
By Georgia Tech
The fires enabled the first real-time data on airborne lead, thanks to a pioneering air quality measurement network known as Atmospheric Science and Chemistry (ASCENT), a nationwide initiative funded by the National Science Foundation, operating in 12 sites across the US.
ASCENT measured tiny particles smaller than 2.5 micrometers in diameter (PM2.5)—small enough to enter the lungs and bloodstream.
Unlike typical wildfires that burn natural materials such as grass and trees, the Eaton Canyon and Palisades fires burned through infrastructures like homes, including painted surfaces, pipes, vehicles, plastics, and electronic equipment.
This raised concerns about the toxicity of these particles in the air, especially since many of the buildings were constructed before 1978, when lead paint was still commonly used.
Lead is a toxic air contaminant that poses significant health risks, particularly for children, who are more vulnerable to its neurodevelopmental effects.
While chronic lead exposure is well-documented, the effects of short-term spikes, like those recorded during these fires, are less understood.
“Our work through ASCENT has provided us with new insights into the air we breathe, with unprecedented levels of detail and time resolution,” says Sally Ng, a Georgia Tech professor of chemical and biomolecular engineering and earth and atmospheric sciences and the network’s principal investigator.
“Beyond the mass concentration of PM2.5 that is typically measured, we are now able to detect a wide range of chemical components in the aerosols in real time, to better understand and evaluate to what extent one is exposed to harmful pollutants.”
Investigators used several instruments to obtain hourly measurements at the ASCENT monitoring site in Pico Rivera, approximately 14 miles south of the Eaton Canyon fire, to assess atmospheric lead during the wildfires.
“Our findings showcased the importance of having real-time measurements of the chemical species that comprise particulate matter,” says California Institute of Technology PhD candidate in atmospheric chemistry and ASPIRE researcher Haroula Baliaka.
“During the LA fires, we provided the public with timely information about what they were breathing and how air quality evolved in the days that followed.”
This research appears in the CDC’s Morbidity and Mortality Weekly Report.
Source: Georgia Tech
Original Study DOI: 10.15585/mmwr.mm7405a4
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Previously Published on futurity.org with Creative Commons License
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