Publications Library

Found 1154 results
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A
Raphael MG. Assessing the Compatibility of Fuel Treatments, Wildfire Risk, and Conservation of Northern Spotted Owl Habitats and Populations in the Eastern Cascades: A Multi-Scale Analysis.; 2014. Available at: http://www.firescience.gov/projects/09-1-08-31/project/09-1-08-31_final_report.pdf.
Anon. Assessing the compatability of fuel treatments, wildfire risk, and conservation of Northern spotted owl habitats and populations in the eastern Cascades: A multi-scale analysis.; 2013.PDF icon Veg-fire-owl final report.pdf (1.52 MB)
Fischer PA, Paveglio T, Carroll M, Murphy D, Brenkert-Smith H. Assessing social vulnerability to climate change in human communities near public forests and grasslands: A framework for resource managers and planners. Journal of Forestry. 2013;111(5):9.PDF icon s10.pdf (229.56 KB)
Schweizer DW. Assessing relative differences in smoke exposure from prescribed, managed, and full suppression wildland fire Preisler HK, ed. Air Quality, Atmosphere & Health . 2019;12(1).
Halofsky JE, Hemstrom MA, Conklin DR, et al. Assessing potential climate change effects on vegetation using a linked model approach. Ecological Modelling. 2013;266:12.
Masri S, Shenoi EAnne, Garfin DRose, Wu J. Assessing Perception of Wildfires and Related Impacts among Adult Residents of Southern California. International Journal of Environmental Research and Public Health. 2023;20(1).PDF icon Assessing Perception of Wildfires and Related Impacts among Adult Residents of Southern California.pdf (1.84 MB)
Vaillant NM. Assessing Landscape Vulnerability to Wildfire in the USA Kolden CA, ed. Current Forestry Reports. 2016;2(3).
Wimberly MC, Cochrane MA, Baer AD, Pabst K. Assessing fuel treatment effectiveness using satellite imagery and spatial statistics. Ecological Applications. 2009;19(6):8. Available at: http://www.esajournals.org/doi/pdf/10.1890/08-1685.1.
Assessing Fuel Treatment Effectiveness After the Tripod Complex Fires. Joint Fire Science Program; 2011:6. Available at: http://www.firescience.gov/projects/briefs/07-1-2-13_FSBrief135.pdf.
Hummel S, Kennedy M, Steel AE. Assessing forest vegetation and fire simulation model performance after the Cold Springs wildfire, Washington, USA. Forest Ecology and Management. 2013;287:12. Available at: http://dx.dol.org/l 0.1 016/j.foreco.2012.08.031.
Henne PD, Hawbaker TJ. An aridity threshold model of fire sizes and annual area burned in extensively forested ecoregions of the western USA. Ecological Modelling. 2023;477.PDF icon An aridity threshold model of fire sizes and annual area burned in extensively forested ecoregions of the western USA .pdf (904.84 KB)
Odion DC. Areas of Agreement and Disagreement Regarding Ponderosa Pine and Mixed Conifer Forest Fire Regimes: A Dialogue with Stevens et al. Hanson CT, ed. PLOS One. 2016;11(5).
Hart SJ. Area burned in the western United States is unaffected by recent mountain pine beetle outbreaks Schoennagel T, ed. Proceedings of the National Academy of Sciences . 2015;Online early.
Baker WL. Are high-severity fires burning at much higher rates recently than historically in dry-forest landscapes of the Western USA. PLOS ONE. 2015;10(9).
Vaillant NM, Ager AA, Anderson J. ArcFuels10 System Overview. Portland, OR: USFS Pacific Northwest Research Station; 2013:72. Available at: http://www.fs.fed.us/pnw/pubs/pnw_gtr875.pdf?utm_source=Northwest+Fire+Science+Consortium&utm_campaign=a68afc7c28-Weekly_digest_10_1_copy_02_9_28_2012&utm_medium=email.
ArcFuels: Integrating Wildfire Models and Risk Analysis into Landscape Fuels Management. Joint Fire Science Program; 2009:11. Available at: http://www.firescience.gov/projects/briefs/03-4-1-04_FSBrief43.pdf.
Cheng L, Booker FL, Tu C, et al. Arbuscular Mycorrhizal Fungi Increase Organic Carbon Decomposition Under Elevated CO2. Science. 2012;337(6098):4. Available at: http://www.sciencemag.org/content/337/6098/1084.
Rorig M, Solomon R, Krull C, et al. Analysis of Meteorological Conditions for the Yakima Smoke Intrusion Case Study, 28 September 2009. USDA Forest Service, Pacific Northwest Research Station; 2013. Available at: http://www.fs.fed.us/pnw/pubs/pnw_rp597.pdf.PDF icon pnw_rp597.pdf (2.48 MB)
Foundation NF. American Voters' Views of Wildfires.; 2013.PDF icon NFF Poll Fire.pdf (346.96 KB)
Collins BM. Alternative characterization of forest fire regimes: incorporating spatial patterns Stevens JT, ed. Landscape Ecology. 2017.
Creech MN, Kirkman K, Morris LA. Alteration and Recovery of Slash Pile Burn Sites in the Restoration of a Fire-Maintained Ecosystem. Restoration Ecology. 2012;20:12. Available at: http://onlinelibrary.wiley.com/doi/10.1111/j.1526-100X.2011.00780.x/full.
Houtman R, Montgomery C, Gagnon A, et al. Allowing a wildfire to burn: estimating the effect on future suppression costs. International Journal of Wildland Fire. 2013;On line early.
Charnley S. All Lands Approaches to Fire Management in the Pacific West: A Typology Kelly EC, ed. Journal of Forestry. 2017;115(1).
Long JW. Aligning Smoke Management with Ecological and Public Health Goals Tarnay LW, ed. Journal of Forestry. 2017;115.
Quaempts EJ. Aligning environmental management with ecosystem resilience: a First Foods example from the Confederated Tribes of the Umatilla Indian Reservation, Oregon, USA Jones KL, O'Daniel SJ, eds. Ecology and Society. 2018;23(2).

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