Abstract
Numerous studies have identified associations between the surface urban heat island (SUHI) effect (i.e., SUHI, hereinafter is referred to as UHI) and urban growth, particularly changes in land cover patterns. This research questions their causal links to answer a key policy question: If cities restrict urban expansion and encourage people to live within existing urban areas, will that help in controlling UHI? The question has been answered by estimating four models using data from Brisbane, Australia: Model 1—cross-sectional ordinary least square (OLS) regression—to examine the association between the UHI effect and land cover patterns in 2013; Model 2—cross-sectional geographically weighted regression (GWR)—to examine whether the outputs generated from Model 1 possess significant spatial variations; Model 3—longitudinal OLS—to examine whether changes in land cover patterns led to changes in UHI effects between 2004 and 2013; and Model 4—longitudinal GWR—to examine whether the outputs generated from Model 3 vary significantly over space. All estimations were controlled for potential confounding effects (e.g., population, employment and dwelling densities). Results from the cross-sectional OLS and GWR models were consistent with previous findings and showed that porosity is negatively associated with the UHI effect in 2013. In contrast, population density has a positive association. Results from the longitudinal OLS and GWR models confirm their causal linkages and showed that an increase in porosity level reduced the UHI effect, whereas an increase in population density increased the UHI effect. The findings suggest that even a containment of population growth within existing urban areas will lead to the UHI effect. However, this can be significantly minimized through proper land use planning, by creating a balance between urban and non-urban uses of existing urban areas.
Highlights
Numerous studies have found that urban sprawl [1,2] reduces vegetation cover and, contributes to the urban heat island (UHI) effect—a phenomenon where urban areas experience high temperatures compared to their non-urban surroundings
The available evidence, leaves a key question largely unanswered: If cities restrict urban expansion and encourage people to live within existing urban areas, will that help to control the UHI effect? This paper provides new evidence that helps to answer this question; it aims to provide a stronger basis for assessing the potential for land-use policies to reduce the UHI effect
In line with the cross-sectional analysis, the results show that an increase in porosity level reduces the mean of UHI (MUHI) effect between the periods
Summary
Numerous studies have found that urban sprawl [1,2] (i.e., low density outward expansion of cities) reduces vegetation cover and, contributes to the urban heat island (UHI) effect—a phenomenon where urban areas experience high temperatures compared to their non-urban surroundings. Most of these studies, are based on cross-sectional evidence, which means that they investigated the link between land cover type and land surface temperature, based on data from a single point in time to substantiate their claims. If the change in land cover type precedes the change in UHI effect, a causal relationship is more certain; and causal mechanisms—a plausible explanation for why the alleged cause should produce the observed effect
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
