蒸散量
环境科学
城市热岛
干旱
反照率(炼金术)
全球变暖
特大城市
植被(病理学)
大气科学
气候学
气候变化
天蓬
灌溉
潜热
绿化
全球变化
底纹
干旱指数
不透水面
气候模式
城市化
水文学(农业)
生态系统
全球降温
蒸汽压差
持续性
全球温度
半干旱气候
小气候
自然地理学
全球变暖的影响
城市气候
作者
Zhengfei Guo,Manuel Esperon-Rodriguez,Édouard L. Davin,Heng Huang,Bin Chen,Mohamad Hejazi,Jin Wu,Jian Wang,Yunfeng Ge,Guangqin Song,Yingyi Zhao,Kuishuang Feng,Chen Lin,Peng Gong,Yuyu Zhou
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2026-01-02
卷期号:12 (1): eaea9165-eaea9165
标识
DOI:10.1126/sciadv.aea9165
摘要
Urban vegetation, a key nature-based solution for mitigating heat stress, is critical as global warming, and urban heat islands amplify high temperatures in cities, affecting over half the global population. Yet, its potential warming effects remain unquantified globally, with mechanisms unclear. Using high-resolution satellite and climate data, we provide the first global assessment of vegetation's temperature regulation across 761 megacities across 105 countries, uncovering a paradox: cooling weakens in arid environments; and in 22% of cities with <1000-millimeter annual precipitation, vegetation, particularly grasslands and croplands, causes net warming. This results from lower albedo and reduced heat storage outweighing limited evapotranspiration in arid regions. During extreme heat, trees fail to cool 25% of cities, while grasslands and croplands fail in 71 and 82%, respectively, due to reduced evapotranspiration under high vapor pressure deficits and impeded canopy conductance. Climate-adaptive greening and irrigation are critical, while high-albedo surfaces may better mitigate heat in water-scarce cities. Misguided greening risks are worsening urban warming.
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