Wildfire smoke could lead to tens of thousands of deaths by 2050

Wildfire smoke exposure could lead to tens of thousands of excess deaths in the US by 2050, according to a new study.
The study projects that average exposures across the US population will increase two-to-three-fold in 2050 relative to 2011-2020 due to climate change and increased wildfire activity.
Future smoke PM2.5 could result in more than 71,000 excess deaths per year by 2050 under a high warming scenario, representing a 73% increase from current wildfire smoke levels.
The study’s findings suggest that wildfire smoke is likely to substantially increase under future climate change, with significant health impacts on vulnerable populations such as pregnant women, school children, and those with asthma or cancer.
The research highlights the urgent need for wildfire smoke adaptation measures, including better land management practices like prescribed fires, to mitigate mortality damages and protect vulnerable groups from pollution exposure.

A man stands outside wearing a face mask while surrounded by yellow wildfire smoke in the air.

A new study projects that smoke exposure from wildfires in the coming decades toward 2050 could result in tens of thousands of excess deaths in the United States.

This projection, by a national team of investigators led by Minghao Qiu of Stony Brook University, is based on research that assesses wildfire activity in an increasingly dry and warming climate.

Wildfires have significantly increased in recent years, often in the Western US but also in other regions. Warmer, drier conditions are increasing the scope, damage, and exposures to people from wildfires.

The study details the use of historical data from wildfires and smoke pollution, along with statistical models and machine learning tools to estimate deaths caused by exposure to smoke particulates in climate change scenarios.

Deaths from wildfire smoke result from inhaling a complex mix of chemicals. Wildfires can expose large numbers of people to these toxic pollutants for days or weeks at a time, contributing to deaths up to three years after the initial exposure, according to the study.

Within wildfire smoke pollution, researchers often focus on fine particulate matter, known as PM2.5, which penetrates the lungs and enters the bloodstream. While the health effects of PM2.5 from other sources are well studied, less is known about the specific dangers of PM2.5 from wildfire smoke. Some recent research shows that wildfire smoke can contain a range of toxic chemicals harmful to human health. The research team linked US death records to estimated population exposure to smoke pollution, to assess these additional risks from smoke.

“The link between wildfire exposure and mortality burden can be very high, and what we are seeing is a clear increase in wildfire smoke nationwide, including long-range transport of smoke and dangerous particulates across the nation,” says lead author Qiu, assistant professor in the School of Marine and Atmospheric Sciences (SoMAS), and Core Faculty Member of the Program in Public Health at Stony Brook University.

Qiu says the research led to four key findings:

First, using the ensemble of statistical and machine learning models, they found that wildfire smoke is likely to substantially increase under future climate change, with average exposures across the US population increasing two-to-three-fold in 2050 relative to 2011-2020. He explains this large increase is the result of tight coupling between fuel aridity (lack of moisture in vegetation) and wildfire activity.
Second, using the historical data, they show that increases in annual exposure to smoke PM2.5 are associated with higher county-level annual mortality rates across the contiguous US, with increases detectable at even very low levels of annual wildfire exposure.
Third, they project that future smoke PM2.5 could result in more than 71,000 excess deaths per year by 2050 under a high warming scenario—a 73% increase relative to the 2011-2020 averages from current wildfire smoke.
Fourth, when monetized, climate-induced smoke deaths result in annual damages that exceed prior aggregate estimates of all other economic damage due to climate change in the US—meaning wildfire smoke could be the most deadly and damaging climate disasters in US.

“There’s a broad understanding that wildfire activity and wildfire smoke exposure are changing quickly. This is a lived experience, unfortunately, for folks on the West Coast over the last decade and folks on the East Coast in the last few years,” says senior study author Marshall Burke, a professor of environmental social sciences in the Stanford Doerr School of Sustainability.

“Our paper puts some numbers on what that change in exposure means for health outcomes, both now and in the future as the climate warms. And our understanding of who is vulnerable to this exposure is much broader than we thought,” Burke explains, citing those who are pregnant, school children, anyone with asthma, and people with cancer as examples.

The authors add that “by focusing on mortality alone, our estimated health damages exclude short- and long-term non-fatal health impacts from smoke PM2.5, including morbidity, worsened mental health, and potential long-run cancer risks associated with the carcinogenic constituents of wildfire smoke.”

They conclude that their overall findings point to the urgent need for wildfire smoke adaptation if mortality damages are to be avoided. These adaptations could include better land management, such as the use of prescribed fires to regulate fire risks, and protecting vulnerable groups from pollution exposure when smoke exposures do occur.

The research appears in Nature.

Support for this research came from the Keck Foundation, Stanford’s Center for Innovation in Global Health, Stony Brook University’s SoMAS and the Program in Public Health, the Harvard University Center for the Environment, and the Standford Research Computing Center.

Source: Stony Brook University

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Q. What is the projected number of excess deaths that could result from wildfire smoke exposure by 2050?

A. The study projects that future smoke PM2.5 could result in more than 71,000 excess deaths per year by 2050 under a high warming scenario.

Q. How much will average exposures to wildfire smoke increase across the US population by 2050 compared to 2011-2020?

A. Average exposures are expected to increase two-to-three-fold in 2050 relative to 2011-2020.

Q. What is the main cause of the large increase in wildfire smoke exposure, according to the study’s lead author?

A. The tight coupling between fuel aridity (lack of moisture in vegetation) and wildfire activity is the result of this large increase.

Q. Which group of people are particularly vulnerable to the health effects of wildfire smoke, according to senior study author Marshall Burke?

A. Pregnant individuals, school children, anyone with asthma, and people with cancer are among those who are more vulnerable to the exposure.

Q. What type of particulate matter is often focused on in research related to wildfire smoke pollution?

A. Fine particulate matter (PM2.5) is a key focus of research due to its ability to penetrate the lungs and enter the bloodstream.

Q. How do researchers assess the health effects of PM2.5 from wildfire smoke?

A. Researchers link US death records to estimated population exposure to smoke pollution to assess additional risks from smoke.

Q. What is one potential adaptation that could help mitigate the health impacts of wildfire smoke, according to the study’s findings?

A. Better land management practices, such as prescribed fires to regulate fire risks, could be an effective adaptation.

Q. How does the study’s research differ from previous studies on PM2.5 from other sources?

A. The study focuses specifically on the dangers of PM2.5 from wildfire smoke, which is less well understood than its effects from other sources.

Q. What is the estimated annual damage caused by climate-induced smoke deaths in the US?

A. Climate-induced smoke deaths result in annual damages that exceed prior aggregate estimates of all other economic damage due to climate change in the US.