Publications Library

Found 63 results
Filters: First Letter Of Last Name is V  [Clear All Filters]
Vaidyanathan A. Developing an online tool for identifying at-risk populations to wildfire smoke hazards Yip F, ed. Science of The Total Environment. 2018;619-620.
Yedinak KM. Embracing Complexity to Advance the Science of Wildland Fire Behavior Strand EK, ed. Fire. 2018;1(2).
Stevens-Rumann CS. Evidence for declining forest resilience to wildfires under climate change Kemp KB, ed. Ecology Letters. 2018;21(2).
Hood SM. Fire and tree death: understanding and improving modeling of fire-induced tree mortality J Varner M, ed. Environmental Research Letters. 2018;13(11). Available at:
Hood SM. Fire and tree death: understanding and improving modeling of fire-induced tree mortality J Varner M, ed. Environmental Research Letters. 2018;13(11). Available at:
Tepley AJ. Influences of fire–vegetation feedbacks and post‐fire recovery rates on forest landscape vulnerability to altered fire regimes Thomann E, ed. Journal of Ecology. 2018.
Vizcarra N. Reburn in the Rain Shadow. US Department of Agriculture, Forest Service, Pacific Northwest Research Station; 2018.PDF icon scifi211-2.pdf (6.96 MB)
Moritz MA. A Statement of Common Ground Regarding the Role of Wildfire in Forested Landscapes of the Western United States. (Topik C, ed.).; 2018:52. Available at: icon WildfireCommonGround 2018.pdf (1.17 MB)
Johnston JD. Tree traits influence response to fire severity in the western Oregon Cascades, USA Dunn CJ, ed. Forest Ecology and Management. 2018;433.
Sankey JB, Kreitler J, Hawbaker TJ, et al. Climate, wildfire, and erosion ensemble foretells more sediment in western USA watersheds. Geophysical Research Letters. 2017;Online early.
Ager AA. Economic Opportunities and Trade-Offs in Collaborative Forest Landscape Restoration Vogler KC, ed. Ecological Economics. 2017;136.
Vaillant NM. An Evaluation of the Forest Service Hazardous Fuels Treatment Program—Are We Treating Enough to Promote Resiliency or Reduce Hazard? Reinhardt ED, ed. Journal of Forestry. 2017;115.
Vane E. The Influence of Western Spruce Budworm on Fire in Spruce-Fir Forests Waring KM, ed. Fire Ecology. 2017;13(1).
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.
T. McCarley R. Multi-temporal LiDAR and Landsat quantification of fire-induced changes to forest structure Kolden CA, ed. Remote Sensing of Environment. 2017;191.
Golladay SW. Achievable future conditions as a framework for guiding forest conservation and management Martin KL, ed. Forest Ecology and Management. 2016;360.
Vaillant NM. Assessing Landscape Vulnerability to Wildfire in the USA Kolden CA, ed. Current Forestry Reports. 2016;2(3).
van Mantgem PJ. Does prescribed fire promote resistance to drought in low elevation forests of the Sierra Nevada, California, USA? Caprio AC, ed. Fire Ecology. 2016;12(1). Available at:
Vose JM, Clark JS, Luce CH, Patel-Weynand T. Effects of Drought on Forests and Rangelands in the United States: A Comprehensive Science Synthesis.; 2016.PDF icon DROUGHT_book-web-1-11-16.pdf (7.75 MB)
Bone C. Employing resilience in the United States Forest Service Moseley C, ed. Land Use Policy. 2016;52.
Kreye JK. The impact of aging on laboratory fire behaviour in masticated shrub fuelbeds of California and Oregon, USA Varner MJ, ed. International Journal of Wildland Fire. 2016;Online early.