Publications Library

Found 928 results
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2015
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.
Council NScience an. Wildland Fire Science and Technology Task Force Final Report.; 2015:29 p.PDF icon sdr_wildfire_st_task_force_final_report-1.pdf (1017.49 KB)
Davies KW. Winter grazing can reduce wildfire size, intensity and behaviour in a shrub-grassland Boyd CS, ed. International Journal of Wildland Fire. 2015;Online early.
2014
Sparks AM. An accuracy assessment of the MTBS burned area product for shrub-steppe fires in the northern Great Basin, United States Boschetti L, ed. International Journal of Wildland Fire. 2014;24. Available at: http://dx.doi.org/10.1071/WF14131.
Ferster CJ, Coops NC. Assessing the quality of forest fuel loading data collected using public participation methods and smartphones. International Journal of Wildland Fire. 2014;23.PDF icon WF13173.pdf (361.79 KB)
Today FM, Volume 73 N3. Being Prepared. 2014. Available at: http://www.fs.fed.us/fire/fmt/fmt_pdfs/FMT73-3.pdf.
Collins BM. Beyond reducing fire hazard: fuel treatment impacts on overstory tree survival Das AJ, ed. Ecological Applications. 2014;24(8). Available at: http://dx.doi.org/10.1890/14-0971.1 .
Wagner MJ. Catchment-scale stream temperature response to land disturbance by wildfire governed by surface–subsurface energy exchange and atmospheric controls Bladon KD, ed. Journal of Hydrology. 2014;517.
Morgan P. Challenges of assessing fire and burn severity using field measures, remote sensing and modelling Keane RE, ed. International Journal of Wildland Fire. 2014;23. Available at: http://dx.doi.org/10.1071/WF13058.
Barker JS. Clearcutting and high severity wildfire have comparable effects on growth of direct-seeded interior Douglas-fir Simard SW, ed. Forest Ecology and Management. 2014;331.PDF icon FEM-DirectSeeding.pdf (535.28 KB)
Stavros NE, Abatzoglou J, larkin NK, McKenzie D, Steel AE. Climate and very large wildland fires in the contiguous western USA. International Journal of Wildland Fire. 2014;23.PDF icon WF13169.pdf (1.43 MB)
Raymond CL, Peterson DL, Rochefort RM. Climate change vulnerability and adaptation in the North Cascades region, Washington.; 2014. Available at: http://www.treesearch.fs.fed.us/pubs/47131.
Cansler AC, McKenzie D. Climate, fire size, and biophysical setting control fire severity and spatial pattern in the northern Cascade Range, USA. Ecological Applications. 2014;24(5).PDF icon Cansler_McKenzie_ClimateBiophysicalSetting_FireSizeSeverityN_Cascade_2014EcolApp.pdf (5.79 MB)
Stavros NE. The climate-wildfire-air quality system: interactions and feedbacks across spatial and temporal scales McKenzie D, ed. WIREs Climate Change. 2014;5(6).
Stanturf JA. Contemporary forest restoration: A review emphasizing function Palik BJ, ed. Forest Ecology and Management. 2014;331(1).
Fry DL. Contrasting Spatial Patterns in Active-Fire and Fire- Suppressed Mediterranean Climate Old-Growth Mixed Conifer Forests Stephens SL, ed. PLoS ONE. 2014;9(2).
Williams PA. Correlations between components of the water balance and burned area reveal insights for predicting forest fire area in the southwest United States Seager R, ed. International Journal of Wildland Fire. 2014;Online early. Available at: http://dx.doi.org/10.1071/WF14023.
Lannom KO, Tinkham WT, Smith AMS, et al. Defining extreme wildland fires using geospatial and ancillary metrics. International Journal of Wildland Fire. 2014;On-line early.
Halofsky JS. Dry forest resilience varies under simulated climate-management scenarios in a central Oregon, USA landscape Halofsky JE, ed. Ecological Applications. 2014;24(8). Available at: http://www.esajournals.org/doi/abs/10.1890/13-1653.1.
of Resources WSDN. Eastern Washington Forest Health: Hazards, Accomplishments and Restoration Strategy.; 2014.PDF icon stelprd3822404.pdf (2.47 MB)
Wright, Jr. HE. The Ecological Role of Fire in Natural Conifer Forests of Western and Northern North America - Introduction Heinselman ML, ed. Fire Ecology. 2014;10(3).
Stine P. The Ecology and Management of Moist Mixed-Conifer Forests in Eastern Oregon and Washington: a Synthesis of the Relevant Biophysical Science and Implications for Future Land Management. PNW-GTR-897th ed. (Hessburg P, ed.). Pacific Northwest Research Station; 2014. Available at: http://www.fs.fed.us/pnw/pubs/pnw_gtr897.pdf.PDF icon pnw_gtr897.pdf (8.07 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).PDF icon Noonan-WrightEt_2014_ForSci_CustomFuelModel.pdf (435.82 KB)
Loudermilk LE. Effectiveness of fuel treatments for mitigating wildfire risk and sequestering forest carbon: A case study in the Lake Tahoe Basin Stanton A, ed. Forest Ecology and Management. 2014;323.
Vaz PG. Effects of burn status and conditioning on colonization of wood by stream macroinvertebrates Dias S, ed. Freshwater Science. 2014;33(3).

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