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This vast wildfire lab is helping foresters prepare for a hotter planet

By Henry Fountain

© The New York Times Co.

SILVER LAKE, ORE. » When a monster of a wildfire whipped into the Sycan Marsh Preserve here in south-central Oregon in July, Katie Sauerbrey feared the worst.

Sauerbrey, a fire manager for The Nature Conservancy, the conservation group that owns the 30,000-acre preserve, was in charge of a crew helping to fight the blaze — the Bootleg fire, one of the largest in a summer of extreme heat and dryness in the West — and protect a research station on the property.

Watching the fire, which rapidly burned through thousands of acres of adjacent national forest, she saw a shocking sight: Flames 200 feet high were coming over a nearby ridge. “I said, OK, there’s nothing we can do,” she recalled.

But as the fire got closer, it changed dramatically, Sauerbrey said. “It had gone from the most extreme fire behavior I had ever seen in my career to seeing 4-foot flame lengths moving through the stand.” While the fire kept burning through the forest, its lower intensity spared many trees, and the station survived.

Firefighters describe this kind of change in behavior as a fire “dropping down,” shifting from one with intense flames that spread quickly from tree crown to tree crown to a lower-level burn that is less dangerous. There are various reasons this can happen, including localized changes in winds, moisture, tree types and topography.

But for Sauerbrey and her colleagues with The Nature Conservancy, what she witnessed was most likely a real-life example of what they and others have been studying for years: how thinning of trees in overgrown forests, combined with prescribed, or controlled, burns of accumulated dead vegetation on the forest floor, can help achieve the goal of reducing the intensity of wildfires by removing much of the fuel that feeds them.

It’s a goal shared by others in the West, where the 2021 fire season saw several extremely large fires. The Bootleg fire, which burned more than 400,000 acres, was one of the largest in the state’s history. And two fires in Northern California, the Dixie and Caldor fires, together burned 1.2 million acres.

Drought and extreme heat play a role by making forests tinder dry and easier to burn. But many researchers say that more than a century of management policies that called for every fire to be extinguished, no matter how small, also contribute to the problem by allowing dead vegetation to accumulate and add fuel to fires.

That July day, the Bootleg fire reached a part of the preserve called the Coyote Restoration, which had been treated twice. In 2016 it was thinned, and three years later Sauerbrey, a “burn boss” certified to plan and conduct prescribed fires, had burned out the dead underbrush.

“Undoubtedly in my mind, those buildings would not be there if we hadn’t done these treatments,” she said, although the conservancy is also beginning research to better understand why the fire behaved as it did.

The organization has been studying forest treatments at Sycan Marsh for nearly two decades. The goal has been to use thinning and intentional burning to restore forests closer to conditions that existed in the past, when fire was a regular part of the forest life cycle and naturally removed some trees and dead underbrush.

“We’ve been suppressing fire in these systems for 150 to 120 years,” said James Johnston, a researcher at Oregon State University. “And when there is ignition, drought, dry weather and high winds, we have fires that burn hundreds of thousands of acres.” These fires kill most of the large trees that make up the forest canopy, which is not what happened historically, he added.

Thinning has been criticized as a way for timber companies to harvest the biggest, most valuable trees in a forest with little regard for the ecological consequences. And prescribed burns can in rare cases be disastrous: One in New Mexico in 2000 was driven out of control by unexpected winds and eventually destroyed more than 200 homes.

But done with care, and with regard for forest ecology, researchers say, these techniques can make forests healthier and more resilient to fire.

“Our past forest management did certainly log a lot of our larger trees out,” said Sharon Hood, a research ecologist with U.S. Forest Service in Montana. But practices have changed, she said.

“Thinning allows us to quickly change the forest structure and which species are there,” mimicking the way forests were disturbed in the past, she said. “You can design thinning to be as complex or as simple as you want.”

At Sycan Marsh, The Nature Conservancy works with the Forest Service, academic researchers and with the Klamath and other local Native American tribes, who have a long tradition of managing forests through intentional fire.

“These forests were driven by frequent fire, and they were resilient to fire, insects, drought — all these things because of frequent fire,” said Pete Caligiuri, who directs the conservancy’s forest restoration program in Oregon.

The preserve is essentially a large laboratory, with different treatments applied in parts of the forest, which is dominated by lodgepole and ponderosa pines. Large ponderosas, in particular, often are left standing, as their thick bark and other characteristics make them more fire resistant.

In some plots, thinning is designed to leave clusters of trees, made up of a mixture of species and ages. In others there’s less of a discernible pattern.

But there’s reasoning behind every decision to keep or lose a tree, said Craig Bienz, director of the Sycan Marsh program. The plots are studied to see how well they encourage growth, for example, or how healthy the crowns are.

 

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