Abstract
Global climate change and increasing urbanization worldwide intensify the need for a better understanding of human heat stress dynamics in urban systems. During heat waves, which are expected to increase in number and intensity, the development of urban cool islands could be a lifesaver for many elderly and vulnerable people. The use of remote sensing data offers the unique possibility to study these dynamics with spatially distributed large datasets during all seasons of the year and including day and night-time analysis. For the city of Basel 32 high-quality Landsat 8 (L8) scenes are available since 2013, enabling comprehensive statistical analysis. Therefore, land surface temperature (LST) is calculated using L8 thermal infrared (TIR) imagery (stray light corrected) applying improved emissivity and atmospheric corrections. The data are combined with a land use/land cover (LULC) map and evaluated using administrative residential units. The observed dependence of LST on LULC is analyzed using a thermal unmixing approach based on a multiple linear regression (MLR) model, which allows for quantifying the gradual influence of different LULC types on the LST precisely. Seasonal variations due to different solar irradiance and vegetation cover indicate a higher dependence of LST on the LULC during the warmer summer months and an increasing influence of the topography and albedo during the colder seasons. Furthermore, the MLR analysis allows creating predicted LST images, which can be used to fill data gaps like in SLC-off Landsat 7 ETM+ data.
Highlights
The observed dependence of land surface temperature (LST) on land use/land cover (LULC) is analyzed using a thermal unmixing approach based on a multiple linear regression (MLR) model, which allows for quantifying the gradual influence of different LULC
Atmospheric effects on the thermal infrared (TIR) signal are highly dependent on total column water vapor (TCWV) [62]
National Center for Environmental Prediction (NCEP) reanalysis data accessed via the web-based atmospheric correction tool (ACT) [56] and improved with in-situ meteorological data from a measurement tower—maintained by the Research Group of Meteorology, Climatology and Remote Sensing of the University Basel (MCR)—is applied [63]
Summary
A huge part of the world’s population growth in the 30 years will be concentrated in urban environments [2] This increase in urban population is accompanied by huge problems affecting a large number of people, e.g., clean water supply, waste, energy, air pollution, and heat stress [3,4]. This last issue, only measurable at certain weather conditions with a complex measurement setup, is causing serious problems for human health, most obviously during severe heat waves [5,6]. Long-lasting fair weather conditions due to persistent anticyclonic circulations, caused by large-scale circulation anomalies and historically low precipitation levels between May and August, were the major causes of this
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