大面积平均城市热岛的精细尺度评估新方法及基于自然的解决方案的有效性

IF 1.8 Q3 ECOLOGY

One Ecosystem Pub Date : 2018-08-20 DOI:10.3897/ONEECO.3.E24880

D. Lauwaet, T. Nijs, I. Liekens, H. Hooyberghs, E. Verachtert, W. Lefebvre, K. Ridder, R. Remme, S. Broekx

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引用次数: 5

摘要

由于所谓的城市热岛效应，生活在城市中的人们会经历额外的热应激。为了深入了解荷兰热岛的空间变异性，我们计算了一张详细的地图(10米水平分辨率)，显示了夏季平均日最大热岛情况。该地图基于城市热岛指数、10米高度的平均风速和10公里范围内的人口数量之间的关系，这些数据来自对100多个欧洲城市的模拟，使用了广泛验证的城市气候模型UrbClim。基于这些模拟结果，在地图中还考虑了绿色和蓝色基础设施的冷却效果。该地图将帮助地方当局确定气候适应措施的目标区域，并估计基于自然的解决方案的影响。

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A new method for fine-scale assessments of the average urban Heat island over large areas and the effectiveness of nature-based solutions

People living in cities experience extra heat stress due to the so-called Urban Heat Island (UHI) effect. To gain an insight into the spatial variability of the UHI for the Netherlands, a detailed map (10 m horizontal resolution) has been calculated that shows the summer-averaged daily maximal UHI situation. The map is based on a relationship between the UHI, mean wind speed at 10 m height and the number of people living within a distance of 10 km, derived from simulations of over 100 European cities with the extensively validated urban climate model UrbClim. The cooling effect of green and blue infrastructure is also taken into account in the map, based on these simulation results. The presented map will help local authorities in defining target areas for climate adaptation measures and estimate the impact of nature-based solutions.

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来源期刊

One Ecosystem Environmental Science-Nature and Landscape Conservation

CiteScore

4.60

自引率

0.00%

发文量

审稿时长

12 weeks