Publications Library
Abrupt, climate-induced increase in wildfires in British Columbia since the mid-2000s. Nature. 2023;4(309). Available at: https://www.nature.com/articles/s43247-023-00977-1.
s43247-023-00977-1.pdf (5.58 MB)

Consistent spatial scaling of high-severity wildfire can inform expected future patterns of burn severity. Ecology Letters. 2023.
. Does large area burned mean a bad fire year? Comparing contemporary wildfire years to historical fire regimes informs the restoration task in fire-dependent forests. Forest Ecology and Management. 2023;546.
The eco-evolutionary role of fire in shaping terrestrial ecosystems. Functional Ecology. 2023;37:2090–2095.
Functional Ecology - 2023 - Santos.pdf (432.22 KB)
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Refuge-yeah or refuge-nah? Predicting locations of forest resistance and recruitment in a fiery world. Global Change Biology. 2023.
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Human-related ignitions concurrent with high winds promote large wildfires across the USA International Journal of Wildland Fire. 2018;Online early.
. Influence of landscape structure, topography, and forest type on spatial variation in historical fire regimes, Central Oregon, USA Landscape Ecology. 2018;33(7).
. Land surveys show regional variability of historical fire regimes and dry forest structure of the western United States Ecological Applications. 2018;28(2).
. Regional and local controls on historical fire regimes of dry forests and woodlands in the Rogue River Basin, Oregon, USA Forest Ecology and Management. 2018;430.
. Long-Term Effects of Burn Season and Frequency on Ponderosa Pine Forest Fuels and Seedlings Fire Ecology. 2017;13(3).
. Tamm Review: Shifting global fire regimes: Lessons from reburns and research needs Forest Ecology and Management. 2017;396.
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The Ecological Importance of Severe Wildfires: Some Like it Hot. Ecological Applications. 2008;18.
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