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Found 692 results
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. After the fire: Perceptions of land use planning to reduce wildfire risk in eight communities across the United States International Journal of Disaster Risk Reduction. 2020;45.
. Bridging the research-management gap: landscape science in practice on public lands in the western United States Landscape Ecology. 2020;35. Available at: https://link.springer.com/article/10.1007/s10980-020-00970-5.
. Changing wildfire, changing forests: the effects of climate change on fire regimes and vegetation in the Pacific Northwest, USA Fire Ecology. 2020;16(4). Available at: https://link.springer.com/article/10.1186/s42408-019-0062-8.
. Fostering collective action to reduce wildfire risk across property boundaries in the American West Environmental Research Letters. 2020;15(2). Available at: https://iopscience.iop.org/article/10.1088/1748-9326/ab639a.
. Fuel treatment effectiveness in the context of landform, vegetation, and large, wind‐driven wildfires Ecological Applications. 2020;online early.
. High‐severity wildfire leads to multi‐decadal impacts on soil biogeochemistry in mixed‐conifer forests Ecological Applications. 2020;e02072.
. How does tree regeneration respond to mixed‐severity fire in the western Oregon Cascades, USA? Ecosphere. 2020;11(1).
. Insights and suggestions for certified prescribed burn manager programs .; 2020:46 p.
Certified burner_forest guild 2020.pdf (3.09 MB)
Certified burner_forest guild 2020.pdf (3.09 MB). Invasive grasses: A new perfect storm for forested ecosystems? Forest Ecology and Management. 2020;463.
. Prescribed fire science: the case for a refined research agenda Fire Ecology. 2020;16(11). Available at: https://fireecology.springeropen.com/articles/10.1186/s42408-020-0070-8.
. Weather, Risk, and Resource Orders on Large Wildland Fires in the Western US Forests. 2020;11(2).
. Wildfire recovery as a “hot moment” for creating fire-adapted communities International Journal of Disaster Risk Reduction. 2020;42.
. Wildfire risk science facilitates adaptation of fire-prone social-ecological systems to the new fire reality Environmental Research Letters. 2020;15(2). Available at: https://iopscience.iop.org/article/10.1088/1748-9326/ab6498.
. Air-quality challenges of prescribed fire in the complex terrain and wildland urban interface surrounding Bend, Oregon Atmosphere. 2019;10(9).
. Assessing relative differences in smoke exposure from prescribed, managed, and full suppression wildland fire Air Quality, Atmosphere & Health . 2019;12(1).
. Beyond red crowns: complex changes in surface and crown fuels and their interactions 32 years following mountain pine beetle epidemics in south-central Oregon, USA Fire Ecology. 2019;15(4).
. Can biochar link forest restoration with commercial agriculture? Biomass and Bioenergy. 2019;123.
. A Classification of US Wildland Firefighter Entrapments Based on Coincident Fuels, Weather, and Topography Fire. 2019;2(4).
. Climate change vulnerability and adaptation in south-central Oregon. ().; 2019:473. Available at: https://www.fs.usda.gov/treesearch/pubs/58688.
. Climate, Environment, and Disturbance History Govern Resilience of Western North American Forests Frontiers in Ecology and Evolution. 2019.
. Collaborations and capacities to transform fire management Science. 2019;366(6461).
. Contributions of fire refugia to resilient ponderosa pine and dry mixed-conifer forest landscapes Ecosphere. 2019;10(7).
. Cost-effective fuel treatment planning: a theoretical justification and case study International Journal of Wildland Fire. 2019;29(1).
