Abstract
The urban heat island (UHI) concept describes heat trapping that elevates urban temperatures relative to rural temperatures, at least in temperate/humid regions. In drylands, urban irrigation can instead produce an urban cool island (UCI) effect. However, the UHI/UCI characterization suffers from uncertainty in choosing representative urban/rural endmembers, an artificial dichotomy between UHIs and UCIs, and lack of consistent terminology for other patterns of thermal variation at nested scales. We use the case of a historically well-enforced urban growth boundary (UGB) around Portland (Oregon, USA): to explore the representativeness of the surface temperature UHI (SUHI) as derived from Moderate Resolution Imaging Spectroradiometer (MODIS) land surface temperature data, to test common assumptions of characteristically “warm” or “cool” land covers (LCs), and to name other common urban thermal features of interest. We find that the UGB contains heat as well as sprawl, inducing a sharp surface temperature contrast across the urban/rural boundary. The contrast ranges widely depending on the end-members chosen, across a spectrum from positive (SUHI) to negative (SUCI) values. We propose a new, inclusive “urban thermal deviation” (UTD) term to span the spectrum of possible UHI-zero-UCI conditions. We also distinguish at finer scales “microthermal extremes” (MTEs), discrete areas tending in the same thermal direction as their LC or surroundings but to extreme (hot or cold) values, and microthermal anomalies (MTAs), that run counter to thermal expectations or tendencies for their LC or surroundings. The distinction is important because MTEs suggest a need for moderation in the local thermal landscape, whereas MTAs may suggest solutions.
Highlights
Urbanization and climate warming continue to advance, but even at current levels urban warming and heat waves are already a leading cause of premature human mortality [1,2,3,4,5,6,7,8,9]
This study aims to contribute to the growing literature on assessments of urban heat by explicitly examining each of these needs with respect to an example surface urban heat island (SUHI): the role of an urban growth boundary (UGB) in mediating temperatures, the assembly of the overall urban temperature from component land covers (LCs), and sometimes counter-intuitive variations in land surface temperature (LST) within specific urban LCs
The nomenclature of the atmospheric “urban heat island” (UHI) and surface temperature “surface urban heat island” (SUHI) has provided a simple framework to interrogate how urban and rural areas differ in their thermal conditions
Summary
Urbanization and climate warming continue to advance, but even at current levels urban warming and heat waves are already a leading cause of premature human mortality [1,2,3,4,5,6,7,8,9]. The spatial variation in heat-related mortality is regressive, with disproportionate negative impact on the poor, elderly, and people of color [10,11,12,13,14,15] It is well-appreciated that land use planning can play a major role in amplifying urban heat, or can provide mitigation to help temper local experiences of heat [16,17,18,19,20,21]. The identification of profoundly elevated urban temperatures in combination with present climate change and increased frequency and severity of urban heat waves has heralded much recent research into their cause, dynamics, and amelioration
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