Publications Library
The Shared Stewardship Strategy in the Southern United States: Lessons Learned. Journal of Forestry. 2023.
Smoke-weather interaction affects extreme wildfires in diverse coastal regions. Science. 2023;379(6631). Available at: https://www.science.org/doi/epdf/10.1126/science.add9843.
Smoke-weather interaction affects extreme wildfires in diverse coastal regions .pdf (3.59 MB)
Smoke-weather interaction affects extreme wildfires in diverse coastal regions .pdf (3.59 MB). Social drivers of vulnerability to wildfire disasters: A review of the literature. Landscape and Urban Planning. 2023;237. Available at: https://pdf.sciencedirectassets.com/271853/1-s2.0-S0169204622X00170/1-s2.0-S0169204623001160/main.pdf?X-Amz-Security-Token=IQoJb3JpZ2luX2VjEEcaCXVzLWVhc3QtMSJGMEQCIAnCNzNG8aGtD%2BfpVg0GfyftuTCsZ0EaaPZZOZ%2FAcm1vAiBXcF2mxMx1djeYjL1plRYsxwA%2BhH4WEPDUsxBXOE. Social drivers of vulnerability to wildfire disasters- A review of the literature.pdf (2.46 MB)
Social drivers of vulnerability to wildfire disasters- A review of the literature.pdf (2.46 MB). Social drivers of vulnerability to wildfire disasters: A review of the literature. Landscape and Urban Planning. 2023;237. Available at: https://pdf.sciencedirectassets.com/271853/1-s2.0-S0169204622X00170/1-s2.0-S0169204623001160/main.pdf?X-Amz-Security-Token=IQoJb3JpZ2luX2VjEEcaCXVzLWVhc3QtMSJGMEQCIAnCNzNG8aGtD%2BfpVg0GfyftuTCsZ0EaaPZZOZ%2FAcm1vAiBXcF2mxMx1djeYjL1plRYsxwA%2BhH4WEPDUsxBXOE. Social drivers of vulnerability to wildfire disasters- A review of the literature.pdf (2.46 MB)
Social drivers of vulnerability to wildfire disasters- A review of the literature.pdf (2.46 MB) Topographic information improves simulated patterns of post-fire conifer regeneration in the southwest United States. Global Change Biology . 2023.
Towards an Integrated Approach to Wildfire Risk Assessment: When, Where, What and How May the Landscapes Burn. Fire. 2023;6. fire-06-00215-v2.pdf (9.73 MB)
fire-06-00215-v2.pdf (9.73 MB) Using soil moisture information to better understand and predict wildfire danger: a review of recent developments and outstanding questions. International Journal of Wildland Fire. 2023;32(2). WF22056.pdf (3.84 MB)
WF22056.pdf (3.84 MB) Wildfire and climate change amplify knowledge gaps linking mountain source-water systems and agricultural water supply in the western United States. Agricultural Water Management. 2023;286. Wildfire and climate change amplify knowledge gaps linking mountain source-water systems and agricultural water supply in the western United States.pdf (1.41 MB)
Wildfire and climate change amplify knowledge gaps linking mountain source-water systems and agricultural water supply in the western United States.pdf (1.41 MB). Burn severity and pre-fire seral state interact to shape vegetation responses to fire in a young, western Cascade Range forest. Forest Ecology and Management. 2022. Halpern and Antos_2022_Burn Severity and veg responses_West Cascade Range forest.pdf (8.63 MB)
Halpern and Antos_2022_Burn Severity and veg responses_West Cascade Range forest.pdf (8.63 MB). Changes in fire behavior caused by fire exclusion and fuel build-up vary with topography in California montane forests, USA. Journal of Environmental Management. 2022. Airey-Lauvaux et al_2022_Changes in fire behavior caused by fire exclusion and fuel buildup vary with topo in CA montane forests.pdf (7.93 MB)
Airey-Lauvaux et al_2022_Changes in fire behavior caused by fire exclusion and fuel buildup vary with topo in CA montane forests.pdf (7.93 MB) The Construction of Probabilistic Wildfire Risk Estimates for Individual Real Estate Parcels for the Contiguous United States. Fire. 2022;5(117). Kearns et al_2022_Fire_The Construction of ProbabilisticWildfire Risk Estimates for Individual Real Estate Parcels for US.pdf (7.09 MB)
Kearns et al_2022_Fire_The Construction of ProbabilisticWildfire Risk Estimates for Individual Real Estate Parcels for US.pdf (7.09 MB). The Cost of Forest Thinning Operations in the Western United States: A Systematic Literature Review and New Thinning Cost Model. Journal of Forestry. 2022;online.
Counteracting wildfire misinformation. Frontiers in Ecology and the Environment. 2022;20(7):392-390. Jones et al_2022_Front in Ecol Env_Counteracting wildfire misinformation.pdf (79.58 KB)
Jones et al_2022_Front in Ecol Env_Counteracting wildfire misinformation.pdf (79.58 KB). Designing forest restoration projects to optimize the application of broadcast burning. Ecological Economics. 2022. Belavenutti et al_2022_Ecological Econ_Designing forest restoration projects to optimize the application of broadcast burning.pdf (3.12 MB)
Belavenutti et al_2022_Ecological Econ_Designing forest restoration projects to optimize the application of broadcast burning.pdf (3.12 MB) Future climate risks from stress, insects and fire across US forests. Ecology letters. 2022;25:1510–1520. Anderegg et al_2022_Future climate risks from stress, insects, and fire across US forests.pdf (3.12 MB)
Anderegg et al_2022_Future climate risks from stress, insects, and fire across US forests.pdf (3.12 MB) Future climate risks from stress, insects and fire across US forests. Ecology letters. 2022;25:1510–1520. Anderegg et al_2022_Future climate risks from stress, insects, and fire across US forests.pdf (3.12 MB)
Anderegg et al_2022_Future climate risks from stress, insects, and fire across US forests.pdf (3.12 MB) A geographic strategy for cross-jurisdictional, proactive management of invasive annual grasses in Oregon. Rangelands. 2022:173-180. Creutzburg et al_2022_A geog strategy for crossjurisdictional proactive mgmt of invasive annual grasses in OR.pdf (3.52 MB)
Creutzburg et al_2022_A geog strategy for crossjurisdictional proactive mgmt of invasive annual grasses in OR.pdf (3.52 MB). Human- and lightning-caused wildland fire ignition clusters in British Columbia, Canada. International Journal of Wildland Fire. 2022;31(11). Available at: https://doi.org/10.1071/WF21177. Coogan et al_2022_IJWF_Human and Lightning caused wildland fire ignition clusters in BC Canada.pdf (10.13 MB)
Coogan et al_2022_IJWF_Human and Lightning caused wildland fire ignition clusters in BC Canada.pdf (10.13 MB). The impacts of wildfires of different burn severities on vegetation structure across the western United States rangelands. Science of The Total Environment. 2022;845(157214). Li et al_2022_Sci total Envir_Impacts of wildfires of different burn severities on veg structure across western US rangelands.pdf (2.58 MB)
Li et al_2022_Sci total Envir_Impacts of wildfires of different burn severities on veg structure across western US rangelands.pdf (2.58 MB). Improving wildfire management outcomes: shifting the paradigm of wildfire from simple to complex risk. Journal of Environmental Planning and Management. 2022;Online. Essen et al 2022_Improving WF Mgmt outcomes.pdf (663.56 KB)
Essen et al 2022_Improving WF Mgmt outcomes.pdf (663.56 KB) Incorporating place-based values into ecological restoration. Ecology and Society. 2022;27(3). Wickham et al_2022_Ecol and Soc_Incorporating place-based values into ecological restoration.pdf (2.01 MB)
Wickham et al_2022_Ecol and Soc_Incorporating place-based values into ecological restoration.pdf (2.01 MB). Increasing co-occurrence of fine particulate matter and ground-level ozone extremes in the western United States. Science Advances. 2022;8. Kalashnikov et al_2022_Fine Particulate Matter.pdf (3.24 MB)
Kalashnikov et al_2022_Fine Particulate Matter.pdf (3.24 MB). Large wildfire driven increases in nighttime fire activity observed across CONUS from 2003–2020. Remote Sensing of Environment. 2022;268. Available at: https://doi.org/10.1016/j.rse.2021.112777. Freeborn et al_2022_Remote Sensing Enviro_Large Wildfire Driven Increases in Nighttime Fire Activity Across CONUS 2003-2020.pdf (3.09 MB)
Freeborn et al_2022_Remote Sensing Enviro_Large Wildfire Driven Increases in Nighttime Fire Activity Across CONUS 2003-2020.pdf (3.09 MB). Multi-Objective Scheduling of Fuel Treatments to Implement a Linear Fuel Break Network. Fire. 2022;6(1). fire-06-00001-v2.pdf (6.42 MB)
fire-06-00001-v2.pdf (6.42 MB) Network of low-cost air quality sensors for monitoring indoor, outdoor, and personal PM (2.5) exposure in Seattle during the 2020 wildfire season. Atmospheric Environment. 2022;285. Available at: https://www.sciencedirect.com/science/article/pii/S1352231022003090?dgcid=raven_sd_recommender_email. Network of low-cost air quality sensors for monitoring indoor, outdoor, and personal PM2.5 exposure in Seattle during the 2020 wildfire season.pdf (2.79 MB)
Network of low-cost air quality sensors for monitoring indoor, outdoor, and personal PM2.5 exposure in Seattle during the 2020 wildfire season.pdf (2.79 MB)
