Impact of soil moisture content on urban tree evaporative cooling and human thermal comfort.

IF 9.1 Q1 ENVIRONMENTAL STUDIES

npj urban sustainability Pub Date : 2025-01-01 Epub Date: 2025-05-16 DOI:10.1038/s42949-025-00220-0

L Gobatti, P M Bach, M Maurer, J P Leitão

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Abstract

Urban temperatures are rising, and urban trees can help mitigate the consequences of heat stress. However, the influence of water availability on the evaporative cooling efficiency of trees across diverse urban settings remains insufficiently understood. We modelled how varying soil moisture, built environment and tree amounts affect human thermal comfort. Our results show that increasing tree cover and maintaining high soil moisture through irrigation can generate areas of 'no thermal stress' in Zurich during an average summer day, primarily via direct soil evaporation and in less dense Local Climate Zones. In denser built environments and without enough soil moisture, achieving such thermal comfort proved more challenging. On extreme summer days, however, even extensive tree planting and full irrigation were insufficient to alleviate heat stress, indicating the need for additional adaptation strategies. Our study underscores the critical but limited role of tree planting and water management in mitigating urban heat, offering practical recommendations for green infrastructure managers.

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土壤含水量对城市树木蒸发降温及人体热舒适的影响

城市气温正在上升，城市树木可以帮助缓解热应激的后果。然而，在不同的城市环境中，水的可用性对树木蒸发冷却效率的影响仍然没有得到充分的了解。我们模拟了不同土壤湿度、建筑环境和树木数量对人体热舒适的影响。我们的研究结果表明，通过灌溉增加树木覆盖和保持高土壤湿度，可以在苏黎世的平均夏季产生“无热应力”区域，主要是通过直接土壤蒸发和密度较小的当地气候带。在密集的建筑环境中，没有足够的土壤湿度，实现这样的热舒适更具挑战性。然而，在极端的夏季，即使大量植树和充分灌溉也不足以缓解热应激，这表明需要额外的适应策略。我们的研究强调了植树和水管理在缓解城市热量方面的关键但有限的作用，为绿色基础设施管理者提供了实用的建议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

npj urban sustainability

CiteScore

10.00

自引率

0.00%

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