Abstract
Using a high-resolution regional climate model coupled with urban canopy model, the present study provides the first attempt in quantifying the impact of metropolitan-scale urban planning scenarios on moist thermal environment under global warming. Tokyo metropolitan area is selected as a test case. Three urban planning scenarios are considered: status quo, dispersed city, and compact city. Their impact on the moist thermal environment is assessed using wet-bulb globe temperature (WBGT). Future projections for the 2070s show a 2–4°C increase in daytime mean WBGT relative to the current climate. The urban scenario impacts are shown to be small, with a −0.4 to +0.4°C range. Relative changes in temperature and humidity as the result of a given urban scenario are shown to be critical in determining the sign of the WBGT changes; however, such changes are not necessarily determined by local changes in urban land surface parameters. These findings indicate that urban land surface changes may improve or worsen the local moist thermal environment and that metropolitan-scale urban planning is inefficient in mitigating heat-related health risks for mature cities like Tokyo.
Highlights
The climate in urbanized areas around the world has undergone substantial change over recent years, with a general trend toward degradation of the thermal environment due to the combined effect of global warming and urbanization
The present study aims to provide a quantitative assessment of the impact of metropolitan-scale urban planning on the summer-time moist thermal environment under global warming
We have focused on the impacts of urban land surface modifications to the moist thermal environment
Summary
The climate in urbanized areas around the world has undergone substantial change over recent years, with a general trend toward degradation of the thermal environment due to the combined effect of global warming and urbanization. In addition to the expected further warming of the planet due to anthropogenic greenhouse gas emission [6], urbanization is considered a significant factor for the increased climate-related health risk due to excess heat exposure [7] These observed and expected changes in urbanized areas have motivated climate scientists to examine the combined impact of urbanization and climate change to urban thermal environment. A special attention will be given to the comparison of the global warming impact against the alternative urban planning impacts on the summer-time moist thermal environment To this end, we use WBGT as a comprehensive thermal index, to incorporate temperature and humidity. To the best knowledge of the authors, the present study is the first assessment of the impact of future metropolitan-scale urban planning scenarios on moist thermal environment using dynamical downscaling approach
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