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Lesmeister DB. Mixed-severity wildfire and habitat of an old-forest obligate .G.Sovern S, ed. Ecosphere. 2019;e02696.
Ganio LM. Mortality predictions of fire-injured large Douglas-fir and ponderosa pine in Oregon and Washington, USA Progar RA, ed. Forest Ecology and Management. 2017;390.
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Owen SM, Sieg CH, Fulé PZ, et al. Persistent effects of fire severity on ponderosa pine regeneration niches and seedling growth. Forest Ecology and Management. 2020;477.PDF icon rmrs_2020_owen_s001.pdf (2.07 MB)
Gleim ER. The Phenology of Ticks and the Effects of Long-Term Prescribed Burning on Tick Population Dynamics in Southwestern Georgia and Northwestern Florida L Conner M, ed. PLOS ONE. 2015;9(11).
Diamond SE, Nichols LM, McCoy N, et al. A physiological trait-based approach to predicting the responses of species to experimental climate warming. Ecology. 2012;93:8. Available at: http://www.esajournals.org/doi/pdf/10.1890/11-2296.1.
Hubbert KR. Pile Burning Effects on Soil Water Repellency, Infiltration, and Downslope Water Chemistry in the Lake Tahoe Basin, USA Busse M, ed. Fire Ecology. 2015;11(2).
Jetter AJ. Policy Scenarios for fire-adapted communities: Understanding stakeholder risk-perceptions, using Fuzzy Cognitive Maps. (Gray SA, ed.).; 2017.PDF icon JFSP_final_report_Fuzzy_cognitive_maps_Stakeholder_Perspectives (1).pdf (658.79 KB)
Dwire KA. Potential effects of climate change on riparian areas, wetlands, and groundwater-dependent ecosystems in the Blue Mountains, Oregon, USA Mellmann-Brown S, ed. Climate Services. 2018;10.
Shindler B, Gordon R. A Practical Guide To Citizen-Agency Partnerships: Public Outreach Strategies for Fire and Fuel Management. Corvallis, OR: Oregon State University; 2005.PDF icon Public outreach strategies for fire and fuel reduction.pdf (552.67 KB)
Grayson LM. Predicting post-fire tree mortality for 14 conifers in the Pacific Northwest, USA: Model evaluation, development, and thresholds Progar RA, ed. Forest Ecology and Management. 2017;399(213).
S. Greiner M, Schultz CA, Kooistra C. Pre-season fire management planning: the use of Potential Operational Delineations to prepare for wildland fire events. International Journal of Wildland Fire. 2020;On-line early.
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Jones BM. Recent Arctic tundra fire initiates widespread thermokarst development. (Grosse G, ed.).; 2015.
Riley KL, Abatzoglou JT, Grenfell IC, Klene AE, Heinsch FA. The relationship of large fire occurrence with drought and fire danger indices in the western USA, 1984-2008: the role of temporal scale. International Journal of Wildland Fire. 2013.
Hyde K, Dickinson MB, Bohrer G, et al. Research and development supporting risk-based wildfire effects prediction for fuels and fire management: status and needs. International Journal of Wildland Fire. 2012.
Hessburg PF. Restoring fire-prone Inland Pacific landscapes: seven core principles Churchill DJ, ed. Landscape Ecology. 2015;Online .
Hakes RSP. A Review of Pathways for Building Fire Spread in the Wildland Urban Interface Part II: Response of Components and Systems and Mitigation Strategies in the United States Caton SE, ed. Fire Technology. 2017;53(2).
Hakes RSP. A Review of Pathways for Building Fire Spread in the Wildland Urban Interface Part II: Response of Components and Systems and Mitigation Strategies in the United States Caton SE, ed. Fire Technology. 2017;53(2).
Temesgen H. A review of the challenges and opportunities in estimating above ground forest biomass using tree-level models Affleck D, ed. Scandinavian Journal of Forest Research. 2015;30(4). Available at: http://www.treesearch.fs.fed.us/pubs/49620.
Finney MA. Role of buoyant flame dynamics in wildfire spread Cohen JD, ed. PNAS. 2015;Early Edition.
Finney MA. Role of buoyant flame dynamics in wildfire spread Cohen JD, ed. PNAS. 2015;Early Edition.

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