Combined Effects of Artificial Surface and Urban Blue-Green Space on Land Surface Temperature in 28 Major Cities in China

The two most common land cover types in urban areas, artificial surface (AS) and urban blue-green space (UBGS), interact with land surface temperature (LST) and exhibit competitive effects, namely, heating and cooling effects. Understanding the variation of these effects along the AS ratio gradient...

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Bibliographic Details
Published inRemote sensing (Basel, Switzerland) Vol. 14; no. 3; p. 448
Main Authors Chen, Liang, Wang, Xuelei, Cai, Xiaobin, Yang, Chao, Lu, Xiaorong
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.02.2022
Subjects
Air pollution
Arid regions
artificial surface
China
Cities
Climate
Climate change
Competition
Cooling
cooling effect
Cooling effects
Critical point
Economic development
Geography
Heat
High temperature
Land cover
Land surface temperature
Land use
Landsat
Outdoor air quality
Radiation
Remote sensing
Satellite imagery
Satellites
Temperature
Temperature control
Thermal environments
Urban areas
urban blue-green space
Urbanization
Vegetation
China
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Summary:The two most common land cover types in urban areas, artificial surface (AS) and urban blue-green space (UBGS), interact with land surface temperature (LST) and exhibit competitive effects, namely, heating and cooling effects. Understanding the variation of these effects along the AS ratio gradient is highly important for the healthy development of cities. In this study, we aimed to find the critical point of the joint competitive effects of UBGS and AS on LST, and to explore the variability in different climate zones and cities at different development levels. An urban land cover map and LST distribution map were produced using Sentinel-2 images and Landsat-8 LST data, respectively, covering 28 major cities in China. On this basis, the characteristics of water, vegetation, and LST in these cities were analyzed. Moreover, the UBGS (water or vegetation)–AS–LST relationship of each city was quantitatively explored. The results showed that UBGS and AS have a competitive relationship and jointly affect LST; this competition has a critical point (threshold). When the proportion of UBGS exceeds this value, UBGS replaces AS as the dominant variable for LST, bringing about a cooling effect. In contrast, when AS dominates LST, it causes a warming effect. The critical points between AS and water and between AS and vegetation in 28 major cities in China were 80% and 70%, respectively. The critical point showed an obvious zonal difference. Compared with cities in subtropical and temperate climate regions, the critical point of arid cities is higher, and UBGS exhibited better performance at alleviating the urban thermal environment. The critical point of cities with higher development levels is lower than that of cities with lower development levels. Even areas with relatively low AS coverage are prone to high temperatures, and more attention should be paid to improving the coverage of UBGS. Our research results provide a reference for the more reasonable handling of the relationship between urban construction, landscape layout, and temperature control.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs14030448