These Scientists Are Studying Why California Keeps Burning – California fires

by Eric Roston, MSN

Residents of fire-ravaged Western states, and an entire world of observers looking on in horror, have asked themselves, “How can this be happening?”

As fire last week taunted Paradise, California, destroyed in the 2018 Camp Fire, many others have found themselves asking a related, but much more complicated question: How can this be happening again?”

California fires. Everybody knows that. But why does it seem like forests are igniting more often?

“Are these landscapes burning more frequently?” said Jon Keeley, a U.S. Geological Survey research scientist. “The answer is absolutely yes.”

But beyond the aggregate numbers, that big, central question splinters into a forest of smaller ones whose answers span the latitude, longitude, and altitude of the American West. California, the focus of Keeley’s work, has its own galaxy of fire environments.

To know whether fires are returning to parts of the state faster than they have before first requires some sense of the long-term “normal.” Scientists have found that mountainous and forested northern California environments experience fires much less frequently than they used to, while southern parts of the state see more of them.

This passes a common-sense check, since old, slow-growing forests, as in the North, seem harder to burn down than small vegetation dried out by high-summer temperatures that occur in the South.

Related slideshow: Wildfires in the US (Provided by Photo Services)

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More than 30,000 firefighters and support personnel are battling more than 90 wildfires in the U.S. West Coast. Fueled by record heatwaves and intense dry winds, the wildfires have forced thousands of residents to flee their homes. Major fires have burned 4.6 million acres, national fire officials say. While most of these blazes are burning in rural and forested areas, big cities along the West Coast, such as Los Angeles, San Francisco, Seattle and Portland, are also feeling the impact of dropping air quality. Evacuation orders remain in effect for communities near 36 of the wildfires, the National Interagency Fire Center said on Sept. 13. (Pictured) Firefighters work to extinguish the Bobcat Fire after evacuation orders were issued for the residents of Arcadia, California, on Sept. 13.

Researchers have assembled maps of California that show how the rate of fires has changed between the time before mass human settlement to the 20th century.

The blue northern areas see fewer fires in part because of a century-long effort to stop them from happening. Until relatively recently, these less populated, more remote areas experienced blazes that were largely caused by dry lightning.

That’s what happened in August, and something like it can happen every decade or so, Keeley said. The last major episode occurred in 2008. The Southern coastal areas don’t receive the same lightning. They are, however, covered with lower-lying brush and support a larger human population — which tends to start more fires, even though the same fire policies are in place there as in the North.

Those are just the long-term trends. How to understand the dramatic speed of return of California wildfires in recent years requires a simplification of the many variables that cause fires — autumn winds, lightning, drought, land-use, and, yes, the wood or “fuel” backlog from a century of fire suppression and climate change.

Keeley has offered a way to simplify and clarify the factors driving the increase in fires around the state. He explains the rise of large 21st century California wildfires by comparing those that are driven by wind with those that are “fuel”-driven. This framework suggests that while it’s brought up frequently in public discussions, the build-up of forest fuel is only one factor in northern fires; others include land-use and development trends and past timber-harvesting practices.

That said, a resumption in the forestry practice of managed burning in higher and northern areas would help. To the south, autumn winds turn human actions—power-line failures and arson—into conflagrations, and fuel is less of a factor. Whatever can burn will.

Erin Hanan, an assistant professor at University of Nevada, Reno, offers another two-part model. In some places, historically at least, there’s too much moisture for fires to grow. As some northern areas filled with fuel dry out under rising temperatures and longer fire seasons, however, moist climate is less of an impediment to fire. In contrast to these areas, she writes, there are also very dry, “fuel-limited areas,” where everything burns easily. Many places fall in-between these extremes.

Against the backdrop of all these factors—California’s fire-prone geography and ecosystems, the Santa Ana and North winds, the century of fire suppression, land-development closer to forests, human activity and the overall growth in California’s population—climate change progresses. Which of these factors is responsible for the current conflagrations? All of them, Keeley said. The entire wildfire system is activated.

Not only are these factors never far from Keeley’s research, they’re not far from his house.

An estimated 140 million trees died in the last decade during California’s drought, itself worsened by climate change. “Right after this occurred, I would go out on my porch and look up at the mountain beside us and it’s just covered with dead trees,” he said on Tuesday from his home in Three Rivers, California. “Now we’re paying for that because there’s a big fire that’s threatening evacuation of our house.”