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Agriculture USDepartment. Smoke in a New Era of Fire. Portland, OR: U.S. Department of Agriculture, PNW Station; 2017:16.PDF icon smoke science-update-24-1.pdf (2.96 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)
J. al. Bet. NWCG Smoke Management Guide for Prescribed Fire. National Wildfire Coordinating Group; 2018:306. Available at: https://www.nwcg.gov/publications/420-2.
Alba C. Native and exotic plant species respond differently to wildfire and prescribed fire as revealed by meta-analysis Skálová H, ed. Journal of Vegetation Science. 2015;26(1).
Alexander ME, Cruz MG, Vaillant NM, Peterson DL. Crown fire behavior characteristics and prediction in conifer forests: a state-of-knowledge synthesis.; 2013:39. Available at: https://www.firescience.gov/projects/09-S-03-1/project/09-S-03-1_final_report.pdf.
Alexandre PM. Rebuilding and new housing development after wildfire Mockrin MH, ed. International Journal of Wildland Fire. 2015;24. Available at: http://www.treesearch.fs.fed.us/pubs/47735.
Allen I. Fire and Forest Management in Montane Forests of the Northwestern States and California, USA Chhin S, ed. Fire. 2019;2(2).
Alvarez-Ruiz L, Pausas JG, Blumstein DT, Putman BJ. Lizards' response to the sound of fire is modified by fire history. Animal Behaviour. 2023;196:91-102.PDF icon 1-s2.0-S0003347222003207-main.pdf (1.46 MB)
Anderegg WRL. Tree mortality from drought, insects, and their interactions in a changing climate Hicke JA, ed. New Phytologist. 2015.
Anderegg WRL, Chegwidden OS, Badgley G, et al. Future climate risks from stress, insects and fire across US forests. Ecology letters. 2022;25:1510–1520.PDF icon Anderegg et al_2022_Future climate risks from stress, insects, and fire across US forests.pdf (3.12 MB)
Andrews PL. Current status and future needs of the BehavePlus fire modeling system. International Journal of Wildland Fire. 2013;On-line early.
Andrews PL, Cruz MG, Rothermel RC. Examination of the wind speed limit function in the Rothermel surface fire spread model. International Journal of Wildland Fire. 2013;On-line early.
Andrus RA. Fire severity in southwestern Colorado unaffected by spruce beetle outbreak Veblen TT, ed. Ecological Applications. 2015;In Press.
Arispe SA, Johnson DD, Wollstein KL, et al. Strategic Partnerships to Leverage Small Wins for Fine Fuels Management. Rangeland Ecology & Management. 2022;85.PDF icon 1-s2.0-S1550742422000884-main.pdf (1.92 MB)
Arkle RS. Prescribed fires as ecological surrogates for wildfires: A stream and riparian perspective Pilliod DS, ed. Forest Ecology and Management. 2010;259.
Arkle RS, Pilliod DS, Welty JL. Pattern and process of prescribed fires influence effectiveness at reducing wildfire severity in dry coniferous forests. Forest Ecology and Management. 2012;276:11.
Armatas CA. Opportunities to utilize traditional phenological knowledge to support adaptive management of social-ecological systems vulnerable to changes in climate and fire regimes Venn TJ, ed. Ecology and Society. 2016;21(1).
Ash A, Thornton P, Stokes C, Togtohyn C. Is Proactive Adaptation to Climate Change Necessary in Grazed Rangelands?. Rangeland Ecology and Management. 2012;65(6):6. Available at: http://www.srmjournals.org/doi/pdf/10.2111/REM-D-11-00191.1.
Association WGovernors'. Special Report: Western Governors' National Forest and Rangeland Management Initiative. Denver: Western Governors' Association; 2017:32p.PDF icon 2017_NFRMI_Report_for_Web.pdf (1.68 MB)
Aurell J. Emissions from prescribed burning of timber slash piles in Oregon Gullett BK, ed. Atmospheric Environment. 2017;150.
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B.W.Butler . Wildland firefighter safety zones: a review of past science and summary of future needs. International Journal of Wildland Fire. 2014;23(3).
Bacciu V, Sirca C, Spano D. Towards a systemic approach to fire risk management. Environmental Science and Policy. 2022;129:37-44.PDF icon Bacciu et al_2022_Towards a systemic approach to fire risk management.pdf (1.11 MB)
Baig J, Gavin DG. Postglacial vegetation and fire history with a high-resolution analysis of tephra impacts, High Cascade Range, Oregon, USA. Quaternary Science Reviews. 2023;303. Available at: https://www.sciencedirect.com/science/article/abs/pii/S0277379123000185?via%3Dihub.
Baker WL. Historical northern spotted owl habitat and old-growth dry forests maintained by mixed-severity wildfires. Landscape Ecology. 2015;30(4).
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).

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