Fan Huang scite author profile

The significant reduction in human activities during COVID‐19 lockdown is anticipated to substantially influence urban climates, especially urban heat islands (UHIs). However, the UHI variations during lockdown periods remain to be quantified. Based on the MODIS daily land surface temperature and the in‐situ surface air temperature observations, we reveal a substantial decline in both surface and canopy UHIs over 300‐plus megacities in China during lockdown periods compared with reference periods. The surface UHI intensity (UHII) is reduced by 0.25 (one S.D. = 0.22) K in the daytime and by 0.23 (0.20) K at night during lockdown periods. The reductions in canopy UHII reach 0.42 (one S.D. = 0.26) K in the daytime and 0.39 (0.29) K at night. These reductions are mainly due to the near‐unprecedented drop in human activities induced by strict lockdown measures. Our results provide an improved understanding of the urban climate variations during the global pandemic.

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Identification of typical diurnal patterns for clear-sky climatology of surface urban heat islands

Lai

Zhan

Huang

et al. 2018

Remote Sensing of Environment

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Comprehensive assessment of four-parameter diurnal land surface temperature cycle models under clear-sky

Hong

Zhan

Göttsche

et al. 2018

ISPRS Journal of Photogrammetry and Remote Sensing

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Meteorological controls on daily variations of nighttime surface urban heat islands

Lai

Zhan

Voogt

et al. 2021

Remote Sensing of Environment

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Temporal upscaling of surface urban heat island by incorporating an annual temperature cycle model: A tale of two cities

Huang

Zhan

Voogt

et al. 2016

Remote Sensing of Environment

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Fan Huang

Urban Heat Islands Significantly Reduced by COVID‐19 Lockdown

Identification of typical diurnal patterns for clear-sky climatology of surface urban heat islands

Comprehensive assessment of four-parameter diurnal land surface temperature cycle models under clear-sky

Meteorological controls on daily variations of nighttime surface urban heat islands

Temporal upscaling of surface urban heat island by incorporating an annual temperature cycle model: A tale of two cities

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