Publications Library

Found 1109 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 
S
Paveglio TB. Social fragmentation and wildfire management: Exploring the scale of adaptive action Carroll MS, ed. International Journal of Disaster Risk Reduction. 2019;33(131).
Urgenson LS. Social perspectives on the use of reference conditions in restoration of fire-adapted forest landscapes Nelson CR, ed. Restoration Ecology. 2017;Online early.
Toman E, Stidman M, McCaffrey S, Schindler B. Social Science at the WUI: A Compendium of Research Results to Create Fire-Adapted Communities. Newtown Square, PA: USDA Forest Service; 2013:80. Available at: http://www.firescience.gov/projects/07-1-6-12/project/07-1-6-12_gtr_nrs111.pdf.PDF icon 07-1-6-12_gtr_nrs111.pdf (3.55 MB)
Kumagai Y, Daniels SE. Social science in fuel management: an annotated bibliography of prescribed fire. Corvallis: Oregon State University, College of Forestry; 2002:42. Available at: http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/7873/RC36.pdf?sequence=1.PDF icon RC36.pdf (252.9 KB)
Christianson A. Social science research on Indigenous wildfire management in the 21st century and future research needs. International Journal of Wildland Fire. 2014;On-line early.
Monroe MC, Pennisi L, McCaffrey S, Mileti D. Social Science to Improve Fuels Management: A Synthesis of Research Relevant to Communicating with Homeowners About Fuels Management. USDA Forest Service, North Central Research Station; 2006:42. Available at: http://nrs.fs.fed.us/pubs/gtr/gtr_nc267.pdf.
Coughlan MR. Social Vulnerability and Wildfire in the Wildland-Urban Interface: Literature synthesis. (Ellison A, ed.).; 2019:24. Available at: http://ewp.uoregon.edu/publications/working.PDF icon WP_96.pdf (2.74 MB)
Coughlan MR, Ellison A, Cavanaugh A. Social Vulnerability and Wildfire in the Wildland-Urban Interface. Northwest Fire Science Consortium; 2019. Available at: http://ewp.uoregon.edu/sites/ewp.uoregon.edu/files/WP_96.pdf.PDF icon WP_96.pdf (2.74 MB)
Cavanaugh A, Coughlan MR. Social Vulnerability and Wildfire in the Wildland-Urban Interface - Annotated Bibliography. Northwest Fire Science Consoirtium; 2019. Available at: http://ewp.uoregon.edu/sites/ewp.uoregon.edu/files/WP%2096_Biblio.pdf.PDF icon WP 96_Biblio.pdf (2.36 MB)
Fischer AP. Social Vulnerability to Climate Change in Temperate Forest Areas: New Measures of Exposure, Sensitivity, and Adaptive Capacity Frazier TG, ed. Annals of the American Association of Geographers. 2018;108(3).
Taylor AH. Socioecological transitions trigger fire regime shifts and modulate fire–climate interactions in the Sierra Nevada, USA, 1600–2015 CE Trouet V, ed. Proceedings of the National Academy of Sciences. 2016;Online early.
Busse MD, Shestak CJ, Hubbert KR. Soil heating during burning of forest slash piles and wood piles. International Journal of Wildland Fire. 2013;On-line early.
Smith JE. Soil heating during the complete combustion of mega-logs and broadcast burning in central Oregon USA pumice soils Cowan AD, ed. International Journal of Wildland Fire. 2016;25.
Krueger ES. Soil Moisture Affects Growing-Season Wildfire Size in the Southern Great Plains Ochsner TE, ed. Soil Science Society of America. 2015;79(6).
Fay PA, Jin VL, Way DA, et al. Soil-mediated effects of subambient to increased carbon dioxide on grassland productivity. Nature Climate Change. 2012;2(10):5. Available at: http://biology.duke.edu/jackson/ncc2012.pdf.
Seavy NE, Alexander JD. Songbird response to wildfire in mixed-conifer forest in south-western Oregon. International Journal of Wildland Fire. 2014;On-line early.
Anon. Source of Sediment Hazards on Steep Slopes. California Fire Science Consortium; 2014.PDF icon DiBiaseLamb.2013_JEK_msw4_Hazards_FINAL.pdf (482.78 KB)
Short KC. Sources and implications of bias and uncertainty in a century of US wildfire activity data. International Journal of Wildland Fire. 2015;Online early.
Dunn CJ. Spatial and temporal assessment of responder exposure to snag hazards in post-fire environments O'Connor CD, ed. Forest Ecology and Management. 2019;441.PDF icon rmrs_2019_dunn_c001.pdf (1.81 MB)
Ringo C. A spatial database for restoration management capability on national forests in the Pacific Northwest USA. (Ager AA, ed.). Portland, OR: US Department of Agriculture, Forest Service, Pacific Northwest Research Station; 2016:71 p. Available at: http://www.treesearch.fs.fed.us/pubs/50464.
Seidl R. Spatial variability in tree regeneration after wildfire delays and dampens future bark beetle outbreaks Donato DC, ed. Proceedings of the National Academy of Sciences. 2016;Online early. Available at: http://www.pnas.org/content/early/2016/11/02/1615263113.full.
Nielsen-Pincus M. Spatially and socially segmenting private landowner motivations, properties, and management: A typology for the wildland urban interface Ribe RG, ed. Landscape and Urban Planning. 2015;137.
Ziegler JPaul. Spatially explicit measurements of forest structure and fire behavior following restoration treatments in dry forests Hoffman C, ed. Forest Ecology and Management. 2017;386.
Williams MA, Baker WL. Spatially extensive reconstructions show variable-severity fire and heterogeneous structure in historical western United States dry forests. Global Ecology & Biogeography. 2012;21:11. Available at: http://onlinelibrary.wiley.com/doi/10.1111/j.1466-8238.2011.00750.x/abstract.
Meigs GW. Spatiotemporal dynamics of recent mountain pine beetle and western spruce budworm outbreaks across the Pacific Northwest Region Kennedy RF, ed. Forest Ecology and Management. 2015;339.

Pages