Efficient cooling of cities at global scale using urban green space to mitigate urban heat island effects in different climatic regions

温带气候 城市热岛 干旱 城市化 背景(考古学) 环境科学 自然地理学 气候变化 热带气候 植被(病理学) 归一化差异植被指数 全球变暖 纬度 干旱指数 气候学 自然(考古学) 森林砍伐(计算机科学) 地理 生态学 地质学 气象学 考古 程序设计语言 病理 生物 医学 计算机科学 大地测量学
作者
Chengcong Wang,Zhibin Ren,Yulin Dong,Peng Zhang,Yüjie Guo,Wenjie Wang,Guangdao Bao
出处
期刊:Urban Forestry & Urban Greening [Elsevier BV]
卷期号:74: 127635-127635 被引量:185
标识
DOI:10.1016/j.ufug.2022.127635
摘要

In the context of rapid urbanization and global warming, how to use urban green space (UGS) with high-efficiency to mitigate the urban heat islands (UHIs) effect in different climate zones has become an urgent issue. However, few studies have provided specific guidance for urban vegetation planning adapting to different climate zones on a global scale. In this study, a cooling effect framework was employed to analyze the influence of UGS patch characteristics, natural and anthropogenic factors on its cooling effect across different climatic zones. We found that the urban cooling islands (UCI) intensity, extent, and gradient of UGS increased with latitude, with lower cooling effect concentrated in arid zones around 30 °N, while the largest (0.38 ha) and smallest (0.24 ha) threshold value of efficiency (TVoE) were found in the temperate and arid climate zones. The larger the UGS area, the better the cooling effect in all climate zones. Moreover, complex shapes have a greater UCI intensity in tropical and temperate zones than other regions, while the normalized difference vegetation index (NDVI) has a stronger effect in arid zones. In the continental zone, patch characteristics had little effect. The overall explanation rate of natural and anthropogenic factors on the cooling effect of UGS was 53.5 %, among which natural factors were approximately twice that of anthropogenic factors. Notably, natural factors dominated in the tropical and arid zones affecting UCI, and anthropogenic factors dominated in the temperate and continental zones. The findings of this study expand our understanding of the cooling effect of UGS in different climatic zones around the world and provide insights for urban sustainable development.
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