Frontiers in Environmental Science (Oct 2024)

Impact of land use land cover changes on urban temperature in Jakarta: insights from an urban boundary layer climate model

  • Dikman Maheng,
  • Dikman Maheng,
  • Dikman Maheng,
  • Assela Pathirana,
  • Biswa Bhattacharya,
  • Chris Zevenbergen,
  • Chris Zevenbergen,
  • Dirk Lauwaet,
  • Siswanto Siswanto,
  • Aries Suwondo

DOI
https://doi.org/10.3389/fenvs.2024.1399041
Journal volume & issue
Vol. 12

Abstract

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Urbanization is one of the important drivers of increasing local temperatures. As cities and urban areas evolve, extensive land use and land cover (LULC) changes alter the physical characteristics of surface materials. This modification results in reduced evapotranspiration rates, ultimately contributing to higher surface and air temperatures. This study investigated the impact of urbanization on urban temperature in Jakarta. Urban temperature was simulated for a 20-year time period (1995–2014) by the urban boundary layer climate model UrbClim, using LULC data for both 1995 and 2014. Temperature changes were analysed by assessing the temperature anomaly across different LULC change classes divided into four main classes namely no built-up changes (BB), no green spaces changes (GG), built-up to green spaces (BG), and green spaces to built-up (GB). The study revealed that the conversion of green spaces to built-up areas (GB) had the most significant impact on the increase in air temperature. This was indicated by the mean values of the temperature anomaly of GB of about 0.24°C followed by GG, BB, and BG with the mean values of the temperature anomaly of about 0.20°C, 0.19°C, 0.17°C, respectively. The different temperature anomalies of the LULC change classes indicate that green spaces have an important role in maintaining local climate. Hence, it is important for local government to effectively manage the composition, the quantity, as well as the distribution of green spaces within a city. By looking at temperature anomalies of LULC change classes, the present study provides an alternative approach to many existing methods that provide general information about temperature changes, without specifically analyzing the effects of LULC transformations.

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