Respiratory risks from wildfire-specific PM2.5 across multiple countries and territories

Yiwen Zhang; Rongbin Xu; Wenzhong Huang; Tingting Ye; Pei Yu; Wenhua Yu; Yao Wu; Yanming Liu; Zhengyu Yang; Bo Wen; Ke Ju; Jiangning Song; Michael J. Abramson; Amanda Johnson; Anthony Capon; Bin Jalaludin; Donna Green; Eric Lavigne; Fay H. Johnston; Geoffrey G. Morgan; Luke D. Knibbs; Ying Zhang; Guy Marks; Jane Heyworth; Julie Arblaster; Yue Leon Guo; Lidia Morawska; Micheline S.Z.S. Coelho; Paulo H.N. Saldiva; Patricia Matus; Peng Bi; Simon Hales; Wenbiao Hu; Dung Phung; Yuming Guo; Shanshan Li

doi:10.1038/s41893-025-01533-9

Respiratory risks from wildfire-specific PM_2.5 across multiple countries and territories

Yiwen Zhang, Rongbin Xu, Wenzhong Huang, Tingting Ye, Pei Yu, Wenhua Yu, Yao Wu, Yanming Liu, Zhengyu Yang, Bo Wen, Ke Ju, Jiangning Song, Michael J. Abramson, Amanda Johnson, Anthony Capon, Bin Jalaludin, Donna Green, Eric Lavigne, Fay H. Johnston, Geoffrey G. MorganLuke D. Knibbs, Ying Zhang, Guy Marks, Jane Heyworth, Julie Arblaster, Yue Leon Guo, Lidia Morawska, Micheline S.Z.S. Coelho, Paulo H.N. Saldiva, Patricia Matus, Peng Bi, Simon Hales, Wenbiao Hu, Dung Phung, Yuming Guo, Shanshan Li^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Under a warming climate, wildfires are becoming more frequent and severe. Multicountry studies evaluating associations between wildfire fine particulate matter (PM_2.5) and respiratory hospitalizations are lacking. Here we evaluate the short-term effects of wildfire-specific PM_2.5 on respiratory hospitalizations from 1,052 communities across Australia, Brazil, Canada, Chile, New Zealand, Vietnam, Thailand and Taiwan, during 2000–2019. A 1 µg m⁻³ increase in wildfire-specific PM_2.5 was associated with increased hospitalization risks for all-cause respiratory, asthma, chronic obstructive pulmonary disease, acute upper respiratory infection, influenza and pneumonia by 0.36%, 0.48%, 0.38%, 0.42%, 0.79% and 0.36%, respectively. Higher risks were observed among populations ≤19 or ≥60 years old, from low-income or high non-wildfire PM_2.5 communities, and residing in Brazil, Thailand, Taiwan and Vietnam. Australia and New Zealand exhibited a greater hospitalization risk for asthma associated with wildfire-specific PM_2.5. Compared with non-wildfire PM_2.5, wildfire-specific PM_2.5 posed greater hospitalization risks for all respiratory diseases and a greater burden of asthma. Wildfire-specific PM_2.5 contributed to 42.4% of PM_2.5-linked respiratory hospitalizations, dominating in Thailand. Overall, the substantial contribution of wildfire-specific PM_2.5 to respiratory hospitalizations demands continued mitigation and adaptation efforts across most countries. Intervention should be prioritized for influenza, children, adolescents, the elderly and populations in low-income or high-polluted communities.

Original language	English
Article number	106732
Pages (from-to)	474-484
Number of pages	11
Journal	Nature Sustainability
Volume	8
Issue number	5
DOIs	https://doi.org/10.1038/s41893-025-01533-9
State	Published - May 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

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10.1038/s41893-025-01533-9

Cite this

Zhang, Y., Xu, R., Huang, W., Ye, T., Yu, P., Yu, W., Wu, Y., Liu, Y., Yang, Z., Wen, B., Ju, K., Song, J., Abramson, M. J., Johnson, A., Capon, A., Jalaludin, B., Green, D., Lavigne, E., Johnston, F. H., ... Li, S. (2025). Respiratory risks from wildfire-specific PM_2.5 across multiple countries and territories. Nature Sustainability, 8(5), 474-484. Article 106732. https://doi.org/10.1038/s41893-025-01533-9

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title = "Respiratory risks from wildfire-specific PM2.5 across multiple countries and territories",

abstract = "Under a warming climate, wildfires are becoming more frequent and severe. Multicountry studies evaluating associations between wildfire fine particulate matter (PM2.5) and respiratory hospitalizations are lacking. Here we evaluate the short-term effects of wildfire-specific PM2.5 on respiratory hospitalizations from 1,052 communities across Australia, Brazil, Canada, Chile, New Zealand, Vietnam, Thailand and Taiwan, during 2000–2019. A 1 µg m−3 increase in wildfire-specific PM2.5 was associated with increased hospitalization risks for all-cause respiratory, asthma, chronic obstructive pulmonary disease, acute upper respiratory infection, influenza and pneumonia by 0.36\%, 0.48\%, 0.38\%, 0.42\%, 0.79\% and 0.36\%, respectively. Higher risks were observed among populations ≤19 or ≥60 years old, from low-income or high non-wildfire PM2.5 communities, and residing in Brazil, Thailand, Taiwan and Vietnam. Australia and New Zealand exhibited a greater hospitalization risk for asthma associated with wildfire-specific PM2.5. Compared with non-wildfire PM2.5, wildfire-specific PM2.5 posed greater hospitalization risks for all respiratory diseases and a greater burden of asthma. Wildfire-specific PM2.5 contributed to 42.4\% of PM2.5-linked respiratory hospitalizations, dominating in Thailand. Overall, the substantial contribution of wildfire-specific PM2.5 to respiratory hospitalizations demands continued mitigation and adaptation efforts across most countries. Intervention should be prioritized for influenza, children, adolescents, the elderly and populations in low-income or high-polluted communities.",

author = "Yiwen Zhang and Rongbin Xu and Wenzhong Huang and Tingting Ye and Pei Yu and Wenhua Yu and Yao Wu and Yanming Liu and Zhengyu Yang and Bo Wen and Ke Ju and Jiangning Song and Abramson, \{Michael J.\} and Amanda Johnson and Anthony Capon and Bin Jalaludin and Donna Green and Eric Lavigne and Johnston, \{Fay H.\} and Morgan, \{Geoffrey G.\} and Knibbs, \{Luke D.\} and Ying Zhang and Guy Marks and Jane Heyworth and Julie Arblaster and Guo, \{Yue Leon\} and Lidia Morawska and Coelho, \{Micheline S.Z.S.\} and Saldiva, \{Paulo H.N.\} and Patricia Matus and Peng Bi and Simon Hales and Wenbiao Hu and Dung Phung and Yuming Guo and Shanshan Li",

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doi = "10.1038/s41893-025-01533-9",

language = "English",

volume = "8",

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Zhang, Y, Xu, R, Huang, W, Ye, T, Yu, P, Yu, W, Wu, Y, Liu, Y, Yang, Z, Wen, B, Ju, K, Song, J, Abramson, MJ, Johnson, A, Capon, A, Jalaludin, B, Green, D, Lavigne, E, Johnston, FH, Morgan, GG, Knibbs, LD, Zhang, Y, Marks, G, Heyworth, J, Arblaster, J, Guo, YL, Morawska, L, Coelho, MSZS, Saldiva, PHN, Matus, P, Bi, P, Hales, S, Hu, W, Phung, D, Guo, Y & Li, S 2025, 'Respiratory risks from wildfire-specific PM_2.5 across multiple countries and territories', Nature Sustainability, vol. 8, no. 5, 106732, pp. 474-484. https://doi.org/10.1038/s41893-025-01533-9

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AU - Zhang, Yiwen

AU - Xu, Rongbin

AU - Huang, Wenzhong

AU - Ye, Tingting

AU - Yu, Pei

AU - Yu, Wenhua

AU - Wu, Yao

AU - Liu, Yanming

AU - Yang, Zhengyu

AU - Wen, Bo

AU - Ju, Ke

AU - Song, Jiangning

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AU - Knibbs, Luke D.

AU - Zhang, Ying

AU - Marks, Guy

AU - Heyworth, Jane

AU - Arblaster, Julie

AU - Guo, Yue Leon

AU - Morawska, Lidia

AU - Coelho, Micheline S.Z.S.

AU - Saldiva, Paulo H.N.

AU - Matus, Patricia

AU - Bi, Peng

AU - Hales, Simon

AU - Hu, Wenbiao

AU - Phung, Dung

AU - Guo, Yuming

AU - Li, Shanshan

PY - 2025/5

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N2 - Under a warming climate, wildfires are becoming more frequent and severe. Multicountry studies evaluating associations between wildfire fine particulate matter (PM2.5) and respiratory hospitalizations are lacking. Here we evaluate the short-term effects of wildfire-specific PM2.5 on respiratory hospitalizations from 1,052 communities across Australia, Brazil, Canada, Chile, New Zealand, Vietnam, Thailand and Taiwan, during 2000–2019. A 1 µg m−3 increase in wildfire-specific PM2.5 was associated with increased hospitalization risks for all-cause respiratory, asthma, chronic obstructive pulmonary disease, acute upper respiratory infection, influenza and pneumonia by 0.36%, 0.48%, 0.38%, 0.42%, 0.79% and 0.36%, respectively. Higher risks were observed among populations ≤19 or ≥60 years old, from low-income or high non-wildfire PM2.5 communities, and residing in Brazil, Thailand, Taiwan and Vietnam. Australia and New Zealand exhibited a greater hospitalization risk for asthma associated with wildfire-specific PM2.5. Compared with non-wildfire PM2.5, wildfire-specific PM2.5 posed greater hospitalization risks for all respiratory diseases and a greater burden of asthma. Wildfire-specific PM2.5 contributed to 42.4% of PM2.5-linked respiratory hospitalizations, dominating in Thailand. Overall, the substantial contribution of wildfire-specific PM2.5 to respiratory hospitalizations demands continued mitigation and adaptation efforts across most countries. Intervention should be prioritized for influenza, children, adolescents, the elderly and populations in low-income or high-polluted communities.

AB - Under a warming climate, wildfires are becoming more frequent and severe. Multicountry studies evaluating associations between wildfire fine particulate matter (PM2.5) and respiratory hospitalizations are lacking. Here we evaluate the short-term effects of wildfire-specific PM2.5 on respiratory hospitalizations from 1,052 communities across Australia, Brazil, Canada, Chile, New Zealand, Vietnam, Thailand and Taiwan, during 2000–2019. A 1 µg m−3 increase in wildfire-specific PM2.5 was associated with increased hospitalization risks for all-cause respiratory, asthma, chronic obstructive pulmonary disease, acute upper respiratory infection, influenza and pneumonia by 0.36%, 0.48%, 0.38%, 0.42%, 0.79% and 0.36%, respectively. Higher risks were observed among populations ≤19 or ≥60 years old, from low-income or high non-wildfire PM2.5 communities, and residing in Brazil, Thailand, Taiwan and Vietnam. Australia and New Zealand exhibited a greater hospitalization risk for asthma associated with wildfire-specific PM2.5. Compared with non-wildfire PM2.5, wildfire-specific PM2.5 posed greater hospitalization risks for all respiratory diseases and a greater burden of asthma. Wildfire-specific PM2.5 contributed to 42.4% of PM2.5-linked respiratory hospitalizations, dominating in Thailand. Overall, the substantial contribution of wildfire-specific PM2.5 to respiratory hospitalizations demands continued mitigation and adaptation efforts across most countries. Intervention should be prioritized for influenza, children, adolescents, the elderly and populations in low-income or high-polluted communities.

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