College of Forestry

Forests in the coolest, wettest parts of the western Pacific Northwest are likely to see the biggest increases in burn probability, fire size and number of blazes as the climate continues to get warmer and drier, according to new modeling led by an Oregon State University scientist.

A firefighter-turned-researcher is helping pioneer data-driven solutions to tackle today’s unprecedented wildfires.

Forests on the west slope of Oregon’s Cascade Range experienced fire much more often between 1500 and 1895 than had been previously thought, according to new research by scientists at Oregon State University.

Wildfire researchers from Oregon State University have received $750,000 for multiple projects to bridge a knowledge gap between forestry and engineering regarding how communities are affected by major fire events.

Across the West, forests and communities interact with and are affected by issues that emerge from wildfires, state policies, and rural economic conditions.

It was a single lightning strike, deep in the heart of the forest. When he saw the smoke, Robert Mutch knew it was trouble.

Oregon State University research into the ability of a wildfire to improve the health of a forest uncovered a Goldilocks effect – unless a blaze falls in a narrow severity range, neither too hot nor too cold, it isn’t very good at helping forest landscapes return to their historical, more fire-…

The likelihood of hot, dry, windy autumn weather that can set the stage for severe fires in California and western Oregon has increased 40% due to human-caused climate change, new computer models show.

How much and how long a severely burned Pacific Northwest mountain landscape stays blanketed in winter snow is a key factor in the return of vegetation, research by Oregon State University and the University of Nevada, Reno shows.

Mechanical thinning alone can calm the intensity of future wildfires for many years, and prescribed burns lengthen thinning’s effectiveness, according to Oregon State University research involving a seasonally dry ponderosa pine forest in northeastern Oregon.

Oregon State University scientists and collaborators from throughout the West say that thinning and prescribed burning are crucial parts of adaptive management for seasonally dry, fire-dependent forests such as those east of the Cascade crest.

Roadless national forests in the American West burn more often and at a slightly higher severity than national forests with roads, but the end result for the roadless forests is greater fire resilience, Oregon State University researchers say.

Oregon State University researchers say “topographic templates” can help forest conservation managers develop strategies for protecting and restoring the most fire-resistant parts of vulnerable forests across a range of ecosystems.