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• W4220656906 endingPage "101155" @default.
• W4220656906 startingPage "101155" @default.
• W4220656906 abstract "Vegetation is effective in mitigating the urban heat island effect by canopy shade and evapotranspiration. Acquiring the vegetation cooling effect magnitude (∆T) quickly and accurately has been the focus of thermal mitigation in urban areas. Traditional field observations are usually restricted to one or few cities, while large-scale assessment models mostly focus on inconsistent parameters, leading to contradictory results. In this study, we collected 3970 samples of observed vegetation-induced ∆T worldwide to assess their relationship with leaf area index (LAI) and evapotranspiration (ET) for different vegetation types within various climate zones (arid, semi-arid/humid, humid, and extreme humid zones). Results showed that urban vegetation ET and LAI have diverse correlations (i.e., linear/nonlinear) with ∆T, and the ET-cooling and LAI-shading effect dominate differently in each climate zone. In addition, urban vegetation cooling effect empirical models were established based on a multivariate regression analysis using the above two parameters. Application of global seasonal urban vegetation cooling effect analysis based on these empirical models enable us to readily achieve ∆T on various scales around the world. The finding of this study can be used as guidance to select the appropriate vegetation types for urban green space design and construction to cool the thermal environments in urban areas." @default.
• W4220656906 created "2022-04-03" @default.
• W4220656906 creator A5003709805 @default.
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• W4220656906 date "2022-05-01" @default.
• W4220656906 modified "2023-10-10" @default.
• W4220656906 title "Estimating the cooling effect magnitude of urban vegetation in different climate zones using multi-source remote sensing" @default.
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• W4220656906 cites W1971746745 @default.
• W4220656906 cites W1973410094 @default.
• W4220656906 cites W1974395471 @default.
• W4220656906 cites W1974493897 @default.
• W4220656906 cites W1976355266 @default.
• W4220656906 cites W1981399413 @default.
• W4220656906 cites W1981542840 @default.
• W4220656906 cites W1981939599 @default.
• W4220656906 cites W1991776813 @default.
• W4220656906 cites W1996005452 @default.
• W4220656906 cites W2002115844 @default.
• W4220656906 cites W2006698957 @default.
• W4220656906 cites W2013538977 @default.
• W4220656906 cites W2026555346 @default.
• W4220656906 cites W2026852255 @default.
• W4220656906 cites W2030101523 @default.
• W4220656906 cites W2034920008 @default.
• W4220656906 cites W2036967309 @default.
• W4220656906 cites W2045932074 @default.
• W4220656906 cites W2049920302 @default.
• W4220656906 cites W2056465520 @default.
• W4220656906 cites W2057387551 @default.
• W4220656906 cites W2063194471 @default.
• W4220656906 cites W2063286310 @default.
• W4220656906 cites W2065720307 @default.
• W4220656906 cites W2071611719 @default.
• W4220656906 cites W2074398030 @default.
• W4220656906 cites W2077489664 @default.
• W4220656906 cites W2077594097 @default.
• W4220656906 cites W2078045149 @default.
• W4220656906 cites W2083668764 @default.
• W4220656906 cites W2084809444 @default.
• W4220656906 cites W2084948413 @default.
• W4220656906 cites W2088978228 @default.
• W4220656906 cites W2092845988 @default.
• W4220656906 cites W2093009240 @default.
• W4220656906 cites W2106784657 @default.
• W4220656906 cites W2111371439 @default.
• W4220656906 cites W2122514599 @default.
• W4220656906 cites W2135876776 @default.
• W4220656906 cites W2144378718 @default.
• W4220656906 cites W2181338717 @default.
• W4220656906 cites W2219960623 @default.
• W4220656906 cites W2225688002 @default.
• W4220656906 cites W2419073566 @default.
• W4220656906 cites W2529394429 @default.
• W4220656906 cites W2562050469 @default.
• W4220656906 cites W2599379489 @default.
• W4220656906 cites W2606877553 @default.
• W4220656906 cites W2739965324 @default.
• W4220656906 cites W2745133574 @default.
• W4220656906 cites W2768739378 @default.
• W4220656906 cites W2784327149 @default.
• W4220656906 cites W2791720519 @default.
• W4220656906 cites W2883689404 @default.
• W4220656906 cites W2902841927 @default.
• W4220656906 cites W2917165796 @default.
• W4220656906 cites W2925114718 @default.
• W4220656906 cites W2937127228 @default.
• W4220656906 cites W2969452551 @default.
• W4220656906 cites W2969949594 @default.
• W4220656906 cites W2970347340 @default.
• W4220656906 cites W2977137568 @default.
• W4220656906 cites W2981746872 @default.
• W4220656906 cites W2989019186 @default.
• W4220656906 cites W3005195542 @default.
• W4220656906 cites W3011411270 @default.
• W4220656906 cites W3013985068 @default.
• W4220656906 cites W3024046348 @default.
• W4220656906 cites W3034235066 @default.
• W4220656906 cites W3126960576 @default.
• W4220656906 cites W3136498992 @default.
• W4220656906 cites W3170210082 @default.
• W4220656906 cites W3177976117 @default.
• W4220656906 cites W3191050749 @default.
• W4220656906 cites W3193917544 @default.
• W4220656906 cites W4231510542 @default.
• W4220656906 cites W659169719 @default.
• W4220656906 doi "https://doi.org/10.1016/j.uclim.2022.101155" @default.
• W4220656906 hasPublicationYear "2022" @default.
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