Exposure to wildfire smoke during last
summer’s wildfire season could be associated with thousands of additional
coronavirus infections as well as hundreds of deaths, potentially causing an
even greater challenge to public health officials in Washington, Oregon and
California, a new study has found.
اضافة اعلان
Wildfire smoke contains high levels of the
smallest, most dangerous type of soot, known as PM 2.5.
Researchers at Harvard University estimated
that there were nearly 20,000 extra coronavirus infections and 750 COVID-19
deaths associated with exposure to wildfire smoke between March and December
2020 in the American West. The paper was published Friday in the journal
Science Advances.
Exposure to smoke, whether from air pollution
or cigarette smoke, is believed to impair the function of white blood cells in
the lungs, blunting the body’s immune response. The chemicals in particulate
matter can also inflame cells lining the airways and lungs. In both cases, if
the body is exposed to a virus in addition to air pollution, the immune
response may be slowed and the person may develop a more severe illness than
they would have otherwise, researchers say.
The findings build on the well-established
connection between air pollution and respiratory-tract infections and
conditions such as asthma. But the study is the first to show a statistical
link between wildfire smoke and COVID-19 caseloads and deaths.
“These results provide strong evidence that,
in many counties, the high levels of PM 2.5 that occurred during the 2020
wildfires substantially exacerbated the health burden of COVID-19,” the authors
wrote.
Some places experienced levels of air
pollution that were dangerously high. In September 2020, Mono County,
California, had four days where PM 2.5 levels exceeded 500 micrograms per cubic
meter, a “hazardous” level, according to the Environmental Protection Agency.
By comparison, on days when wildfires were not burning, the average daily level
in the three states was 6 micrograms per cubic meter.
To arrive at their conclusion, the researchers
used satellite data of smoke plumes from the National Oceanic and Atmospheric
Administration to identify the locations and days affected by wildfires. They
paired those readings with PM 2.5 data from ground-level air quality monitors
in each of the counties and COVID-19 cases and death rates from data compiled
by the Centers for Disease Control and Prevention.
Their statistical model accounted for other
factors such as weather and the amount of time people were at home, and
included a four-week lag to capture the virus’ incubation period, as well as
the additional time it can take for infected people’s health to deteriorate.
The same team of Harvard researchers also
published the first study to find a clear connection between long-term exposure
to air pollution and COVID-19 death rates last year.
The new study included reported infections,
not just deaths, which makes it especially interesting, said John Balmes, a
professor of medicine at the University of California, San Francisco, and an
expert on the health effects of pollution who was not involved in the research.
“It’s one thing for air pollution to be increasing the severity of the
coronavirus infection, it’s another for it to be increasing reported cases,” he
said.
After decades of tightening air quality
regulations, the air in many American cities is cleaner now than it’s been in
50 years. But in the West, increased wildfire smoke threatens to undo those
advances, said Loretta Mickley, an atmospheric chemist at Harvard’s John A.
Paulson School of Engineering and Applied Sciences and one of the paper’s
authors.
As the planet warms, droughts intensify and
the West becomes drier, wildfires are starting earlier, growing larger,
spreading faster and reaching higher elevations. In California alone, a record
2.5 million acres burned during the 2020 wildfire season, 20 times what had
burned the previous year.
“We are really talking about climate change,”
said Francesca Dominici, a biostatistician at Harvard’s T.H. Chan School of
Public Health and senior author of the paper. “I hope that this is providing an
additional piece of evidence for why it’s important to get our act together to
combat climate change.”
Wildfire smoke may contribute up to half of
the PM 2.5 in some parts of the western United States. It is so far unclear
whether wildfire smoke is more or less toxic than smoke from diesel combustion
or power plants.
Dominici noted that the analysis did not
include individual patient data or consider other factors such as mask
mandates.
Researchers are currently investigating
whether fine particulate matter can spread the coronavirus.
The research does not bode well for this year,
Dominici said, as wildfires started early and the pandemic is still raging in
the
United States, with a delta variant that tends to be more contagious. She
added: “I think the wildfires will have the same, if not worse impact on
COVID-19 cases and deaths among the unvaccinated.”
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