Urban heatwaves and mortality: A socioeconomic and environmental study using a novel building heat vulnerability index

IF 6.6 1区经济学 Q1 URBAN STUDIES

Cities Pub Date : 2025-10-10 DOI:10.1016/j.cities.2025.106558

Jiwei Zou , Guowei Zhong , Liangzhu Leon Wang , Ali Katal , Abhishek Gaur , Shujie Yan , Maher Albettar , Ahmed Marey

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引用次数: 0

Abstract

Climate change has significantly increased the frequency, intensity, and magnitude of heatwaves, leading to numerous deaths in recent decades. While environmental parameters are known contributors to heat-related mortality, the specific impacts of socioeconomic factors remain less clear. This study introduces a new Building Heat Vulnerable Index (BHVI) to assess and map urban overheating mortality risk during heatwaves at the building level. Using data from the 2018 Montreal heatwave, we employed penalized logistic regression (PLR) to analyze the correlation between heat-related mortality and both environmental and socioeconomic parameters across Montreal. The City Building Energy Model (CityBEM) was used to simulate indoor overheating conditions, providing detailed exposure data. Socioeconomic variables were collected from Censusmapper and Geoportail Quebec. Our analysis revealed that “dwelling density” and “average income” are the most significant factors affecting heat-related mortality. Utilizing the BHVI, we generated a detailed heat vulnerability map identifying risk regions across Montreal, highlighting vulnerable areas with high dwelling density and low average income. Additionally, we thoroughly evaluated the impacts of increasing air conditioning (AC) capacity on mitigating heat vulnerability through bootstrap simulations. The results demonstrated that enhancing AC capacity significantly reduces heat-related mortality risk, particularly in high and critical risk areas. The findings underscore the importance of integrating socioeconomic factors and building-level data into heatwave mortality risk assessments. They suggest that targeted interventions, such as improving AC accessibility in vulnerable neighborhoods, can effectively mitigate heat-related health risks. This study provides valuable insights for policymakers to implement effective heat mitigation strategies in urban environments facing escalating climate challenges.

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城市热浪与死亡率：基于新型建筑热脆弱性指数的社会经济和环境研究

近几十年来，气候变化大大增加了热浪的频率、强度和幅度，导致无数人死亡。虽然已知环境参数是造成与热有关的死亡率的因素，但社会经济因素的具体影响仍不太清楚。本研究引入了一种新的建筑热脆弱性指数（BHVI）来评估和绘制热浪期间建筑层面的城市过热死亡率风险。利用2018年蒙特利尔热浪的数据，我们采用惩罚逻辑回归（PLR）分析了蒙特利尔热浪相关死亡率与环境和社会经济参数之间的相关性。城市建筑能源模型（CityBEM）用于模拟室内过热情况，提供详细的暴露数据。社会经济变量收集自Censusmapper和Geoportail Quebec。我们的分析显示，“居住密度”和“平均收入”是影响热相关死亡率的最显著因素。利用BHVI，我们生成了详细的热脆弱性地图，确定了蒙特利尔的风险区域，突出了居住密度高、平均收入低的脆弱区域。此外，我们通过自举模拟全面评估了增加空调（AC）容量对减轻热脆弱性的影响。结果表明，增加交流容量可显著降低与热相关的死亡风险，特别是在高风险和关键风险地区。研究结果强调了将社会经济因素和建筑水平数据整合到热浪死亡风险评估中的重要性。他们认为，有针对性的干预措施，如改善脆弱社区的空调可及性，可以有效减轻与热有关的健康风险。该研究为政策制定者在面临不断升级的气候挑战的城市环境中实施有效的热缓解策略提供了有价值的见解。

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

Cities URBAN STUDIES-

CiteScore

11.20

自引率

9.00%

发文量

517

期刊介绍： Cities offers a comprehensive range of articles on all aspects of urban policy. It provides an international and interdisciplinary platform for the exchange of ideas and information between urban planners and policy makers from national and local government, non-government organizations, academia and consultancy. The primary aims of the journal are to analyse and assess past and present urban development and management as a reflection of effective, ineffective and non-existent planning policies; and the promotion of the implementation of appropriate urban policies in both the developed and the developing world.