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Churchill DJ. The ICO Approach to Quantifying and Restoring Forest Spatial Pattern: Implementation Guide. Version 3.0. (Jeronimo SMA, ed.). Vashon: Stewardship Forestry and Science, Vashon, Washington, USA.; 2016.PDF icon ICO-Manager-Guide-version-3-1.pdf (6.1 MB)
Kerns BK. The importance of disturbance by fire and other abiotic and biotic factors in driving cheatgrass invasion varies based on invasion stage Day MA, ed. Biological Invasions. 2017;19(6).
Mann ML, Batllori E, Moritz MA, et al. Incorporating Anthropogenic Influences into Fire Probability Models: Effects of Human Activity and Climate Change on Fire Activity in California. PLOS One. 2016.
Cannon JB. The influence of experimental wind disturbance on forest fuels and fire characteristics O'Brien JJ, ed. Forest Ecology and Management. 2014;330. Available at:
Johnston JD. Influence of fire disturbance and biophysical heterogeneity on pre-settlement ponderosa pine and mixed conifer forests Bailey JD, ed. Ecosphere. 2016;7(11).
Pingree MRA. The influence of fire history on soil nutrients and vegetation cover in mixed-severity fire regime forests of the eastern Olympic Peninsula, Washington, USA DeLuca TH, ed. Forest Ecology and Management. 2018;422.
Downing WM. Influence of fire refugia spatial pattern on post-fire forest recovery in Oregon’s Blue Mountains Krawchuk MA, ed. Landscape Ecology. 2019. Available at:
Schoennagel TL. Insights from wildfire science: a resource for fire policy discussions. (Morgan P, ed.).; 2016:9 p. Available at:
Drury SA. The interagency fuels treatment decision support system: Functionality for fuels treatment planning Rauscher M, ed. Fire Ecology. 2016;12(1). Available at:
Kerns BK. Invasive grasses: A new perfect storm for forested ecosystems? Tortorelli C, ed. Forest Ecology and Management. 2020;463.
Davies KW, Bates JD, Boyd CS, Nafus AM. Is fire exclusion in mountain big sagebrush communities prudent? Soil nutrient, plant diversity and arthropod response to burning. International Journal of Wildland Fire. 2014;23(3).
Dickinson Y. Landscape restoration of a forest with a historically mixed-severity fire regime: What was the historical landscape pattern of forest and openings?. Forest Ecology and Management. 2014;331.PDF icon FEM-HRV.pdf (934.26 KB)
Davis EJ. Landscapes 101: Understanding Landscape Approaches to Forest Restoration and Management.; 2018:3.PDF icon Go Big or Go Home Brief 1final.pdf (2.06 MB)
Larson AJ, Belote TR, Cansler AC, Parks SA, Dietz MS. Latent resilience in ponderosa pine forest: effects of resumed frequent fire. Ecological Applications. 2013;23(6):7.PDF icon latent resilience in p pine.pdf (13.78 MB)
Campbell MJ. A LiDAR-based analysis of the effects of slope, vegetation density, and ground surface roughness on travel rates for wildland firefighter escape route mapping Dennison PE, ed. International Journal of Wildland Fire. 2017;Online early.
Champ PA, Donovan GH, Barth CM. Living in a tinderbox: wildfire risk perceptions and mitigating behaviors. International Journal of Wildland Fire. 2013;On-line early.
Brenkert-Smith H, Chambers C, Gibble K, et al. Living with wildfire in Ashland, Oregon: 2020 Data Report. USDA Forest Service, Rocky Mountian Research Station; 2020. Available at: icon rmrs_rn088.pdf (11.76 MB)
Diaz JM. Local Ecological Knowledge and Fire Management: What Does the Public Understand? Steelman T, ed. Journal of Forestry. 2015;113.PDF icon LocalEcologicalKnowledge.pdf (187.57 KB)
Pingree MRA, Homann PS, Morrissette B, Darbyshire R. Long and Short-Term Effects of Fire on Soil Charcoal of a Conifer Forest in Southwest Oregon. Forests. 2012;2012(3):17. Available at:


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