Impact of land-use land-cover datasets and urban parameterization on weather simulation over the Jakarta Metropolitan Area. Sari, D. L., June, T., Perdinan, Hidayat, R., Hanggoro, W., & Arifin, H. S. IOP Conference Series: Earth and Environmental Science, 1039(1):012036, September, 2022. Publisher: Institute of PhysicsPaper doi abstract bibtex Human-caused changes in land-use and land-cover (LULC) are most visible in metropolitan areas, when the majority of the land has been converted to urban land or built up. This study presents a modeling approach for simulating the spatiotemporal distribution of urban microclimate with the Weather Research and Forecasting (WRF) model using four urban parameterization schemes, namely a bulk, urban canopy model (UCM), building effect parameterization (BEP), and building energy model (BEM). The WRF model is set-up at 1 km spatial resolutions over the Jakarta Metropolitan Area to study the model's sensitivity to the usage of alternative LULC datasets, the default MODIS and its modification 2017. The results show that the UCM and BEM schemes appear to be reliable in mapping urban weather conditions for all meteorological parameters examined. Given that the LULC categories in urban areas remained unchanged, changing the LULC in the model did not result in a large difference in error. The LULC dataset, on the other hand, can be used as information related to suburban areas that continue to grow in concurrently with urbanization. LULC updates can provide insight into how much temperature rise is occurring in urban areas and how it affects climate change.
@article{sari_impact_2022,
title = {Impact of land-use land-cover datasets and urban parameterization on weather simulation over the {Jakarta} {Metropolitan} {Area}},
volume = {1039},
issn = {1755-1307},
url = {https://iopscience.iop.org/article/10.1088/1755-1315/1039/1/012036},
doi = {10.1088/1755-1315/1039/1/012036},
abstract = {Human-caused changes in land-use and land-cover (LULC) are most visible in metropolitan areas, when the majority of the land has been converted to urban land or built up. This study presents a modeling approach for simulating the spatiotemporal distribution of urban microclimate with the Weather Research and Forecasting (WRF) model using four urban parameterization schemes, namely a bulk, urban canopy model (UCM), building effect parameterization (BEP), and building energy model (BEM). The WRF model is set-up at 1 km spatial resolutions over the Jakarta Metropolitan Area to study the model's sensitivity to the usage of alternative LULC datasets, the default MODIS and its modification 2017. The results show that the UCM and BEM schemes appear to be reliable in mapping urban weather conditions for all meteorological parameters examined. Given that the LULC categories in urban areas remained unchanged, changing the LULC in the model did not result in a large difference in error. The LULC dataset, on the other hand, can be used as information related to suburban areas that continue to grow in concurrently with urbanization. LULC updates can provide insight into how much temperature rise is occurring in urban areas and how it affects climate change.},
number = {1},
journal = {IOP Conference Series: Earth and Environmental Science},
author = {Sari, D. L. and June, T. and {Perdinan} and Hidayat, R. and Hanggoro, W. and Arifin, H. S.},
month = sep,
year = {2022},
note = {Publisher: Institute of Physics},
keywords = {NALCMS},
pages = {012036},
}
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