Publications Library

Found 1096 results
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
W
Bladon KD. Wildfire and the Future of Water Supply Emelko MB, ed. Environmental Science & Technology. 2014;48.PDF icon Bladon_EST_2014-1.pdf (9.86 MB)
Maxwell JD. Wildfire and topography impacts on snow accumulation and retention in montane forests Call A, ed. Forest Ecology and Management. 2018;432.
Coates PS. Wildfire, climate, and invasive grass interactions negatively impact an indicator species by reshaping sagebrush ecosystems Ricca MA, ed. Proceedings of the National Academy of Sciences. 2016;Online early.
Hamilton LC. Wildfire, climate, and perceptions in Northeast Oregon Hartter J, ed. Regional Environmental Change. 2016;16(6).
SurendraShresth , A.Williams C, Rogers BM, Rogan J, Kulakowski D. Wildfire controls on land surface properties in mixed conifer and ponderosa pine forests of Sierra Nevada and Klamath mountains, Western US. Agricultural and Forest Meteorology. 2022;320(108939).PDF icon Shrestha_2022_Agr and Forest Meteorology_Wildfire controls on land surface properties in mixed conifer and ponderosa pine forests of Sierra Nevada and Klamath mountains, Western US.pdf (9.76 MB)
Rapp C, Rabung E, Wilson R, Toman E. Wildfire decision support tools: an exploratory study of use in the United States. International Journal of Wildland Fire. 2020;29(7).
McCaffrey S, Rhodes A, Stidham M. Wildfire evacuation and its alternatives: perspectives from four United States' communities. International Journal of Wildland Fire. 2014;On-line early.
Ager AA, Buonopane M, Reger A, Finney MA. Wildfire exposure to analysis on the national forests in the Pacific Northwest, USA. Society for Risk Analysis. 2012:21.
Zhang J, Busse M, Wang S, Young D, Mattson K. Wildfire loss of forest soil C and N: Do pre-fire treatments make a difference?. Science of The Total Environment. 2022;854.PDF icon Zhang et al_2022_Science Total Env_Wildfire loss of forest soil C and N_Do prefire treatments make a difference.pdf (2.1 MB)
Flitcroft RL. Wildfire may increase habitat quality for spring Chinook salmon in the Wenatchee river subbasin, WA, USA Falke JA, ed. Forest Ecology and Management. 2016;359.
Wilmot TY, Mallia DV, Hallar AG, Lin JC. Wildfire plumes in the Western US are reaching greater heights and injecting more aerosols aloft as wildfire activity intensifies. Scientific Reports. 2022;12(12400).PDF icon Wilmot et al_2022_Wildfire Plumes in western US are reaching greater heights.pdf (1.76 MB)
Schumann, III RL. Wildfire recovery as a “hot moment” for creating fire-adapted communities Mockrin M, ed. International Journal of Disaster Risk Reduction. 2020;42.
A Fischer P. Wildfire risk as a socioecological pathology Spies TA, ed. Frontiers in Ecology and the Environment. 2016;14(5).
Calviño-Cancela M. Wildfire risk associated with different vegetation types within and outside wildland-urban interfaces Chas-Amil ML, ed. Forest Ecology and Management. 2016;372.
Busby G, Albers HJ. Wildfire Risk Management on a Landscape with Public and Private Ownership: Who Pays for Protection?. Environmental Management. 2010;45:15. Available at: http://www.fs.fed.us/pnw/pubs/journals/pnw_2010_busby001.pdf.
Madsen RS. Wildfire risk reduction in the United States: Leadership staff perceptions of local fire department roles and responsibilities Haynes HJG, ed. International Journal of Disaster Risk Reduction. 2018;27.
Dunn CJ. Wildfire risk science facilitates adaptation of fire-prone social-ecological systems to the new fire reality O'Connor CD, ed. Environmental Research Letters. 2020;15(2). Available at: https://iopscience.iop.org/article/10.1088/1748-9326/ab6498.
Povak NA, Churchill DJ, Cansler CA, et al. Wildfire severity and postfire salvage harvest effects on long-term forest regeneration. Ecosphere. 2020;11(8).PDF icon pnw_2020_povak002-1.pdf (9.11 MB)
Jackson BK, Sullivan MSP, Malison RL. Wildfire severity mediates fluxes of plant material and terrestrial invertebrates to mountain streams. Forest Ecology and Management. 2012;278:8. Available at: http://www.sciencedirect.com/science/article/pii/S0378112712002514.
Reisen F. Wildfire smoke and public health risk Duran SM, ed. International Journal of Wildland Fire. 2015;Online early.
David AT. Wildfire smoke cools summer river and stream water temperatures Asarian JE, ed. Water Resources Research. 2018;54.
D’Evelyn SM, Jung J, Alvarado E, et al. Wildfire, Smoke Exposure, Human Health, and Environmental Justice Need to be Integrated into Forest Restoration and Management. Current Environmental Health Reports. 2022;Online.PDF icon DEvelyn et al_2022_Wildfire Smoke Exposure Human Health and Enviro Justice Integration Needs.pdf (3.04 MB)
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.
Stein SM, Menakis J, Carr MA, et al. Wildfire, Wildlands, and People: Understanding and preparing for wildfire in the wildland-urban interface. USDA Forest Service, Rocky Mountain Research Station; 2013:40. Available at: http://www.fs.fed.us/openspace/fote/reports/GTR-299.pdf.
Potter BE. A Wildfire-relevant climatology of the convective environment of the United States Anaya MA, ed. International Journal of Wildland Fire. 2015;24.

Pages