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Higuera PE. Integrating Subjective and Objective Dimensions of Resilience in Fire-Prone Landscapes Metcalf AL, ed. BioScience. 2019;69(5).
Hill KC. Prescribed Fire in Grassland Butterfly Habitat: Targeting Weather and Fuel Conditions to Reduce Soil Temperatures and Burn Severity Bakker JD, ed. Fire Ecology. 2017;13(3).
Hoe MS. Multitemporal LiDAR improves estimates of fire severity in forested landscapes Dunn CJ, ed. International Journal of Wildland Fire. 2018;Online early.
Hoffman CM, Morgan P, Mell W, et al. Surface Fire Intensity Influences Simulated Crown Fire Behavior in Lodgepole Pine Forests with Recent Mountain Pine Beetle-Caused Tree Mortality. Forest Science. 2012:12. Available at: http://www.ingentaconnect.com/content/saf/fs/pre-prints/forsci11114;jsessionid=8rs2la9bk089.alice.
Hoffman CM. Evaluating crown fire rate of spread predictions from physics-based models Ziegler J, ed. Fire Technology. 2015. Available at: http://www.treesearch.fs.fed.us/pubs/48875.
Hoffman KM, Christianson ACardinal, Dickson-Hoyle S, et al. The right to burn: barriers and opportunities for Indigenous-led fire stewardship in Canada. FACETS. 2022;7:464–481.PDF icon Hoffman et al_2022_The right to Burn_Barriers and opps for Indgenous-led fire stewardship in Canada.pdf (1.89 MB)
Hoffman CH, al. et. Advancing the Science of Wildland Fire Dynamics Using Process-Based Models Sieg CH, ed. Fire. 2018;1(2).
Hoffman CM. Modeling spatial and temporal dynamics of wind flow and potential fire behavior following a mountain pine beetle outbreak in a lodgepole pine forest Linn R, ed. Agricultural and Forest Meteorology. 2015;204.
Holden ZA. Decreasing fire season precipitation increased recent western US forest wildfire activity Swanson A, ed. PNAS. 2018;115(36).
Holmberg J, Bennett M. Pruning. Corvallis, OR: Oregon State University; 2008:2. Available at: http://extension.oregonstate.edu/catalog/pdf/ec/ec1576-e.pdf.
Holsinger L. Weather, fuels, and topography impede wildland fire spread in western US landscapes Parks SA, ed. Forest Ecology and Management. 2016;380.
Homann PS. Postwildfire soil trajectory linked to prefire ecosystem structure in Douglas-fir forest Bormann BT, ed. Ecosystems. 2015;18(2).
Honig KA, Fule PZ. Simulating effects of climate change and ecological restoration on fire behaviour in a south-western USA ponderosa pine forest. International Journal of Wildland Fire. 2012;21(6):11. Available at: http://www.publish.csiro.au/paper/WF11082.htm.
Hood SM, Varner MJ, Jain TB, Kane JM. A framework for quantifying forest wildfire hazard and fuel treatment effectiveness from stands to landscapes. Fire Ecology. 2022;18(33).PDF icon Hood et al_2022_FireEcol_A framework for quantifying forest wildfire hazard and fuel treatment effectiveness from stands to landscapes.pdf (1.84 MB)
Hood SM. Fire and tree death: understanding and improving modeling of fire-induced tree mortality J Varner M, ed. Environmental Research Letters. 2018;13(11). Available at: http://iopscience.iop.org/article/10.1088/1748-9326/aae934/meta.
Hood S. Low-severity fire increases tree defense against bark beetle attacks Sala A, ed. Ecology. 2015;96.
Hood SM, Johnson MC, Wagenbrenner JW, Saab VA, Dudley JG. Post-fire Salvage Logging Science Series. 2021. Available at: https://www.nrfirescience.org/hot-topics/post-fire-salvage-logging.
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.
Hubbert KR. Pile Burning Effects on Soil Water Repellency, Infiltration, and Downslope Water Chemistry in the Lake Tahoe Basin, USA Busse M, ed. Fire Ecology. 2015;11(2).
Huber CM, Fox DG, Riebau AR. A Compendium of Brief Summaries of Smoke Science Research In Support of the Joint Fire Science Program Smoke Science Plan. Clarkson, Western Australia: Nine Points South Technical Pty Ltd.; 2017:78p.PDF icon Summary Statements Booklet 21 April 2017.pdf (1.59 MB)
Huber-Stearns HR, Santo AR, Schultz CA, McCaffrey SM. Network governance in the use of prescribed fire: roles for bridging organizations and other actors in the Western United States. Regional Environmental Change. 2021;21(118).PDF icon HuberStearns et al_2021_networkgovernance in rx fire.pdf (3.34 MB)
Hudak AT, Ottmar RD, Vihnanek RE, et al. The relationship of post-fire white ash cover to surface fuel consumption. International Journal of Wildland Fire. 2013;on line early.
Hudec JL, Peterson DL. Fuel Variability Following Wildfire in Forests with Mixed Severity Fire Regimes, Cascade Range, USA. Forest Ecology and Management. 2012;277:14. Available at: http://www.sciencedirect.com/science/article/pii/S0378112712002162.
Hudson T. Grazing After the Burn. Washington State University; 2012:3. Available at: http://county.wsu.edu/kittitas/nrs/forestry/Documents/Post-fire%20grazing%20Hudson%202012.pdf.
Huffman MR. Making a World of Difference in Fire and Climate Change. Fire Ecology . 2014;10(3).

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