Abstract
An urban heat island (UHI) is a phenomenon whereby the temperature in an urban area is significantly warmer than it a rural area. To further advance the characterization and understanding of UHIs within urban areas, nighttime light measured by the Day/Night Band (DNB) onboard the Visible Infrared Imaging Radiometer Suite (VIIRS) and the land surface temperature (LST) data derived from the Moderate Resolution Imaging Spectroradiometer (MODIS) combined with principal component analysis (PCA) are used here. Beijing (highly developed) and Pyongyang (less developed) are selected as the two case studies. Linear correlation analysis is first used, with higher correlations being found between DNB and LST data at nighttime than between population and LST data for both cities, although none of the correlation coefficients are particularly high because of noise. Principal component analysis (PCA), a method that can remove random noise, is used to extract more useful information. Two types of PCA are conducted, focusing on spatial (S) and temporal (T) patterns. The results of the S-mode PCA reveal that the typical temporal variation is a seasonal cycle for both LST and DNB data in Beijing and Pyongyang. Furthermore, there are monthly cycles for DNB data related to the moon phase in two cities. The T-mode PCA results show important spatial information, while the spatial pattern of the first mode explains over 50% of the variation. This study is among the first to demonstrate the advantages of using urban light to study the spatial variation of urban heat, especially for nighttime urban temperatures measured from space, at the street and neighborhood scales.
Highlights
It is obvious that nighttime land surface temperature (LST) data in the Beijing urban core give an annual average highest temperature around 10 ◦ C
The largest Day/Night Band (DNB) values are located in urban areas; they are usually higher than 50 nW/(cm2 str) in Beijing, while the largest value in the Pyongyang urban core is only 50 nW/(cm2 str)
Nighttime lights are usually used to infer the accuracy of the official gross domestic product (GDP)
Summary
UHI, refers to a phenomenon whereby urban areas tend to have higher air or surface temperatures than their surroundings, which is among the most notable aspect of human impacts on the Earth [1–5]. The UHI effect alters ecoenvironments, affecting net primary production, biodiversity, water and air quality, and climate [6–9], and affects human health and well-being, contributing to increases in morbidity, mortality, and risk of violence [10–12]. These impacts are expected to be more severe when compounded by global climate changes [13]; better characterization and understanding of the UHI effects are critically important to support future climate mitigation actions and human adaptive strategies [3,4,14].
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