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2023
Wood J, Varner M. Burn Back Better How Western States Can Encourage Prescribed Fire on Private Lands. PROPERTY AND ENVIRONMENT RESEARCH CENTER & TALL TIMBERS. 2023. Available at: https://perc.org/2023/01/10/burn-back-better/.PDF icon 2023_PERC-BBB-Report-230104-web.pdf (5.77 MB)
Lucash MS, Marshall AM, Weiss SA, et al. Burning trees in frozen soil: Simulating fire, vegetation, soil, and hydrology in the boreal forests of Alaska. Ecological Modelling. 2023;481.
Hawbaker TJ, Henne PD, Vanderhoof MK, et al. Changes in wildfire occurrence and risk to homes from 1990 through 2019 in the Southern Rocky Mountains, USA. Ecosphere. 2023;14(2).PDF icon Ecosphere - 2023 - Hawbaker - Changes in wildfire occurrence and risk to homes from 1990 through 2019 in the Southern Rocky.pdf (4.62 MB)
Wells AG, Munson SM, Villarreal ML, Sesnie SE, Laushman KM. Connecting dryland fine-fuel assessments to wildfire exposure and natural resource values at risk. Fire Ecology. 2023;19. Available at: https://fireecology.springeropen.com/articles/10.1186/s42408-023-00196-1.PDF icon Connecting dryland fine-fuel assessments to wildfire exposure and natural resource values at risk.pdf (13.32 MB)
MacDonald G, Wall T, Enquist CAF, et al. Drivers of California’s changing wildfires: a state-of-the-knowledge synthesis. International Journal of Wildland Fire. 2023.PDF icon Drivers of California’s changing wildfires- a state-of-the-knowledge synthesis.pdf (3.08 MB)
Coble AA, Penaluna BE, Six LJ, Verschuyl J. Fire severity infuences large wood and stream ecosystem responses in western Oregon watersheds. Fire Ecology. 2023;19.PDF icon Fire severity influences large wood and stream ecosystem responses in western Oregon watersheds.pdf (4.43 MB)
Vorster AG, Stevens-Rumann C, Young N, et al. Metrics and Considerations for Evaluating How Forest Treatments Alter Wildfire Behavior and Effects. Journal of Forestry. 2023:1-18.PDF icon Metrics and considerations for eval forest treatments.pdf (1.47 MB)
Vilà-Vilardell L, De Cáceres M, Piqué M, Casals P. Prescribed fire after thinning increased resistance of sub-Mediterranean pine forests to drought events and wildfires. Forest Ecology and Management. 2023;527.
Karasmanaki E, Mallinis G, Mitsopoulos I, et al. Proposing a Governance Model for Environmental Crises. Land. 2023;12(3). Available at: https://www.mdpi.com/2073-445X/12/3/597.PDF icon Proposing a Governance Model for Environmental Crises.pdf (328.05 KB)
Chuvieco E, Yebra M, Martino S, et al. Towards an Integrated Approach to Wildfire Risk Assessment: When, Where, What and How May the Landscapes Burn. Fire. 2023;6.PDF icon fire-06-00215-v2.pdf (9.73 MB)
Chuvieco E, Yebra M, Martino S, et al. Towards an Integrated Approach to Wildfire Risk Assessment: When, Where, What and How May the Landscapes Burn. Fire. 2023;6.PDF icon fire-06-00215-v2.pdf (9.73 MB)
2022
Thompson MP, Vogler KC, Scott JH, Miller C. Comparing risk-based fuel treatment prioritization with alternative strategies for enhancing protection and resource management objectives. Fire Ecology. 2022;18(26).PDF icon s42408-022-00149-0.pdf (3.88 MB)
Vanderhoof MK, Hawbaker TJ, Teske C, Noble J, Smith J. Contemporary (1984–2020) fire history metrics for the conterminous United States and ecoregional differences by land ownership. International Journal of Wildland Fire. 2022;31(12): 1167–1183.PDF icon WF22044.pdf (8 MB)
Jones GM, Vraga EK, Hessburg PF, et al. Counteracting wildfire misinformation. Frontiers in Ecology and the Environment. 2022;20(7):392-390.PDF icon Jones et al_2022_Front in Ecol Env_Counteracting wildfire misinformation.pdf (79.58 KB)
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)
Williams PA, Livneh B, McKinnon KA, et al. Growing impact of wildfire on western US water supply. PNAS. 2022;119(10). Available at: https://www.pnas.org/doi/full/10.1073/pnas.2114069119.PDF icon pnas.2114069119.pdf (2.09 MB)
Vázquez-Varela C, Martínez-Navarro JM, Abad-González L. Traditional Fire Knowledge: A Thematic Synthesis Approach. Fire. 2022;5(2):47.PDF icon Vazquez-Varela et al_2022_Traditional Fire Knowledge-A Thematic Synthesis Approach.pdf (2.65 MB)
2021
Bosher L, Chmutina K, van Niekerk D. Stop going around in circles: towards a reconceptualisation of disaster risk management phases. Disaster Prevention and Management. 2021;30. Available at: https://www.emerald.com/insight/content/doi/10.1108/DPM-03-2021-0071/full/html.PDF icon Bosheretal.2021DPMforIR.pdf (1.11 MB)
2020
Hiers JK, al. et. Prescribed fire science: the case for a refined research agenda O'Brien JJ, ed. Fire Ecology. 2020;16(11). Available at: https://fireecology.springeropen.com/articles/10.1186/s42408-020-0070-8.
2019
Kreitler J. Cost-effective fuel treatment planning: a theoretical justification and case study Thompson MP, ed. International Journal of Wildland Fire. 2019;29(1).
Voelker SL. Fire deficits have increased drought‐sensitivity in dry conifer forests; fire frequency and tree‐ring carbon isotope evidence from Central Oregon Merschel AG, ed. Global Change Biology. 2019.
Lesmeister DB. Mixed-severity wildfire and habitat of an old-forest obligate .G.Sovern S, ed. Ecosphere. 2019;e02696.
Nemens DG. Resilience of Oregon white oak to reintroduction of fire Varner JM, ed. Fire Ecology. 2019;15(29). Available at: https://fireecology.springeropen.com/articles/10.1186/s42408-019-0045-9.
2018
Vaidyanathan A. Developing an online tool for identifying at-risk populations to wildfire smoke hazards Yip F, ed. Science of The Total Environment. 2018;619-620.
Yedinak KM. Embracing Complexity to Advance the Science of Wildland Fire Behavior Strand EK, ed. Fire. 2018;1(2).

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