New tool provides knowledge on heat stress vulnerability in cities
Heat-related deaths and diseases are a major concern in Europe amid increasing extended periods of extreme heat. A new study proposes a novel way of quantifying and projecting future vulnerability to heat stress in different areas of a city, providing local decision-makers with knowledge for designing more effective adaptation strategies.
“Climate change-induced heat stress is a major risk factor for human health, especially in cities where more people are exposed to increasingly higher temperatures in the warm season. Cities are usually hotter than surrounding rural areas due to dark and impenetrable surfaces that absorb more heat”, explained researcher Iulia Marginean from CICERO Center for International Climate Research, the lead author of the vulnerability study published 6 October in Earth’s Future.
The study highlights that vulnerability is an understudied component of climate risk, but a crucial one in climate impact assessments as it plays a key role in determining the magnitude of heat stress impacts on public health.
“We have developed a novel framework for assessing vulnerability in cities using spatial and demographical data such as age, sex and education at fine geographical resolutions to estimate future heat stress vulnerabilities in different parts of a city”, said Jesus Crespo Cuaresma from Vienna University of Economics and Business.
The study was conducted by researchers from CICERO, University of Oslo, Vienna University of Economics and Business, International Institute of Applied Systems Analysis (IIASA), University of Bologna and University of Delaware.
Jesús Crespo Cuaresma is a Professor of Macroeconomics at the WU Department of Economics. His research interests include the development of models to better understand anthropogenic climate change and mitigate its consequences.
More effective adaptation strategies needed
“Growing concerns of heat-related death and disease in Europe calls for more effective adaptation solutions targeting the groups and individuals most at risk and most affected by the negative impacts of climate change.” emphasized Roman Hoffmann, from the International Institute for Applied Systems Analysis (IIASA), another author behind the study.
In 2023, more than 47 000 people died in Europe as a result of heat, but many more would have died if people had not adapted better to rising temperatures in the past two decades, according to another recent study. Spain is one of the countries with the highest heat-related mortality rates in Europe. This year many Spanish cities, among them its capital city, Madrid, have experienced extended periods of extreme heat.
“Decision-makers need detailed local information on demographic characteristics underlying vulnerability to know towards whom and where they should target their adaptation efforts. However, often the assessment of heat risk is focusing on the hazard at city level and not on population vulnerability, which can vary between groups and geographical areas”, explained Raya Muttarak, co-author from the University of Bologna.
For example, people above the age of 65, those with low socioeconomic status and women are known to be more disposed to heat-related illness and mortality. Moreover, heat stress intensity varies greatly from one neighborhood to another and even within neighborhoods of a city.
This city map of Madrid shows (a) the average maximum temperatures in June, July and August in the years 1970-2000 and weights them (b) by age and (c) by education level. (Source: Marginean, I., Crespo Cuaresma, J. et al. (2024). High-resolution modeling and projecting local dynamics of differential vulnerability to urban heat stress. Figure 3)
Heat stress vulnerability in Madrid, now and in the future
The study uses Madrid as a case study, and the results show that vulnerability to heat stress varies strongly across different areas in the city and even within a single neighborhood. The researchers use novel methods and different future scenarios to provide projections of vulnerability at a high spatial resolution. They find that areas that are vulnerable to heat stress today are expected to become even more vulnerable in the future if emissions are not reduced rapidly and substantially.
“More effective adaptation strategies that target the most vulnerable where they are, are needed to cope with the increased heat stress that cities, especially in Southern Europe, are now faced with. But the most effective way of reducing vulnerability to heat stress is to follow a sustainable development pathway with rapid reduction of emissions”, says Marginean.
Further information
Marginean, I., Crespo Cuaresma, J., Hoffmann, R., Muttarak, R., Gao, J., & Daloz, A. S. (2024). High-resolution modeling and projecting local dynamics of differential vulnerability to urban heat stress. Earth's Future, 12, e2024EF004431.
Note: This text is based on the original published by CICERO Center for International Climate Research.