Conference Series: Earth and Environmental Science, 481(1): 1-6.
Zhang, X. X., Wu. P. F., & Chen. B. (2010). Relationship Between Vegetation Greenness and Urban Heat Island Effect in Beijing City of China. Procedia Environmental Sciences, 2: 1438-1450.
Refbacks
- There are currently no refbacks.