Land Cover Types Drive the Surface Temperature for Upscaling Surface Urban Heat Islands with Daylight Images
(2025) Remote Sensing — Vol. 17, n° 16, p. 2815 (2025)
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- Authors
Hartley, Andrew 
- Abstract
- The widespread availability and spatial coverage of land surface temperature (LST) estimates from space often result in LST being used as a proxy for near-surface air temperature in order to characterize the urban heat island (UHI) effect. High-spatial-resolution satellite-based LST estimates from sensors such as Landsat-8 provide the spatial and thematic details necessary to understand the potential effects of urban greening measures to mitigate the increased frequency and intensity of heatwaves that are projected to occur as a result of human-induced climate change. Here, we investigate the influence of land cover on Surface Urban Heat Island (SUHI) observations of LST using a technique to reduce the spatial spread of the per-pixel temperature observation. Additionally, using land cover-based linear mixture models, we downscale the surface temperature to a 2 m spatial resolution. We find a mean difference in LST, compared to the city average, of +8.94 °C (+/−1.87 °C at 95% CI) for built-up cover type, compared to a difference of −7.42 °C (+/−0.8 °C) for broadleaf trees. This highlights the potential benefits of creating urban green spaces for mitigating the UHI amplification of extreme heatwaves. Furthermore, we highlight the need for improved observations of night-time temperatures, e.g., from forthcoming missions such as TRISHNA, in order to fully capture the diurnal variability of land surface temperature and energy fluxes.
- Affiliations
Citations
Radoux, J., Dominique, M., Hartley, A., Lamarche, C., Bos, A., & Defourny, P. (2025). Land Cover Types Drive the Surface Temperature for Upscaling Surface Urban Heat Islands with Daylight Images. Remote Sensing, 17(16), 2815. https://doi.org/10.3390/rs17162815 (Original work published 2025)