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C
. A Century of Wildland Fire Research - Contributions to Long-term Approaches for Wildland Fire Management: Proceedings of a Workshop. Washington, D.C.: The National Academies Press; 2017:108 p.
Morgan P. Challenges of assessing fire and burn severity using field measures, remote sensing and modelling Keane RE, ed. International Journal of Wildland Fire. 2014;23. Available at: http://dx.doi.org/10.1071/WF13058.
Azuma D, Thompson J, Weyermann D. Changes in development near public forest lands in Oregon and Washington, 1974-2005: Implications for management.; 2013.PDF icon pnw_rp596.pdf (1.27 MB)
Airey-Lauvaux C, Pierce AD, Skinner CN, Taylor AH. 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.PDF icon 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)
Switzer JM, Hope GD, Grayston SJ, Prescott CE. Changes in Soil Chemical and Biological Properties After Thinning and Prescribed Fire for Ecosystem Restoration in a Rocky Mountain Douglas Fir Forest. Forest Ecology and Management. 2012;275:13. Available at: http://www.sciencedirect.com/science/article/pii/S0378112712001016.
Reed SC, Coe KK, Sparks JP, et al. Changes to Dryland Rainfall Result in Rapid Moss Mortality and Altered Soil Fertility. Nature Climate Change. 2012;2(10):4.
Johnstone JF. Changing disturbance regimes, ecological memory, and forest resilience Allen CD, ed. Frontiers in Ecology and the Environment. 2016;14(7).
Halofsky JE. Changing wildfire, changing forests: the effects of climate change on fire regimes and vegetation in the Pacific Northwest, USA Peterson DL, ed. Fire Ecology. 2020;16(4). Available at: https://link.springer.com/article/10.1186/s42408-019-0062-8.
Katuwal H. Characterising resource use and potential inefficiencies during large-fire suppression in the western US Dunn CJ, ed. International Journal of Wildland Fire. 2017;26(7).
Neger C, Rosas-Paz LDaniel. A Characterization of Fire-Management Research: A Bibliometric Review of Global Networks and Themes. Fire. 2022;5(89).PDF icon Neger and Rosas-Paz_2022_Characterization of Fire-Management Research_A bibliometric review of global networks and themes.pdf (6.02 MB)
Teske CC, Seielstad CA, Queen LP. Characterizing Fire-on-Fire Interactions in Three Large Wilderness Areas. Fire Ecology. 2012;8(2):25. Available at: http://fireecology.org/docs/Journal/pdf/Volume08/Issue02/082.pdf.
Wells G. Cheating Cheatgrass: New research to combat a wily invasive weed.; 2012. Available at: http://www.firescience.gov/Digest/FSdigest13.pdf.
Fitzgerald SA. Citizen Fire Academy: Curriculum Package for Facilitators and Educators. (Baylog K, ed.). Corvallis, OR: OSU Extension Service; 2017:154 p. Available at: https://catalog.extension.oregonstate.edu/em9168.
Olsen C, Shindler B. Citizen-Agency Interactions in Planning and Decisionmaking After Large Fires. 2007.PDF icon Decision-making after the fire.pdf (773.13 KB)
Page WG. A Classification of US Wildland Firefighter Entrapments Based on Coincident Fuels, Weather, and Topography Freeborn PH, ed. Fire. 2019;2(4).
Barker JS. Clearcutting and high severity wildfire have comparable effects on growth of direct-seeded interior Douglas-fir Simard SW, ed. Forest Ecology and Management. 2014;331.PDF icon FEM-DirectSeeding.pdf (535.28 KB)
Lueck D. Clearning the smoke from wildfire policy: An economic perspective. (Yoder J, ed.). Bozeman, MT: PERC; 2016:48 p.PDF icon PS-56-WEB final-1.pdf (3.71 MB)
Stavros NE, Abatzoglou J, larkin NK, McKenzie D, Steel AE. Climate and very large wildland fires in the contiguous western USA. International Journal of Wildland Fire. 2014;23.PDF icon WF13169.pdf (1.43 MB)
Preisler HK, Hicke JA, Ager AA, Hayes JL. Climate and Weather Influences on Spatial Temporal Patterns of Mountain Pine Beetle Populations in Washington and Oregon. Ecology. 2012;93:14. Available at: http://dx.doi.org/10.1890/11-1412.1.
Moritz MA, Parisien M-A, Batllori E, et al. Climate Change and Disruptions to Global Fire Activity. Ecosphere. 2012;3(6). Available at: http://dx.doi.org/10.1890/ES11-00345.1.
Kent LLYocom. Climate Change and Fire in the Southwest.; 2015. Available at: http://swfireconsortium.org/wp-content/uploads/2015/06/Yocom_Climate_Fire_SW.pdf.
McKenzie D. Climate change and the eco-hydrology of fire: will area burned increase in a warming western USA? Littell JS, ed. Ecological Applications. 2017;27(1).
Falke JA. Climate change and vulnerability of bull trout (Salvelinus confluentus) in a fire-prone landscape Flitcroft RL, ed. Canadian Journal of Fisheries and Aquatic Sciences. 2015;72.
Luce C, Morgan P, Dwire K, et al. Climate Change, Forests, Fire, Water, and Fish: Building Resilient Landscapes, Streams, and Managers. Fort Collins, CO: US Department of Agriculture, Forest Service, Rocky Mountain Research Station; 2012:207. Available at: http://www.fs.fed.us/rm/pubs/rmrs_gtr290.pdf.
Luce C, Morgan P, Dwire K, et al. Climate Change, Forests, Fire, Water, and Fish: Building Resilient Landscapes, Streams, and Managers.; 2012:207. Available at: http://www.firescience.gov/projects/08-2-1-15/project/08-2-1-15_rmrs_gtr290.pdf.

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