Crystal Kolden Tackles Burning Questions
‘Pyrogeographer’ brings together experts to help the Northwest better predict and recover from wildfire.
Even though Crystal Kolden grew up in western Washington — one of the wettest parts of the U.S. — she has developed a certain fascination with fire. Kolden calls herself a “pyrogeographer,” someone who studies and writes about the role of fire on Earth. She even teaches a course called “As the World Burns.”
But she does not love fire. Rather, she has a deep respect for its power.
“Fire is an incredibly unique element on Earth,” she said. “Fire has shaped this planet over its entire existence as a natural process.”
Fire is also the thing that sets humans apart as a species.
“Our control of fire has made our modern civilization possible, but it also continues to plague us in so many ways,” she said.
A former wildland firefighter for the U.S. Forest Service-turned-fire scientist, Kolden has seen the devastation fire can cause firsthand. She is leading a multidisciplinary $2.8 million National Science Foundation-funded project to help Northwest states better predict and recover from wildfires. Started in 2015, the four-year project involves a range of researchers from four different colleges at U of I and three colleges at Washington State University.
Much of Kolden’s research involves using remote sensing to analyze how wildfire works across large landscapes. She also often brings people together to answer complex questions. And there is certainly no easy solution to handling wildfires.
For example, when a wildfire ignites, responders often are so focused on putting it out that associated problems can be overlooked, including floods and even major mudslides, as occurred in Montecito, California, in January 2018.
Wildfires also can have a devastating economic impact that may linger long after the fire has ended. Many small towns in Idaho have economies based on natural resources, such as timber or tourism. One big fire, or a couple back-to-back fires, can push those towns into a recession.
To address these challenges, Kolden made sure the NSF-funded project included not only fire experts but also hydrologists, soil erosion researchers, social scientists, and even art and architecture faculty who can create virtual towns to help people make more informed decisions on how to build, or re-build, in fire-prone areas.
The Spark
Kolden first became interested in fire while working for the U.S. Forest Service. She studied history at Cornell University as an undergraduate but felt drawn to natural resource work. Her first job after graduating was in the U.S. Forest Service鈥檚 timber division in California. But as Kolden put it, no matter what the assignment, 鈥渋n California you end up working on fires, because California burns.鈥
Eventually, she moved directly into fighting wildfires and became interested in understanding fire on the landscape. Kolden earned a master鈥檚 degree in geography at University of Nevada, Reno, and later received a doctorate in geography from Clark University in Worcester, Massachusetts.
Just as Kolden was embarking on her doctorate, the U.S. Geological Survey (USGS) made the entire Landsat remote sensing dataset, from the program that began in 1972, available for free.
鈥淎ll of a sudden, it opened a world of possibility to look at how fire impacts the landscape and how that changes across time with different human and environmental influences,鈥 Kolden said.
She used the data to study fire patterns in Alaska for the USGS, and in 2011, she brought those skills to the Northwest as a faculty member of the 果冻传媒麻豆社.
No New Normal
Wildfire is integral to the Northwest. In fact, the entire state of Idaho is a fire risk area, according to Kolden. And as the climate has changed, the way fires burn has changed too. While many people think fires have become more frequent, there are actually fewer human-started fires today 鈥 thanks in part to the 鈥淪mokey Bear鈥 campaign. The only problem: when fires do ignite now, they are larger and burn longer.
Kolden cautions against asserting there is any 鈥渘ew normal鈥 when it comes to fire.
鈥淭he system is really dynamic 鈥 the climate system, the ecosystem and the human system are all really dynamic,鈥 she said.
Just as there is no 鈥渘ormal,鈥 there is also no one solution to wildfire that will work in every region. 鈥淲e can鈥檛 simply log our way out of our wildfire problem,鈥 Kolden said. 鈥淒oes fuel modification and management work? Absolutely, but that is not going to completely stop or change the rate at which we see these wildfires, because so much is driven by climate change, particularly in the Northwest.鈥
The highly politicized debate about what causes wildfires isn鈥檛 of much interest to Kolden. She would much rather work on the question of what we do about them. This means better predicting where and how fires will burn, altering how we build in fire areas, and even changing our expectation that every fire should be, or can be, extinguished.
Though her work has taken her far from the front lines of firefighting, Kolden has her fellow firefighters in mind as she works to predict wildfires and mitigate their effects.
鈥淚鈥檓 not a hero. I鈥檓 not going to run into a burning house and save somebody, but I do still have a lot of friends who work on wildland fires,鈥 she said. 鈥淭o be able to do work that I can see has immediate impact for them鈥攖hat allows them to be safer and to do their jobs more efficiently and with a better set of tools 鈥 that鈥檚 really gratifying.鈥
Published in June 2018
Article by Sara Zaske, College of Natural Resources.