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Winslow Hansen
Cary Institute of Ecosystem StudiesMeeting roles in:
Attributing rapid increases in western US forest-fire activity and above-ground carbon losses to climate change and natural variability
Predicting forest burn risk from 2026 to 2040 in interior Alaska
Environmental drivers of forest resilience after Sierra Nevada wildfires
Increased deciduous tree dominance reduces wildfire C losses in northwestern North American boreal forests
Projecting Long-Term Impacts of Management Actions and Climate on Boreal Forest Fuel Reduction Treatments
Leveraging forest and fire ecological modeling outputs to estimate emissions and air pollution impacts of wildland fires across the western U.S.
Microbial friends or foes? Germination of ponderosa pine is enhanced in 800℃ charred soils while survival is hindered by a fungal pathogen in 200℃ charred soils
Quantifying the Controls on Boreal Forest Reburning with Interpretable Machine Learning
Erasing the western US forest-fire deficit will require approximately 60 million hectares of ecologically beneficial burning over the next decade.
Sensitivity Analysis of Post-Fire Recovery Parameters in Boreal Forests Using iLand
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