PSW Study Shows Fuel Treatments Improve Wildfire Outcomes
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Contact(s): Hilary Clark
Sometimes out of adversity comes wisdom. That was a lesson Pacific Southwest Research Station Ecologist Eric Knapp learned after the 2021 Antelope Fire tore through long-term research plots in northeastern California.
“It was pretty upsetting to think about those 20 years of research going up in flames,” Knapp stated.
Knapp’s colleague, Forester Martin Ritchie, and other scientists initiated studies at this landscape — known as the Goosenest Adaptive Management Area — in the late 1990s. At that time, white fir and incense cedar filled the site, crowding out pine trees. One of the researchers’ goals was to restore a more open pine-dominated forest, which originally graced this area a century ago.
As part of that objective, they collaborated with staff from the Klamath National Forest to set up different forest and fuel management treatments on 40- to 100-acre plots. Forest staff implemented two methods of mechanical thinning and applied prescribed fire to a portion of the plots. Periodically, they remeasured the plots to evaluate the ecological effects of the treatments.
Shortly after the fire, Knapp, and fellow researchers convened at the 2,300-acre study area to take stock of the damage. Because the fire burned for multiple days, they could observe how fuel treatments fared under different weather conditions. Wind speeds and humidity levels drove fire behavior, which fluctuated between high intensity to more moderate.
“I realized the fire presented a rare opportunity," said Knap said. "We could see how fuel treatments performed in real-world conditions, which we highlighted in a recent paper.”
Analysis of the data, led by postdoctoral scholar Emily Brodie, showed areas previously treated with thinning and prescribed burning fared best, with the most living trees. Untreated control areas where no treatments occurred were in the worst shape.
At these sites, high-intensity crown fires completely consumed the needles and branches of many trees, leaving bare, blackened stems. Plots treated with either mechanical thinning or prescribed burning, but not both, came out somewhere in the middle, with about half of the trees dying.
“I’ll never forget walking through the untreated control areas not long after the fire went through. What were once living green needles of the tree canopy now blanketed the ground in a thick layer of ash. We all remarked how it looked like snow. It was eerie,” Knapp remarked.
Knapp and others found that under the most extreme conditions, the fire killed some trees, even in plots that had been both thinned and burned. Fuel treatments can only do so much, but they speculated that more recent prescribed burning might have led to more trees surviving the fire.
Forests in this area historically burned about every 10 years. Firefighters performed two rounds of prescribed burning at the site — the first around 2001 and another about 10 years later.
The treated units were due for a third prescribed burn when the Antelope Fire interceded.
Keeping up with prescribed burning to maintain fuels at low levels is challenging, requiring both favorable weather conditions and adequate staffing. Moisture levels must be low enough for fires to burn, but not too low where they can rage out of control. Firefighters with the expertise to perform the burns are, sometimes, away battling blazes across the country.
“They’re a lot of factors, unfortunately, that inhibit our ability to do prescribed burns at the scale they’re needed,” Knapp stated.
Knapp underscored that thinning and prescribed burning play a critical role in preventing wildfires from consuming trees’ canopies, which produce embers that can rapidly spread the flames. Fuel treatments change fire behavior, which can also potentially help reduce losses to nearby communities.
“Mechanical thinning and prescribed fire target different forest fuels. Thinning reduces live tree canopy density and removes smaller trees that can function as ladder fuels, both of which contribute to crown fire behavior. Prescribed fire consumes litter, dead and down wood, and knocks back understory shrubs, reducing intensity of any future fire,” Knapp stated.
In all the years of the study, Knapp and fellow researchers never imagined a wildfire would rip through their plots. In a warming climate, though, wildfires like Antelope are becoming more frequent and severe.
Brodie emphasized that the findings make a compelling case for doing both tree thinning and prescribed burning to protect forests in the future. “We also found that if moderating fire behavior is the goal, the benefit of treating fuels was greatest under the most extreme weather conditions,” she added
This suggests that fuel treatments will be increasingly important as climate change contributes to more extreme fire weather. Reducing fuel loads is key for not only protecting communities but sustaining forests and the wildlife that depend upon them.
***RESEARCH PAPER: Forest thinning and prescribed burning treatments reduce wildfire severity and buffer the impacts of severe fire weather***
Antelope Fire strikes northeastern California in 2021.
Credit: USDA Forest Service, Troy Parrish
Researchers collect data after Antelope Fire rages through Goosenest Adaptive Management Area
Credit: USDA Forest Service
Needles blanket ground in thick layer of ash at Goosenest Adaptive Management Area.
Credit: USDA Forest Service, Eric Knapp
The road divides an untreated area (on left) from the one that received prescribed burning and mechanical thinning (on right) at Goosenest Adaptive Management Area.
Credit: USDA Forest Service, Eric Knapp