Potentially harmful chemicals found in forest fire smoke
RICHLAND, Wash. -- Researchers have detected common plant toxins that
affect human health and ecosystems in smoke from forest fires. The results
from the new study also suggest that smoldering fires may produce more
toxins than wildfires - a reason to keep human exposures to a minimum during
controlled burns.
Finding these toxins -- known as alkaloids -- helps researchers understand
how they cycle through earth and air. Smoke-related alkaloids in the
environment can change aquatic and terrestrial ecosystems, as well as where
and when clouds form. The study, which was of Ponderosa pines, by scientists
at the Department of Energy's Pacific Northwest National Laboratory will
appear June 1 in Environmental Science and Technology.
"Ponderosa pines are widespread in areas that are prone to forest fires,"
said PNNL physical chemist Julia Laskin, one of the coauthors. "This study
shows us which molecules are in smoke so we can better understand smoke's
environmental impact."
As trees and underbrush burn, billowing smoke made up of tiny particles
drifts away. The tiny particles contain a variety of natural compounds
released from the plant matter. Researchers have long suspected the presence
of alkaloids in smoke or detected them in air during fire season, but no one
had directly measured them coming off a fire. The PNNL researchers had
recently developed the technology to pick out alkaloids from the background
of similar molecules.
To investigate chemicals given off by fires, the team captured some smoke
from test fires organized by Colorado State University researchers. These
researchers were doing controlled burns of ponderosa pines, underbrush and
other fuels at the Forest Service Fire Science Laboratory in Missoula, Mont.
The scientists collected smoke samples in a device that corrals small
particles. Using high-resolution spectrometry instruments in EMSL, DOE's
Environmental Molecular Sciences Laboratory on the PNNL campus, they then
determined which molecules the smoke contained. At EMSL, the researchers
used the new methods to glean highly detailed information about the smoke's
composition.
The team found a wide variety of molecules. When they compared their results
to other studies, they found that 70 percent of these molecules had not been
previously reported in smoke.
"The research significantly expanded the previous observations," said
aerosol chemist and coauthor Alexander Laskin.
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In addition, 10 to 30 percent of these were alkaloids, common plant
molecules that proved to be quite resistant to the high temperatures of
fire. Plants often use alkaloids for protection, because they can poison
other plants and animals, including humans. Alkaloids also have medicinal
value (caffeine and nicotine, for example, are well-known alkaloids that
aren't found in pine trees).
A large percentage of the alkaloids were those that carry biologically
useful nitrogen through atmospheric, terrestrial and aquatic environments.
Because of this, the results suggest smoke might be an important step in
this transport. Also, the nitrogen-containing alkaloids have a basic pH,
which can make cloud-forming particles less acidic, and in turn impact cloud
formation that is critical to global agriculture and water supplies.
The researchers also found that the abundance of alkaloids depends on how
vigorously the fire burns. Smoldering fires such as those in controlled
burns produce more of the compounds than blazing fires such as those fanned
by high winds. Because some plant alkaloids might be harmful, the result
could affect planned fires upwind of human populations.
For future studies, the researchers are developing a method to quantify the
alkaloids and related compounds in smoke to better understand their chemical
composition and prevalence.
For complete study visit: http://www.pnl.gov/
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