Mapping heat-related risks in Swiss cities under different urban tree scenarios

IF 3.9 Q2 ENVIRONMENTAL SCIENCES City and Environment Interactions Pub Date : 2024-10-16 DOI:10.1016/j.cacint.2024.100175
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Abstract

About three quarter of Swiss residents live in urban areas, and this proportion is expected to grow in future decades. An increasing number of people will therefore be exposed to urban heat, which can have adverse effects on human wellbeing, productivity and physical health.
We explore the possibility to detect high-risk areas in five Swiss cities with the development of an urban heat-based risk-mapping approach. The included cities are Basel, Bern, Geneva, Lausanne and Zurich. The analysis is based on a combination of biophysical, including Landsat 8 derived Land Surface Temperature (LST), and socioeconomic data. Additionally, we assess the impact of urban trees on urban heat within the districts of these cities, helping to estimate how risk levels would change under two scenarios: one with increased tree cover (MaxTree) and another with no (NoTree) urban trees.
The assessment on the impact of urban trees on heat showed that the areas with urban trees generally experience cooler temperatures compared to those without, both at the city and district levels. This underscores the positive role of urban trees in mitigating the urban heat effect.
The risk mapping approach revealed a distinct spatial pattern for each city and high risk areas were identified.
Generally, the high-risk areas in the analyzed cities cover the city centers and areas with high vulnerability.
The ‘NoTree’ scenario showed higher risks compared to the baseline situation, illustrating that urban trees currently mitigate heat related risks in Swiss cities. The ‘MaxTree’ scenario results in lower risks, especially in the cities of Lausanne and Bern.
The presented risk mapping approach, including the two idealized scenarios, can be used by policy- and decision-makers (e.g. city planners) can be a tool to determine where urban planning actions are the most urgent and where trees could be most beneficial in terms of adaptation to heat. The approach is easily adaptable and transferable to other cities, since it relies on a clear and simple methodological framework, openly available LST data, and basic socioeconomic variables at district scale that are available for many cities.
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绘制不同城市树木情景下瑞士城市与热有关的风险图
瑞士约有四分之三的居民生活在城市地区,预计这一比例在未来几十年内还将增长。因此,越来越多的人将暴露在城市热浪中,这可能会对人类福祉、生产力和身体健康造成不利影响。我们通过开发一种基于城市热浪的风险绘图方法,探索在瑞士五个城市中发现高风险区域的可能性。这些城市包括巴塞尔、伯尔尼、日内瓦、洛桑和苏黎世。分析基于生物物理数据(包括大地遥感卫星 8 推算的地表温度 (LST) 数据)和社会经济数据的结合。此外,我们还评估了城市树木对这些城市各区城市热量的影响,帮助估算在两种情况下风险水平将如何变化:一种情况是树木覆盖率增加(MaxTree),另一种情况是没有树木(NoTree)。一般来说,所分析城市的高风险区域包括城市中心和高脆弱性区域。"无树 "情景与基线情景相比显示出更高的风险,说明城市树木目前减轻了瑞士城市与热有关的风险。所提出的风险绘图方法,包括两种理想化的情景,可供政策制定者和决策者(如城市规划者)使用,可作为一种工具来确定哪些城市规划行动最为紧迫,哪些地方的树木最有利于适应高温。由于该方法依赖于一个简单明了的方法框架、公开可用的 LST 数据以及许多城市都有的地区尺度的基本社会经济变量,因此很容易适应和移植到其他城市。
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来源期刊
City and Environment Interactions
City and Environment Interactions Social Sciences-Urban Studies
CiteScore
6.00
自引率
3.00%
发文量
15
审稿时长
27 days
期刊最新文献
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