4.7 Article

Multi-city assessments of human exposure to extreme heat during heat waves in the United States

期刊

REMOTE SENSING OF ENVIRONMENT
卷 295, 期 -, 页码 -

出版社

ELSEVIER SCIENCE INC
DOI: 10.1016/j.rse.2023.113700

关键词

Heat exposure; Heat wave; Urban heat island; Morphology; SOLWEIG model

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This study used the SOLWEIG model and remote sensing data to generate hourly heat exposure maps in three US cities during heat wave and non-heat wave days. The study found high heat exposure in urban downtown areas due to low building height and limited shading effect. Heat exposure during heat waves was increased by 6°C to 10°C compared to non-heat wave conditions, and hot cities had higher heat exposure than warm cities. Sky view factor was the most important factor influencing heat exposure, while the role of impervious surface and trees varied among cities.
There is a lack of understanding of the complex spatiotemporal patterns of heat exposure during heat waves, and the impact of urbanization intensity and urban morphology on heat exposure in urban thermal environments. To address these issues, this study used mean radiant temperature (Tmrt) as an index to indicate human exposure to extreme heat, and generated hourly heat exposure maps at a 1-m spatial resolution in Summer 2020 for heat wave and non-heat wave days across three diversely urbanized and climatically different U.S. cities (Riverside, CA; Des Moines, IA; and Boston, MA) using the SOlar LongWave Environmental Irradiance Geometry (SOLWEIG) model and multi-source remote sensing and GIS data. Based on these high-frequency and microscale maps, we found that heat exposure in urban canyons of downtown areas was high due to relatively low building's height to street's width (H/W) ratio, which resulted in a limited shading effect in the studied cities. Heat exposure during heat waves was enhanced by 6 degrees C to 10 degrees C compared to non-heat wave conditions, with the main differences occurring in the early afternoon between 12 pm and 2 pm. We found that hot cities (Riverside, 63 degrees C) had higher heat exposure than warm cities (Des Moines and Boston, 53 degrees C and 51 degrees C) during heat waves. Heat exposure in urban core areas was approximately 5C higher than that in rural areas during heat waves. Additionally, we found that sky view factor was the most important urban morphology factor influencing heat exposure, with a relative importance of over 67% in these cities, but the role of impervious surface and trees varied among these cities. Impervious surface area (ISA) contributed more to heat exposure than trees in dry and hot regions (Riverside), but not in humid and warm cities (Des Moines and Boston). This study is the first to generate hourly heat exposure maps at a 1-m resolution for heat wave and non-heat wave days, and to investigate spatiotemporal patterns and the impacts of urbanization intensity and urban morphology on heat exposure in multiple cities. The findings of this study can be useful in developing urban policies to improve urban thermal environments in diverse urban settings, and our transferable framework can potentially be applied to other cities for heat exposure studies.

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