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Nielsen-Pincus M, Ellison A, Moseley C. Wildfire Suppression Contracting: The Effect of Local Business Capacity During Large Wildfires. Eugene, OR: Ecosystem Workforce Program, Institute for a Sustainable Environment, University of Oregon; 2012:16. Available at: http://ewp.uoregon.edu/sites/ewp.uoregon.edu/files/WP_43.pdf.

Nielsen-Pincus M, Ellison A, Moseley C. The Effect of Large Wildfires on Local Labor Markets. Eugene, OR: Ecosystem Workforce Program, Institute for a Sustainable Environment, University of Oregon; 2012:12. Available at: http://ewp.uoregon.edu/sites/ewp.uoregon.edu/files/WP_42.pdf.

Noonan-Wright E, Seielstad C. Factors Influencing Risk during Wildfires: Contrasting Divergent Regions in the US. Fire. 2022;5(131).

NoonanWright and Seielstad_2022_Fire_Factors influencing risk during wildfire_Contrasting divergent regions in US.pdf (2.29 MB)

Noonan-Wright EK. The Effectiveness and Limitations of Fuel Modeling Using the Fire and Fuels Extension to the Forest Vegetation Simulator Vaillant NM, ed. Forest Science. 2014;60(2).

Noonan-WrightEt_2014_ForSci_CustomFuelModel.pdf (435.82 KB)

Norberg J, Urban MC, Vellend M, Klausmeier CA, Loeuille N. Eco-Evolutionary Responses of Biodiversity to Climate Change. Nature Climate Change. 2012;2(10):5. Available at: http://www.nature.com/nclimate/journal/v2/n10/full/nclimate1588.html.

Norman SP. Review of broad-scale drought monitoring of forests: Toward an integrated data mining approach Koch FH, ed. Forest Ecology and Management. 2016;380.

North MP, al. et. Tamm Review: Reforestation for resilience in dry western U.S. forests Stevens JT, ed. Forest Ecology and Management. 2019;432.

North MP. Reform forest fire management Stephens SL, ed. Science. 2015;349 (6254). Available at: http://www.sciencemag.org/content/349/6254/1280.full?utm_campaign=email-sci-toc#ref-3.

North MP. Cover of tall trees best predicts California spotted owl habitat Kane JT, ed. Forest Ecology and Management. 2017;405.

Nothdurft A, Wolf T, Ringeler A, Bohner J, Saborowski J. Spatio-temporal prediction of site index based on forest inventories and climate change scenarios. Forest Ecology and Management. 2012;279:15.

Nowell B. Communication under Fire: The Role of Embeddedness in the Emergence and Efficacy of Disaster Response Communication Networks Steelman T, ed. Journal of Public Administration Research and Theory. 2015;25(3).

Nowell B. Relational risk assessment and management: investigating capacity in wildfire response networks. (McCaffrey SM, ed.).; 2017.

12-2-01-47_final_report.pdf (709.07 KB)

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O'Connor CD. An empirical machine learning method for predicting potential fire control locations for pre-fire planning and operational fire management Calkin DE, ed. International Journal of Wildland Fire. 2017;26(7).

O'Laughlin J. Wildland Fire management: Are actively managed forests more resilient than passively managed forests?. University of Idaho; 2013:15.

PAG_IB_15_wildfire-resiliency_active-passive-management.pdf (383.11 KB)

Odion DC. Areas of Agreement and Disagreement Regarding Ponderosa Pine and Mixed Conifer Forest Fire Regimes: A Dialogue with Stevens et al. Hanson CT, ed. PLOS One. 2016;11(5).

Oliver M. Mapping the Future: U.S. Exposure to Multiple Landscape Stressors. Portland: US Department of Agriculture, Forest Service, Pacific Northwest Research Station; 2017.

scifi197.pdf (6.8 MB)

Oliver M. A bird’s-eye view: Land-use planning and assessments in Oregon and Washington. (Gray A, ed.).; 2015. Available at: http://www.fs.fed.us/pnw/sciencef/scifi172.pdf.

Olsen C, Shindler B. Citizen-Agency Interactions in Planning and Decisionmaking After Large Fires. 2007.

Decision-making after the fire.pdf (773.13 KB)

Olsen C, Sharp E. Building community-agency trust in fire affected communities in Australia and the United States. International Journal of Wildland Fire. 2013;On-line early.

Olson RL. Wildland fire management: insights from a foresight panel. (Bengston DN, ed.).; 2015:44. Available at: http://www.treesearch.fs.fed.us/pubs/48581.

Ortiz MJLopez. Post-fire management affects species composition but not Douglas-fir regeneration in the Klamath Mountains Marcey T, ed. Forest Ecology and Management. 2019;432.

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.

Orysiak et al_2022_EnviroScieneandPollResearch_Lifestyle and enviro factors may induce airway and systemic inflammation in firefighters.pdf (1.3 MB)

Ottmar RD. Wildland fire emissions, carbon, and climate: Modeling fuel consumption. Forest Ecology and Management. 2014;317.

Owen SM, Sieg CH, Fulé PZ, et al. Persistent effects of fire severity on ponderosa pine regeneration niches and seedling growth. Forest Ecology and Management. 2020;477.

rmrs_2020_owen_s001.pdf (2.07 MB)

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Page WG, Jenkins MJ, Alexander ME. Foliar moisture content variations in lodgepole pine over the diurnal cycle during the red stage of mountain pine beetle attack. Environmental Modelling & Software. 2013;On-line early(49):5.

FEM_FMCdiurnal.pdf (426.72 KB)

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