Publications Library
The Marshall Fire: Scientific and policy needs for water system disaster response. AWWA Water Science. 2023;5(1).
AWWA_2023_Whelton_Marshall_Fire.pdf (2.23 MB)
AWWA_2023_Whelton_Marshall_Fire.pdf (2.23 MB) Metrics and Considerations for Evaluating How Forest Treatments Alter Wildfire Behavior and Effects. Journal of Forestry. 2023:1-18. Metrics and considerations for eval forest treatments.pdf (1.47 MB)
Metrics and considerations for eval forest treatments.pdf (1.47 MB). Multiple Stories, Multiple Marginalities: The Labor-Intensive Forest and Fire Stewardship Workforce in Oregon. Fire. 2023;6(7):268. fire-06-00268.pdf (317.97 KB)
fire-06-00268.pdf (317.97 KB). Projecting live fuel moisture content via deep learning. International Journal of Wildland Fire. 2023. Projecting live fuel moisture content via deep learning.pdf (7.28 MB)
Projecting live fuel moisture content via deep learning.pdf (7.28 MB) Reduced fire severity offers near-term buffer to climate-driven declines in conifer resilience across the western United States. PNAS. 2023;120(11). pnas.2208120120.pdf (5.12 MB)
pnas.2208120120.pdf (5.12 MB) Refuge-yeah or refuge-nah? Predicting locations of forest resistance and recruitment in a fiery world. Global Change Biology. 2023.
Refuge-yeah or refuge-nah? Predicting locations of forest resistance and recruitment in a fiery world. Global Change Biology. 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) 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) 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) Actionable social science can guide community level wildfire solutions. An illustration from North Central Washington, US. International Journal of Disaster Risk Reduction. 2022;82. 1-s2.0-S2212420922006070-main.pdf (2.48 MB)
1-s2.0-S2212420922006070-main.pdf (2.48 MB) Augmentation of WRF-Hydro to simulate overland-flow- and streamflow-generated debris flow susceptibility in burn scars. Natural Hazards and Earth System Sciences. 2022;22:2317–2345. Li et al_2022_NatHazards_Augmentation of WRF Hydro to simulate debris flow susceptibility in burn scars.pdf (1.36 MB)
Li et al_2022_NatHazards_Augmentation of WRF Hydro to simulate debris flow susceptibility in burn scars.pdf (1.36 MB) Cascadia Burning: The historic, but not historically unprecedented, 2020 wildfires in the Pacific Northwest, USA. Ecosphere. 2022;13. Reilly et al_2022_Cascadia Burning_Historic but not historically unprecedented 2022 wildfires in PNW.pdf (9.62 MB)
Reilly et al_2022_Cascadia Burning_Historic but not historically unprecedented 2022 wildfires in PNW.pdf (9.62 MB) Comparing two methods to measure oxidative pyrolysis gases in a wind tunnel and in prescribed burns. International Journal of Wildland Fire. 2022;32. Available at: https://www.publish.csiro.au/wf/pdf/WF22079. Comparing two methods to measure oxidative pyrolysis gases in a wind tunnel and in prescribed burns.pdf (2.65 MB)
Comparing two methods to measure oxidative pyrolysis gases in a wind tunnel and in prescribed burns.pdf (2.65 MB) The complexity of biological disturbance agents, fuels heterogeneity, and fire in coniferous forests of the western United States. Forest Ecology and Management. 2022;525. Shaw et al_2022_ForEcolMgmt_Complexity of BDAs fuels heterogenity and fire in conifer forests of West US.pdf (1.25 MB)
Shaw et al_2022_ForEcolMgmt_Complexity of BDAs fuels heterogenity and fire in conifer forests of West US.pdf (1.25 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 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) Converging and diverging burn rates in North American boreal forests from the Little Ice Age to the present. International Journal of Wildland Fire. 2022;31(12):1184-1193. Chavardes et al 2022_IJWF_Converging and diverging burn rates in N American boreal forests from little ice age to present.pdf (2.54 MB)
Chavardes et al 2022_IJWF_Converging and diverging burn rates in N American boreal forests from little ice age to present.pdf (2.54 MB) 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) Exposures and behavioural responses to wildfire smoke. Nature Human Behavior. 2022. Burke et al_2022_Nature Human Behavior_Exposures and behavioural responses to wildfire smoke.pdf (8.57 MB)
Burke et al_2022_Nature Human Behavior_Exposures and behavioural responses to wildfire smoke.pdf (8.57 MB) Exposures and behavioural responses to wildfire smoke. Nature Human Behavior. 2022. Burke et al_2022_Nature Human Behavior_Exposures and behavioural responses to wildfire smoke.pdf (8.57 MB)
Burke et al_2022_Nature Human Behavior_Exposures and behavioural responses to wildfire smoke.pdf (8.57 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) Growing impact of wildfire on western US water supply. PNAS. 2022;119(10). Available at: https://www.pnas.org/doi/full/10.1073/pnas.2114069119. pnas.2114069119.pdf (2.09 MB)
pnas.2114069119.pdf (2.09 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)
