Impacts of Urban Green Landscape Patterns on Land Surface Temperature: Evidence from the Adjacent Area of Olympic Forest Park of Beijing, China

Urban green space has been considered as an ecological measure to mitigate urban heat islands (UHI). However, few studies investigate the cooling effect of the adjacent area of the urban park; as the transition region from a green space to a hardened surface where more complex heat exchange occurs,...

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Bibliographic Details
Published in:Sustainability 2019-01, Vol.11 (2), p.513
Main Authors: Amani-Beni, Majid, Zhang, Biao, Xie, Gao-Di, Shi, Yunting
Format: Article
Language:English
Subjects:
Cities
Climate change
Cooling
Cooling effects
Forests
Green development
Heat
Heat transfer
Investigations
Land surface temperature
Olympic games
Open spaces
Principal components analysis
Remote sensing
Temperature
Urban areas
Urban heat islands
Urban planning
Urbanization
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Summary:Urban green space has been considered as an ecological measure to mitigate urban heat islands (UHI). However, few studies investigate the cooling effect of the adjacent area of the urban park; as the transition region from a green space to a hardened surface where more complex heat exchange occurs, it deserves to be paid more attention. This paper examines the relationship between the urban greening patterns and the cooling effect in the surrounding areas of the Olympic Forest Park in Beijing. Results showed that the forestland and waterbodies could cool 6.51% and 12.82% of the impervious surface temperatures, respectively. For every 10% increase in the green space ratio, the land surface temperature drops by 0.4°C, and per kilometer increase in the distance from the forest park, the land surface temperature increases by 0.15 °C. The aggregation index (AI) and largest patch index (LPI) of the green space patterns presented a strong negative correlation with surface temperature. This study confirms the cooling effects in the adjacent area of the urban park and highlights their dependence on urban greening patterns. Therefore, we should not only develop more green spaces but also scientifically plan their spatial configuration in the limited urban land for the improvement of the cooling effect.
ISSN:2071-1050
2071-1050
DOI:10.3390/su11020513