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Heinsch FA. How to generate and interpret fire characteristics charts for the U.S. fire danger rating system. (Andrews PL, ed.). Fort Collins: Department of Agriculture, Forest Service, Rocky Mountain Research Station; 2017:62 p. Available at: https://www.fs.usda.gov/treesearch/pubs/54597.
Heil LJ. Recent post-wildfire salvage logging benefits local and landscape floral and bee communities Burkle LA, ed. Forest Ecology and Management. 2018;424.
He T. A 350-million-year legacy of fire adaptation among conifers Belcher CM, ed. Journal of Ecology. 2016;104(2).
Haynes H. NFPA’s Wildland/Urban Interface: Fire Department Wildfire Preparedness and Readiness Capabilities – Final Report. (Madsen R, ed.). National Fire Protection Association; 2017:79p. Available at: http://www.nfpa.org/news-and-research/fire-statistics-and-reports/fire-statistics/the-fire-service/administration/wildland-urban-interface.
Haugo R. A new approach to evaluate forest structure restoration needs across Oregon and Washington Zanger C, ed. Forest Ecology and Management. 2015;335. Available at: http://www.sciencedirect.com/science/article/pii/S0378112714005519.
Haugo RD. The missing fire: quantifying human exclusion of wildfire in Pacific Northwest forests, USA Kellogg BS, ed. Ecosphere. 2019;10(4).
Haskell C. Fire Science Exchange Network.; 2017.PDF icon FINAL_FSEN_Factsheet-072017.pdf (1.76 MB)
Harvey BJ. Fire severity and tree regeneration following bark beetle outbreaks: the role of outbreak stage and burning conditions Donato DC, ed. Ecological Applications. 2014;24.
Harvey BJ. Recent mountain pine beetle outbreaks, wildfire severity, and postfire tree regeneration in the US Northern Rockies Donato DC, ed. PNAS. 2014;111(42).
Hartter J. Modelling Associations between Public Understanding, Engagement and Forest Conditions in the Inland Northwest, USA Stevens FR, ed. PLOS ONE. 2015;10(2).
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.
Hart BTN. Recovery of ectomycorrhizal fungus communities fifteen years after fuels reduction treatments in ponderosa pine forests of the Blue Mountains, Oregon Smith JE, ed. Forest Ecology and Management. 2018;422.
Harris L. Topography, fuels, and fire exclusion drive fire severity of the Rim Fire in an old-growth mixed-conifer forest, Yosemite National Park, USA Taylor AH, ed. Ecosystems. 2015.
Harris L. Previous burns and topography limit and reinforce fire severity in a large wildfire Taylor AH, ed. Ecosphere. 2017;8(11).
Harrington CA. A Tale of Two Cedars: International Symposium on Western Redcedar and Yellow-Cedar. Portland, OR: US Department of Agriculture, Forest Service, Pacific Northwest Research Station; 2010:177. Available at: http://www.fs.fed.us/pnw/pubs/pnw_gtr828.pdf.
Harley GL. Advancing Dendrochronological Studies of Fire in the United States Baisan CH, ed. Fire. 2018;1(1).
Harley GL, Heyerdahl EK, Johnston JD, Olson DL. Riparian and adjacent upland forests burned synchronously during dry years in eastern Oregon (1650-1900 CE), USA. International Journal of Wildland Fire. 2020;29(7).
Hanson CT. Postfire woodpecker foraging in salvage-logged and unlogged forests of the Sierra Nevada North MP, ed. The Condor. 2008;110(4).
Hansen WD. It takes a few to tango: changing climate and fire regimes can cause regeneration failure of two subalpine conifers Braziunas KH, ed. Ecology. 2018;99(4). Available at: https://www.ncbi.nlm.nih.gov/pubmed/29464688.
Hand M. The influence of incident management teams on the deployment of wildfire suppression resources Katuwal H, ed. International Journal of Wildland Fire. 2017;26(7).
Hamilton M. Using mental models to understand trade-offs in wildfire risk mitigation.; 2019:3.PDF icon Research brief - Using mental models to understand trade-offs in wildfire risk mitigation (002).pdf (191.4 KB)
Hamilton LC. Wildfire, climate, and perceptions in Northeast Oregon Hartter J, ed. Regional Environmental Change. 2016;16(6).
Hamilton M, Salerno J, Fischer APaige. Cognition of feedback loops in a fire-prone social-ecological system. Global Environmental Change. 2022;74.PDF icon Hamilton et al 2022_Cognition of feedback loops in fire-prone social-ecol system.pdf (2.78 MB)
Hamilton BAllen. 2014 Quadrennial Fire Review Final Report.; 2015:1-96. Available at: http://www.forestsandrangelands.gov/QFR/documents/2014QFRFinalReport.pdf.
Halpern CB. Past tree influence and prescribed fire mediate biotic interactions and community reassembly in a grassland-restoration experiment Antos JA, ed. Journal of Applied Ecology. 2016;53(1). Available at: https://www.treesearch.fs.fed.us/pubs/52564.

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