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Satellite Clear‐Sky Observations Overestimate Surface Urban Heat Islands in Humid Cities

Qiquan Yang, Yi Xu, Dawei Wen, Ting Hu, TC Chakraborty, Yue Liu, Rui Yao, Shurui Chen, Changjiang Xiao, Jie Yang

2024Geophysical Research Letters26 citationsDOIOpen Access PDF

Abstract

Abstract Satellite‐based thermal infrared (TIR) land surface temperature (LST) is hindered by cloud cover and is applicable solely under clear‐sky conditions for estimating surface urban heat island intensity (SUHII). Clear‐sky SUHII may not accurately represent all‐sky conditions, potentially introducing quantitative biases in assessing urban heat islands. However, the differences between clear‐sky and all‐sky SUHIIs and their spatiotemporal variations are still poorly understood. Our analysis of over 600 global cities demonstrates that clear‐sky SUHII is mostly higher than all‐sky SUHII, particularly in summer, daytime, and precipitation‐rich regions. Besides, clear‐sky SUHII typically exhibits stronger seasonal and diurnal contrasts than all‐sky SUHII, especially for cities located in humid regions. These discrepancies can be attributed mainly to the increased missing LST data caused by cloud enhancement in urban areas. Our findings highlight the tendency for clear‐sky observations to overestimate SUHII, providing valuable insights for standardizing the quantification of surface urban heat islands.

Topics & Concepts

SkySatelliteEnvironmental scienceUrban heat islandDaytimeCloud coverPrecipitationAtmospheric sciencesRemote sensingClimatologyGeologyMeteorologyCloud computingGeographyPhysicsAstronomyComputer scienceOperating systemUrban Heat Island MitigationUrban Green Space and HealthRemote Sensing and Land Use
Satellite Clear‐Sky Observations Overestimate Surface Urban Heat Islands in Humid Cities | Litcius