Publications Library
. How does tree regeneration respond to mixed‐severity fire in the western Oregon Cascades, USA? Ecosphere. 2020;11(1).
Joint Fire Science Program 2019 Progress Report.; 2020.
FINAL_JFSP2019ProgressReport_092120.pdf (8.31 MB)
FINAL_JFSP2019ProgressReport_092120.pdf (8.31 MB). Riparian and adjacent upland forests burned synchronously during dry years in eastern Oregon (1650-1900 CE), USA. International Journal of Wildland Fire. 2020;29(7).
. 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.
Evidence for widespread changes in the structure, composition, and fire regimes of western North American forests. Ecological Applications. 2021. eap.2431.pdf (9.22 MB)
eap.2431.pdf (9.22 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 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) 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). A framework for quantifying forest wildfire hazard and fuel treatment effectiveness from stands to landscapes. Fire Ecology. 2022;18(33). Hood et al_2022_FireEcol_A framework for quantifying forest wildfire hazard and fuel treatment effectiveness from stands to landscapes.pdf (1.84 MB)
Hood et al_2022_FireEcol_A framework for quantifying forest wildfire hazard and fuel treatment effectiveness from stands to landscapes.pdf (1.84 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). Lifestyle and environmental factors may induce airway and systemic inflammation in firefighters. Environmental Science and Pollution Research. 2022;29:73741–73768. Orysiak et al_2022_EnviroScieneandPollResearch_Lifestyle and enviro factors may induce airway and systemic inflammation in firefighters.pdf (1.3 MB)
Orysiak et al_2022_EnviroScieneandPollResearch_Lifestyle and enviro factors may induce airway and systemic inflammation in firefighters.pdf (1.3 MB). More smoke today for less smoke tomorrow? We need to better understand the public health benefits and costs of prescribed fire. International Journal of Wildland Fire. 2022;31(10):918–926. Jones et al_2022_IJWF_More smoke today for less smoke tomorrow_We need to better understand public health benefits and costs of rx fire.pdf (2.41 MB)
Jones et al_2022_IJWF_More smoke today for less smoke tomorrow_We need to better understand public health benefits and costs of rx fire.pdf (2.41 MB) Post-fire landscape evaluations in Eastern Washington, USA: Assessing the work of contemporary wildfires. Forest Ecology and Management. 2022;504(2022). Churchill et al 2022 (assessing the work of contemporary wildfires).pdf (12.39 MB)
Churchill et al 2022 (assessing the work of contemporary wildfires).pdf (12.39 MB). Pyrogenic carbon decomposition critical to resolving fire’s role in the Earth system. Nature Geoscience. 2022;15:135–142. Bowring et al_2022_Pyrogenic Carbon in the Earth System.pdf (2.11 MB)
Bowring et al_2022_Pyrogenic Carbon in the Earth System.pdf (2.11 MB) Rapid Growth of Large Forest Fires Drives the Exponential Response of Annual Forest-Fire Area to Aridity in the Western United States. Geophysical Research Letters. 2022;49. Juang et al_2022_Rapid growth of large forest fires drives exponential response of annual forest-fire area to aridity in western US.pdf (1.25 MB)
Juang et al_2022_Rapid growth of large forest fires drives exponential response of annual forest-fire area to aridity in western US.pdf (1.25 MB). Restoration and fuel hazard reduction result in equivalent reductions in crown fire behavior in dry conifer forests. Ecological Applications. 2022;e2682. Ecological Applications - 2022 - Ritter - Restoration and fuel hazard reduction result in equivalent reductions in crown.pdf (1.98 MB)
Ecological Applications - 2022 - Ritter - Restoration and fuel hazard reduction result in equivalent reductions in crown.pdf (1.98 MB). Sand and fire: applying the sandpile model of self-organised criticality to wildfire mitigation. International Journal of Wildland Fire. 2022;Online. Gang et al_2022_IJWF_Sand and Fire_applying sandpile model of self organised criticality to wildfire mitigation.pdf (3.56 MB)
Gang et al_2022_IJWF_Sand and Fire_applying sandpile model of self organised criticality to wildfire mitigation.pdf (3.56 MB) Strategic Partnerships to Leverage Small Wins for Fine Fuels Management. Rangeland Ecology & Management. 2022;85. 1-s2.0-S1550742422000884-main.pdf (1.92 MB)
1-s2.0-S1550742422000884-main.pdf (1.92 MB) Strategic Partnerships to Leverage Small Wins for Fine Fuels Management. Rangeland Ecology & Management. 2022;85. 1-s2.0-S1550742422000884-main.pdf (1.92 MB)
1-s2.0-S1550742422000884-main.pdf (1.92 MB). A systematic review of empirical evidence for landscape-level fuel treatment effectiveness. Fire Ecology. 2022;18(21). McKinney et al_2022_FireEcol_A systematic review of empirical evidence for landscape-level fuel treatment effectiveness.pdf (2.22 MB)
McKinney et al_2022_FireEcol_A systematic review of empirical evidence for landscape-level fuel treatment effectiveness.pdf (2.22 MB) Using Structure Location Data to Map theWildland–Urban Interface in Montana, USA. Fire. 2022;5(129). Ketchpaw et al_2022_Fire_Using location data to map the WUI in Montana USA.pdf (9.11 MB)
Ketchpaw et al_2022_Fire_Using location data to map the WUI in Montana USA.pdf (9.11 MB) Warming weakens the night-time barrier to global fire. Nature. 2022;602(Online). Balch et al_2022_Warming weakens the night-time barrier to global fire.pdf (3.32 MB)
Balch et al_2022_Warming weakens the night-time barrier to global fire.pdf (3.32 MB) What do you mean, ‘megafire’?. Global Ecology and Biogeography . 2022;31:1906–1922. Linley et al_2022_Global ecol and biogeog_What do you mean Megafire.pdf (3.72 MB)
Linley et al_2022_Global ecol and biogeog_What do you mean Megafire.pdf (3.72 MB) What do you mean, ‘megafire’?. Global Ecology and Biogeography . 2022;31:1906–1922. Linley et al_2022_Global ecol and biogeog_What do you mean Megafire.pdf (3.72 MB)
Linley et al_2022_Global ecol and biogeog_What do you mean Megafire.pdf (3.72 MB)
