Abstract
Urban heat islands (UHI) increase summer temperatures and can threaten human well-being during extreme heat events. Since urbanization plays a key role in UHI development, accurate quantification of land cover types is critical to their identification. This study examines how quantifying land cover types using both two- and three-dimensional approaches to land cover quantification affects an UHI model’s explanatory power. Two-dimensional approaches treat tree canopies as a land cover, whereas three-dimensional approaches document the land cover areas obscured under tree canopies. We compare how accurately the two approaches explain elevated air temperatures in Chicago, Illinois. Our results show on average 14.1% of impervious surface areas went undocumented using a two-dimensional approach. The most common concealed impervious surfaces were sidewalks, driveways, and parking lots (+6.2%), followed by roads (+6.1%). Yet, the three-dimensional approach did not improve the explanatory power of a UHI model substantially. At 2 a.m., the adjusted R2 increased from 0.64 for a two-dimensional analysis to 0.68 for a three-dimensional analysis. We found that the less time consuming two-dimensional quantification of land covers was sufficient to predict neighborhood UHIs. As climate change exacerbates UHI, more cities will map urban hotspots and this research increases our understanding of alternative approaches.
Highlights
Past studies have linked urban land covers to urban heat islands (UHI) [1,2,3,4], the presence of impervious surfaces and the absence of vegetation
Geological patterns, and weather patterns play a role in the formation of UHIs, understanding the contribution of urbanization is critical for planning and design of more thermally comfortable cities
(60% tree canopy in Beverly and 30% tree canopy in Little Italy), more than 25% of impervious surfaces were missed with a two-dimensional approach
Summary
Past studies have linked urban land covers to urban heat islands (UHI) [1,2,3,4], the presence of impervious surfaces and the absence of vegetation. UHIs refer to locally elevated air temperatures resulting from urban materials that increase absorption of solar radiation and change land cover’s energy balance [1,5]. Researchers, urban planners, designers, and decision-makers have sought to identify where UHIs exist in an effort to prioritize the location of heat mitigation interventions. A common approach to find where UHIs occur is to locate areas of high impervious surfaces. These impervious areas are used as an indicator for urban-induced heating
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