Avoidable mortality attributable to anthropogenic fine particulate matter (Pm2.5) in Australia

Ivan C. Hanigan; Richard A. Broome; Timothy B. Chaston; Martin Cope; Martine Dennekamp; Jane S. Heyworth; Katharine Heathcote; Joshua A. Horsley; Bin Jalaludin; Edward Jegasothy; Fay H. Johnston; Luke D. Knibbs; Gavin Pereira; Sotiris Vardoulakis; Stephen Vander Hoorn; Geoffrey G. Morgan

doi:10.3390/ijerph18010254

Avoidable mortality attributable to anthropogenic fine particulate matter (Pm2.5) in Australia

Ivan C. Hanigan, Richard A. Broome, Timothy B. Chaston, Martin Cope, Martine Dennekamp, Jane S. Heyworth, Katharine Heathcote, Joshua A. Horsley, Bin Jalaludin, Edward Jegasothy, Fay H. Johnston, Luke D. Knibbs, Gavin Pereira, Sotiris Vardoulakis, Stephen Vander Hoorn, Geoffrey G. Morgan

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Abstract

Ambient fine particulate matter <2.5 _m(PM2.5) air pollution increases premature mortality globally. Some PM2.5 is natural, but anthropogenic PM2.5 is comparatively avoidable. We determined the impact of long-term exposures to the anthropogenic PM component on mortality in Australia. PM2.5-attributable deaths were calculated for all Australian Statistical Area 2 (SA2; n = 2310) regions. All-cause death rates from Australian mortality and population databases were combined with annual anthropogenic PM2.5 exposures for the years 2006–2016. Relative risk estimates were derived from the literature. Population-weighted average PM2.5 concentrations were estimated in each SA2 using a satellite and land use regression model for Australia. PM2.5-attributable mortality was calculated using a health-impact assessment methodology with life tables and all-cause death rates. The changes in life expectancy (LE) from birth, years of life lost (YLL), and economic cost of lost life years were calculated using the 2019 value of a statistical life. Nationally, long-term populationweighted average total and anthropogenic PM2.5 concentrations were 6.5 _g/m3 (min 1.2–max 14.2) and 3.2 _g/m3 (min 0–max 9.5), respectively. Annually, anthropogenic PM2.5-pollution is associated with 2616 (95% confidence intervals 1712, 3455) deaths, corresponding to a 0.2-year (95% CI 0.14, 0.28) reduction in LE for children aged 0–4 years, 38,962 (95%CI 25,391, 51,669) YLL and an average annual economic burden of $6.2 billion (95%CI $4.0 billion, $8.1 billion). We conclude that the anthropogenic PM2.5-related costs of mortality in Australia are higher than community standards should allow, and reductions in emissions are recommended to achieve avoidable mortality.

Original language	English
Article number	254
Pages (from-to)	1-9
Number of pages	9
Journal	International Journal of Environmental Research and Public Health
Volume	18
Issue number	1
DOIs	https://doi.org/10.3390/ijerph18010254
Publication status	Published - 1 Jan 2021

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Hanigan, I. C., Broome, R. A., Chaston, T. B., Cope, M., Dennekamp, M., Heyworth, J. S., Heathcote, K., Horsley, J. A., Jalaludin, B., Jegasothy, E., Johnston, F. H., Knibbs, L. D., Pereira, G., Vardoulakis, S., Hoorn, S. V., & Morgan, G. G. (2021). Avoidable mortality attributable to anthropogenic fine particulate matter (Pm2.5) in Australia. International Journal of Environmental Research and Public Health, 18(1), 1-9. Article 254. https://doi.org/10.3390/ijerph18010254

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title = "Avoidable mortality attributable to anthropogenic fine particulate matter (Pm2.5) in Australia",

abstract = "Ambient fine particulate matter <2.5 _m(PM2.5) air pollution increases premature mortality globally. Some PM2.5 is natural, but anthropogenic PM2.5 is comparatively avoidable. We determined the impact of long-term exposures to the anthropogenic PM component on mortality in Australia. PM2.5-attributable deaths were calculated for all Australian Statistical Area 2 (SA2; n = 2310) regions. All-cause death rates from Australian mortality and population databases were combined with annual anthropogenic PM2.5 exposures for the years 2006–2016. Relative risk estimates were derived from the literature. Population-weighted average PM2.5 concentrations were estimated in each SA2 using a satellite and land use regression model for Australia. PM2.5-attributable mortality was calculated using a health-impact assessment methodology with life tables and all-cause death rates. The changes in life expectancy (LE) from birth, years of life lost (YLL), and economic cost of lost life years were calculated using the 2019 value of a statistical life. Nationally, long-term populationweighted average total and anthropogenic PM2.5 concentrations were 6.5 _g/m3 (min 1.2–max 14.2) and 3.2 _g/m3 (min 0–max 9.5), respectively. Annually, anthropogenic PM2.5-pollution is associated with 2616 (95% confidence intervals 1712, 3455) deaths, corresponding to a 0.2-year (95% CI 0.14, 0.28) reduction in LE for children aged 0–4 years, 38,962 (95%CI 25,391, 51,669) YLL and an average annual economic burden of $6.2 billion (95%CI $4.0 billion, $8.1 billion). We conclude that the anthropogenic PM2.5-related costs of mortality in Australia are higher than community standards should allow, and reductions in emissions are recommended to achieve avoidable mortality.",

keywords = "Anthropogenic air pollution, Avoidable mortality, Burden of disease, Premature deaths",

author = "Hanigan, {Ivan C.} and Broome, {Richard A.} and Chaston, {Timothy B.} and Martin Cope and Martine Dennekamp and Heyworth, {Jane S.} and Katharine Heathcote and Horsley, {Joshua A.} and Bin Jalaludin and Edward Jegasothy and Johnston, {Fay H.} and Knibbs, {Luke D.} and Gavin Pereira and Sotiris Vardoulakis and Hoorn, {Stephen Vander} and Morgan, {Geoffrey G.}",

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Hanigan, IC, Broome, RA, Chaston, TB, Cope, M, Dennekamp, M, Heyworth, JS, Heathcote, K, Horsley, JA, Jalaludin, B, Jegasothy, E, Johnston, FH, Knibbs, LD, Pereira, G, Vardoulakis, S, Hoorn, SV & Morgan, GG 2021, 'Avoidable mortality attributable to anthropogenic fine particulate matter (Pm2.5) in Australia', International Journal of Environmental Research and Public Health, vol. 18, no. 1, 254, pp. 1-9. https://doi.org/10.3390/ijerph18010254

TY - JOUR

T1 - Avoidable mortality attributable to anthropogenic fine particulate matter (Pm2.5) in Australia

AU - Hanigan, Ivan C.

AU - Broome, Richard A.

AU - Chaston, Timothy B.

AU - Cope, Martin

AU - Dennekamp, Martine

AU - Heyworth, Jane S.

AU - Heathcote, Katharine

AU - Horsley, Joshua A.

AU - Jalaludin, Bin

AU - Jegasothy, Edward

AU - Johnston, Fay H.

AU - Knibbs, Luke D.

AU - Pereira, Gavin

AU - Vardoulakis, Sotiris

AU - Hoorn, Stephen Vander

AU - Morgan, Geoffrey G.

PY - 2021/1/1

Y1 - 2021/1/1

N2 - Ambient fine particulate matter <2.5 _m(PM2.5) air pollution increases premature mortality globally. Some PM2.5 is natural, but anthropogenic PM2.5 is comparatively avoidable. We determined the impact of long-term exposures to the anthropogenic PM component on mortality in Australia. PM2.5-attributable deaths were calculated for all Australian Statistical Area 2 (SA2; n = 2310) regions. All-cause death rates from Australian mortality and population databases were combined with annual anthropogenic PM2.5 exposures for the years 2006–2016. Relative risk estimates were derived from the literature. Population-weighted average PM2.5 concentrations were estimated in each SA2 using a satellite and land use regression model for Australia. PM2.5-attributable mortality was calculated using a health-impact assessment methodology with life tables and all-cause death rates. The changes in life expectancy (LE) from birth, years of life lost (YLL), and economic cost of lost life years were calculated using the 2019 value of a statistical life. Nationally, long-term populationweighted average total and anthropogenic PM2.5 concentrations were 6.5 _g/m3 (min 1.2–max 14.2) and 3.2 _g/m3 (min 0–max 9.5), respectively. Annually, anthropogenic PM2.5-pollution is associated with 2616 (95% confidence intervals 1712, 3455) deaths, corresponding to a 0.2-year (95% CI 0.14, 0.28) reduction in LE for children aged 0–4 years, 38,962 (95%CI 25,391, 51,669) YLL and an average annual economic burden of $6.2 billion (95%CI $4.0 billion, $8.1 billion). We conclude that the anthropogenic PM2.5-related costs of mortality in Australia are higher than community standards should allow, and reductions in emissions are recommended to achieve avoidable mortality.

AB - Ambient fine particulate matter <2.5 _m(PM2.5) air pollution increases premature mortality globally. Some PM2.5 is natural, but anthropogenic PM2.5 is comparatively avoidable. We determined the impact of long-term exposures to the anthropogenic PM component on mortality in Australia. PM2.5-attributable deaths were calculated for all Australian Statistical Area 2 (SA2; n = 2310) regions. All-cause death rates from Australian mortality and population databases were combined with annual anthropogenic PM2.5 exposures for the years 2006–2016. Relative risk estimates were derived from the literature. Population-weighted average PM2.5 concentrations were estimated in each SA2 using a satellite and land use regression model for Australia. PM2.5-attributable mortality was calculated using a health-impact assessment methodology with life tables and all-cause death rates. The changes in life expectancy (LE) from birth, years of life lost (YLL), and economic cost of lost life years were calculated using the 2019 value of a statistical life. Nationally, long-term populationweighted average total and anthropogenic PM2.5 concentrations were 6.5 _g/m3 (min 1.2–max 14.2) and 3.2 _g/m3 (min 0–max 9.5), respectively. Annually, anthropogenic PM2.5-pollution is associated with 2616 (95% confidence intervals 1712, 3455) deaths, corresponding to a 0.2-year (95% CI 0.14, 0.28) reduction in LE for children aged 0–4 years, 38,962 (95%CI 25,391, 51,669) YLL and an average annual economic burden of $6.2 billion (95%CI $4.0 billion, $8.1 billion). We conclude that the anthropogenic PM2.5-related costs of mortality in Australia are higher than community standards should allow, and reductions in emissions are recommended to achieve avoidable mortality.

KW - Anthropogenic air pollution

KW - Avoidable mortality

KW - Burden of disease

KW - Premature deaths

UR - http://www.scopus.com/inward/record.url?scp=85099057112&partnerID=8YFLogxK

U2 - 10.3390/ijerph18010254

DO - 10.3390/ijerph18010254

M3 - Article

C2 - 33396338

AN - SCOPUS:85099057112

SN - 1661-7827

VL - 18

SP - 1

EP - 9

JO - International Journal of Environmental Research and Public Health

JF - International Journal of Environmental Research and Public Health

IS - 1

M1 - 254

ER -

Avoidable mortality attributable to anthropogenic fine particulate matter (Pm2.5) in Australia

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