Human-sparked wildfires are more destructive than those caused by nature
A wayward smoke bomb from
a gender reveal party sparked a major blaze near Los Angeles in September, just
one of many recent wildfires ignited by people. Now, an analysis of
high-resolution satellite data from hundreds of California wildfires shows
human-caused blazes spread much faster and kill more trees than ones ignited by
lightning.
The findings highlight how
fires that start differently can behave in distinct ways, with effects far
beyond the amount of land torched, says Sean Parks, a fire ecologist with the
Rocky Mountain Research Station’s Aldo Leopold Wilderness Research Institute,
who was not involved with the study. “This focus on high severity rather than
just area burned is important.”
Fire has always been a
part of California’s natural history. But several centuries of human settlement
have created new conditions that promote its spread. Studies have shown human
ignition is to blame for 84% of all wildfires in
the United States, and 97% of all those that threaten
homes.
Human-sparked fires always
seemed more extreme, says Stijn Hantson, a fire ecologist at the University of
California, Irvine, who led the new research. But quantitative measurements of
how fast they spread and their impacts on ecosystems in California had not been
explored, he notes.
To probe those
differences, Hantson and colleagues compiled daily high-resolution satellite
data for 214 wildfires that burned in California between 2012 and 2018. They
drew perimeters around detected hot spots for each wildfire from day to day.
Then, the researchers measured the distance between each day’s perimeter to the
next day’s hot spots to calculate on average how fast the fire grew daily until
it was extinguished.
Human-sparked fires
typically spread about 1.83 kilometers per day, more than twice as fast as the 0.83
kilometers per day for lightning-induced burns, the team reports today at a
virtual meeting of the American Geophysical Union. The faster spreading fires
also burned more intensely and killed “double or triple” the trees as slower,
lightning-caused ones, Hantson says.
“These human-caused fires
have a disproportionate impact on the ecosystem,” he says. “And though the
ecosystem is fire-adapted, it’s not adapted for 80% of trees to die, like we’re
seeing with some of these really intense fires.”
However, there is no
inherent difference in the chemistry of a human-sparked blaze. “A fire is a
fire,” Hantson says. “It’s the surrounding things that matter.” Causes of fires
ranging from improperly discarded cigarettes to sparking power lines could
ignite a blaze on any given day, he says, whereas lightning strikes and
dry thunderstorms only happen seasonally.
The researchers tracked
meteorological data, including wind speed and moisture evaporation, and found
that human-caused fires were more likely to start on days with extreme weather
conditions, such as such as gusty winds, that favor a rapid spread. They also
found that human-kindled fires were more associated with drier, less-forested
landscapes, devoid of the live vegetation that could limit fire spread.
This adds to scientists’
understanding of how humans are extending the fire season, says Nathan
Mietkiewicz, an ecologist with the National Ecological Observation
Network who was not involved with the research. Fire management needs to
evolve, he says, to take this into account. “That could mean putting more fire
on the ground” with controlled burns, Mietkiewicz says, cutting down the
potential fuel and intensity for future wildfires.
Hantson and his colleagues
plan to apply the same analysis to fire data from this year, California’s largest
fire season on record. More than 1.6 million hectares have burned this
year in the state.
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