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2023
Urza AK, Hanberry BB, Jain TB. Landscape‑scale fuel treatment effectiveness: lessons learned from wildland fire case studies in forests of the western United States and Great Lakes region. Fire Ecology. 2023;19(1).PDF icon Urza et al_2023_FireEcol_Landscape‑scale fuel treatment effectiveness- lessons learned from wildland fire case studies in forests of the western United States and Great Lakes region.pdf (1.27 MB)
Braziunas KH, Kiel NG, Turner MG. Less fuel for the next fire? Short-interval fire delays forest recovery and interacting drivers amplify effects. Ecology . 2023.PDF icon Ecology - 2023 - Braziunas - Less fuel for the next fire Short%E2%80%90interval fire delays forest recovery and interacting.pdf (2.97 MB)
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)
Hill AP, Nolan CJ, Hemes KS, Cambron TW, Field CB. Low-elevation conifers in California’s Sierra Nevada are out of equilibrium with climate. PNAS Nexus. 2023;2(2).PDF icon Hill et al_2023_Low elevation conifers in CA Sierra Nevada are out of equilibrium with climate.pdf (719.85 KB)
2022
Freeborn PH, MattJolly W, A.Cochrane M, GarethRoberts . Large wildfire driven increases in nighttime fire activity observed across CONUS from 2003–2020. Remote Sensing of Environment. 2022;268. Available at: https://doi.org/10.1016/j.rse.2021.112777.PDF icon Freeborn et al_2022_Remote Sensing Enviro_Large Wildfire Driven Increases in Nighttime Fire Activity Across CONUS 2003-2020.pdf (3.09 MB)
Orysiak J, Młynarczyk M, Piec R, Jakubiak A. Lifestyle and environmental factors may induce airway and systemic inflammation in firefighters. Environmental Science and Pollution Research. 2022;29:73741–73768.PDF icon Orysiak et al_2022_EnviroScieneandPollResearch_Lifestyle and enviro factors may induce airway and systemic inflammation in firefighters.pdf (1.3 MB)
2021
Mowery M, Punchard D. Land use planning approaches in the wildland-urban interface: an analysis of four western states. Community Wildfire Planning Center; 2021. Available at: https://www.communitywildfire.org/wp-content/uploads/2021/02/CWPC_Land-Use-WUI-Report_Final_2021.pdf.PDF icon CWPC_Land-Use-WUI-Report_Final_2021.pdf (3.57 MB)
2020
Brenkert-Smith H, Chambers C, Gibble K, et al. Living with wildfire in Ashland, Oregon: 2020 Data Report. USDA Forest Service, Rocky Mountian Research Station; 2020. Available at: https://www.fs.fed.us/rm/pubs_series/rmrs/rn/rmrs_rn088.pdf.PDF icon rmrs_rn088.pdf (11.76 MB)
Rossman AK, Bakker JD, Peterson DW, Halpern CB. Long-term effects of fuel treatments, overstory structure, and wildfire on tree regeneration in dry forests of Central Washington. Forests. 2020;11(888).PDF icon pnw_2020_rossman001.pdf (2.63 MB)
2018
Baker WL. Land surveys show regional variability of historical fire regimes and dry forest structure of the western United States Williams MA, ed. Ecological Applications. 2018;28(2).
Davis EJ. Landscapes 101: Understanding Landscape Approaches to Forest Restoration and Management.; 2018:3.PDF icon Go Big or Go Home Brief 1final.pdf (2.06 MB)
Hall JA. Living with Wildland Fire in America: Building New Bridges between Policy, Science, and Management Steblein PF, ed. Wildfire. 2018;(27.3). Available at: http://wildfiremagazine.org/article/living-with-wildland-fire-in-america-building-bridges-science/.
Reis SA. Long-Term Effects of Fire on Vegetation Structure and Predicted Fire Behavior in Wyoming Big Sagebrush Ecosystems Ellsworth LM, ed. Ecosystems. 2018;(Online ISSN 1435-0629).
Braziunas KH. Looking beyond the mean: Drivers of variability in postfire stand development of conifers in Greater Yellowstone Hansen WD, ed. Forest Ecology and Management. 2018;430.
2017
T. McCarley R. Landscape-scale quantification of fire-induced change in canopy cover following mountain pine beetle outbreak and timber harvest Kolden CA, ed. Forest Ecology and Management. 2017;391.
Campbell MJ. A LiDAR-based analysis of the effects of slope, vegetation density, and ground surface roughness on travel rates for wildland firefighter escape route mapping Dennison PE, ed. International Journal of Wildland Fire. 2017;Online early.
Westlind DJ. Long-Term Effects of Burn Season and Frequency on Ponderosa Pine Forest Fuels and Seedlings Kerns BK, ed. Fire Ecology. 2017;13(3).
2016
Roos CI. Living on a flammable planet: interdisciplinary, cross-scalar and varied cultural lessons, prospects and challenges Scott AC, ed. Philosophical Transactions of the Royal Society B. 2016;371(1696).
Price OF. Local and regional smoke impacts from prescribed fires Horsey B, ed. Natural Hazards and Earth System Services. 2016;16.
2015
Turner MG. Landscape Disturbance Dynamics. Second. (Gardner RH, ed.). New York: Springer; 2015:53.
Kolden CA. Limitations and utilisation of Monitoring Trends in Burn Severity products for assessing wildfire severity in the USA Smith AMS, ed. International Journal of Wildland Fire. 2015;Online early.
Diaz JM. Local Ecological Knowledge and Fire Management: What Does the Public Understand? Steelman T, ed. Journal of Forestry. 2015;113.PDF icon LocalEcologicalKnowledge.pdf (187.57 KB)
Syphard AD. Location, timing and extent of wildfire vary by cause of ignition Keeley JE, ed. International Journal of Wildland Fire. 2015;24.
Knapp EE. Long-term dead wood changes in a Sierra Nevada mixed conifer forest: habitat and fire hazard implications. Forest Ecology and Management. 2015;339.
Coates PS. Long-term effects of wildfire on greater sage-grouse - integrating population and ecosystem concepts for management in the Great Basin. (Ricca MA, ed.).; 2015:42.

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