Urban heat in global cities and the role of nature-based solutions in mitigating future climate risks

Manuel Esperon-Rodriguez; Rachael V. Gallagher; Jonathan Lenoir; Victor L. Barradas; Linda J. Beaumont; Carlo Calfapietra; Paloma Cariñanos; Stephen J. Livesley; Tamara Iungma; Gabriele Manoli; Renee M. Marchin; Timon McPhearson; Christian Messier; Mark Nieuwenhuijsen; Sally A. Power; Paul D. Rymer; Mark G. Tjoelker

doi:10.1088/2752-5295/adcb61

Urban heat in global cities and the role of nature-based solutions in mitigating future climate risks

Manuel Esperon-Rodriguez, Rachael V. Gallagher, Jonathan Lenoir, Victor L. Barradas, Linda J. Beaumont, Carlo Calfapietra, Paloma Cariñanos, Stephen J. Livesley, Tamara Iungma, Gabriele Manoli, Renee M. Marchin, Timon McPhearson, Christian Messier, Mark Nieuwenhuijsen, Sally A. Power, Paul D. Rymer, Mark G. Tjoelker

Hawkesbury Institute for the Environment

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Abstract

Approximately eight billion people are living on Earth today with more than half (55%, ∼4.2 billion) living in cities—a proportion predicted to increase to 70% (∼6.6. billion) by 2050. As the human population grows, urban residents will face increasingly extreme temperatures under future climate change, which will affect human well-being, health, and mortality. However, nature-based solutions offer promising strategies to mitigate these impacts. Here, we analyst future projections of the maximum temperature of the warmest month, as a proxy for extreme heat exposure across 5646 cities in 218 countries. We show that by mid-century, this climate metric is projected to increase by an average of +1.7 °C (± 0.5 °C), with the largest increases (∼4 °C) projected to occur in mid-to-high latitude cities of Europe, North America, and Australia. We highlight the urgent need to adopt nature-based solutions to mitigate projected increases in urban heat and contribute to net-zero CO₂ emissions goals.

Original language	English
Article number	023001
Number of pages	11
Journal	Environmental Research: Climate
Volume	4
Issue number	2
DOIs	https://doi.org/10.1088/2752-5295/adcb61
Publication status	Published - Jun 2025

Keywords

climate change
climate exposure
climate risk
global warming
human societies
urban areas
urban forests

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/2752-5295/adcb61Licence: CC BY

Full textFinal published version, 1.05 MBLicence: CC BY

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Esperon-Rodriguez, M., Gallagher, R. V., Lenoir, J., Barradas, V. L., Beaumont, L. J., Calfapietra, C., Cariñanos, P., Livesley, S. J., Iungma, T., Manoli, G., Marchin, R. M., McPhearson, T., Messier, C., Nieuwenhuijsen, M., Power, S. A., Rymer, P. D., & Tjoelker, M. G. (2025). Urban heat in global cities and the role of nature-based solutions in mitigating future climate risks. Environmental Research: Climate, 4(2), Article 023001. https://doi.org/10.1088/2752-5295/adcb61

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title = "Urban heat in global cities and the role of nature-based solutions in mitigating future climate risks",

abstract = "Approximately eight billion people are living on Earth today with more than half (55%, ∼4.2 billion) living in cities—a proportion predicted to increase to 70% (∼6.6. billion) by 2050. As the human population grows, urban residents will face increasingly extreme temperatures under future climate change, which will affect human well-being, health, and mortality. However, nature-based solutions offer promising strategies to mitigate these impacts. Here, we analyst future projections of the maximum temperature of the warmest month, as a proxy for extreme heat exposure across 5646 cities in 218 countries. We show that by mid-century, this climate metric is projected to increase by an average of +1.7 °C (± 0.5 °C), with the largest increases (∼4 °C) projected to occur in mid-to-high latitude cities of Europe, North America, and Australia. We highlight the urgent need to adopt nature-based solutions to mitigate projected increases in urban heat and contribute to net-zero CO2 emissions goals.",

keywords = "climate change, climate exposure, climate risk, global warming, human societies, urban areas, urban forests",

author = "Manuel Esperon-Rodriguez and Gallagher, {Rachael V.} and Jonathan Lenoir and Barradas, {Victor L.} and Beaumont, {Linda J.} and Carlo Calfapietra and Paloma Cari{\~n}anos and Livesley, {Stephen J.} and Tamara Iungma and Gabriele Manoli and Marchin, {Renee M.} and Timon McPhearson and Christian Messier and Mark Nieuwenhuijsen and Power, {Sally A.} and Rymer, {Paul D.} and Tjoelker, {Mark G.}",

year = "2025",

month = jun,

doi = "10.1088/2752-5295/adcb61",

language = "English",

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Esperon-Rodriguez, M , Gallagher, RV, Lenoir, J, Barradas, VL, Beaumont, LJ, Calfapietra, C, Cariñanos, P, Livesley, SJ, Iungma, T, Manoli, G, Marchin, RM, McPhearson, T, Messier, C, Nieuwenhuijsen, M, Power, SA , Rymer, PD & Tjoelker, MG 2025, 'Urban heat in global cities and the role of nature-based solutions in mitigating future climate risks', Environmental Research: Climate, vol. 4, no. 2, 023001. https://doi.org/10.1088/2752-5295/adcb61

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AU - Esperon-Rodriguez, Manuel

AU - Gallagher, Rachael V.

AU - Lenoir, Jonathan

AU - Barradas, Victor L.

AU - Beaumont, Linda J.

AU - Calfapietra, Carlo

AU - Cariñanos, Paloma

AU - Livesley, Stephen J.

AU - Iungma, Tamara

AU - Manoli, Gabriele

AU - Marchin, Renee M.

AU - McPhearson, Timon

AU - Messier, Christian

AU - Nieuwenhuijsen, Mark

AU - Power, Sally A.

AU - Rymer, Paul D.

AU - Tjoelker, Mark G.

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N2 - Approximately eight billion people are living on Earth today with more than half (55%, ∼4.2 billion) living in cities—a proportion predicted to increase to 70% (∼6.6. billion) by 2050. As the human population grows, urban residents will face increasingly extreme temperatures under future climate change, which will affect human well-being, health, and mortality. However, nature-based solutions offer promising strategies to mitigate these impacts. Here, we analyst future projections of the maximum temperature of the warmest month, as a proxy for extreme heat exposure across 5646 cities in 218 countries. We show that by mid-century, this climate metric is projected to increase by an average of +1.7 °C (± 0.5 °C), with the largest increases (∼4 °C) projected to occur in mid-to-high latitude cities of Europe, North America, and Australia. We highlight the urgent need to adopt nature-based solutions to mitigate projected increases in urban heat and contribute to net-zero CO2 emissions goals.

AB - Approximately eight billion people are living on Earth today with more than half (55%, ∼4.2 billion) living in cities—a proportion predicted to increase to 70% (∼6.6. billion) by 2050. As the human population grows, urban residents will face increasingly extreme temperatures under future climate change, which will affect human well-being, health, and mortality. However, nature-based solutions offer promising strategies to mitigate these impacts. Here, we analyst future projections of the maximum temperature of the warmest month, as a proxy for extreme heat exposure across 5646 cities in 218 countries. We show that by mid-century, this climate metric is projected to increase by an average of +1.7 °C (± 0.5 °C), with the largest increases (∼4 °C) projected to occur in mid-to-high latitude cities of Europe, North America, and Australia. We highlight the urgent need to adopt nature-based solutions to mitigate projected increases in urban heat and contribute to net-zero CO2 emissions goals.

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KW - climate exposure

KW - climate risk

KW - global warming

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KW - urban areas

KW - urban forests

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Urban heat in global cities and the role of nature-based solutions in mitigating future climate risks

Abstract

Keywords

UN SDGs

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Future projection of the maximum temperature of the warmest month across 5646 cities

Cite this

Urban heat in global cities and the role of nature-based solutions in mitigating future climate risks

Abstract

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Datasets

Future projection of the maximum temperature of the warmest month across 5646 cities

Cite this