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Influence of trees on the outdoor thermal environment in subtropical areas: An experimental study in Guangzhou, China

•Data on the impact of four trees’ species on the UHI are obtained.•Three physiological and seven microclimatic parameters are studied.•Differences in cooling performance among the four trees’ species are assessed.•Ficus microcarpa has the best cooling performance (reduced PET by 32.4 °C).•Tree plan...

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Bibliographic Details
Published in:Sustainable cities and society 2018-10, Vol.42, p.482-497
Main Authors: Zheng, Senlin, Guldmann, Jean-Michel, Liu, Zhixin, Zhao, Lihua
Format: Article
Language:English
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Summary:•Data on the impact of four trees’ species on the UHI are obtained.•Three physiological and seven microclimatic parameters are studied.•Differences in cooling performance among the four trees’ species are assessed.•Ficus microcarpa has the best cooling performance (reduced PET by 32.4 °C).•Tree planting implications are discussed from a microclimatic perspective. Tree morphology and characteristics are quite different among different tree species, leading to large differences in cooling performance across tree species, particularly across different climatic regions. To obtain microclimatic characteristics and data on the influence of common subtropical tree species on the outdoor thermal environment, this study investigates, with field measurements, three physiological indices (leaf transpiration rate, leaf surface temperature, and leaf reflectance) and seven microclimatic parameters (solar radiation, long wave radiation, mean radiant temperature (Tmrt), ground surface temperature, air temperature, relative humidity, and wind speed) characterizing four common tree species in Guangzhou: Ficus microcarpa, Mangifera indica, Michelia alba, and Bauhinia blakeana. The Physiological Equivalent Temperature (PET) is calculated with the Rayman 12 tool to assess human thermal comfort. Special focus is set on the differences between these parameters in the presence and absence of tree cover. The results are as follows: Ficus microcarpa has the best cooling performance (reduced solar radiation by 1050 W/m2, reduced Tmrt by 14.8 °C, reduced PET by 32.4 °C). These trees have also some negative effects: reducing wind speed (2.83 m/s) and increasing long wave radiation (55 W/m2). It is expected that these data and results will shed some light on tree planting implications in subtropical areas.
ISSN:2210-6707
2210-6715
DOI:10.1016/j.scs.2018.07.025