Publications Library
. Decreasing fire season precipitation increased recent western US forest wildfire activity . PNAS. 2018;115(36).
. Defining extreme wildfire events: Difficulties, challenges, and impacts . Fire. 2018;1(1).
. Developing an online tool for identifying at-risk populations to wildfire smoke hazards . Science of The Total Environment. 2018;619-620.
. Disequilibrium of fire-prone forests sets the stage for a rapid decline in conifer dominance during the 21st century . Scientific Reports. 2018;8.
. Drought, Tree Mortality, and Wildfire in Forests Adapted to Frequent Fire . BioScience. 2018;68(2).
. Decade-Long Plant Community Responses to Shrubland Fuel Hazard Reduction . Fire Ecology. 2017;13(2).
. Decomposition Rates for Hand-Piled Fuels. (). Portland: US Department of Agriculture, Forest Service, Pacific Northwest Research Station; 2017:18p.
pnw_rn574.pdf (2.75 MB)
pnw_rn574.pdf (2.75 MB). Direct and indirect climate controls predict heterogeneous early-mid 21st century wildfire burned area across western and boreal North America . PLOS One. 2017.
. Diversity in forest management to reduce wildfire losses: implications for resilience . Ecology and Society. 2017;22(1).
. Does the presence of large down wood at the time of a forest fire impact soil recovery? . Forest Ecology and Management. 2017;391.
. Developing and Implementing Climate Change Adaptation Options in Forest Ecosystems: A Case Study in Southwestern Oregon, USA . Forests. 2016;7(11).
. Did the 2002 Hayman Fire, Colorado, USA, Burn with Uncharacteristic Severity? . Fire Ecology. 2016;12(3).
. Disturbance, tree mortality, and implications for contemporary regional forest change in the Pacific Northwest . Forest Ecology and Management. 2016;374.
. Do insect outbreaks reduce the severity of subsequent forest fires? . Environmental Research Letters. 2016;11.
. Does increased forest protection correspond to higher fire severity in frequent-fire forests of the western United States? . Ecosphere. 2016;7(10).
. Does prescribed fire promote resistance to drought in low elevation forests of the Sierra Nevada, California, USA? . Fire Ecology. 2016;12(1). Available at: http://fireecologyjournal.org/journal/abstract/?abstract=266.
. Drivers of Wildfire Suppression Costs: A Review. ().; 2016. BP_66.pdf (770.12 KB)
BP_66.pdf (770.12 KB). Developing a post-processor to link the Forest Vegetation Simulator (FVS) and the Fuel Characteristic Classification System (FCCS).; 2015:9 p. JFSP 12-1-02-35_final_report.pdf (448.9 KB)
JFSP 12-1-02-35_final_report.pdf (448.9 KB). Development and application of a probabilistic method for wildfire suppression cost modeling . Forest Policy and Economics. 2015;50.
. Does wildfire likelihood increase following insect outbreaks in conifer forests? . Ecosphere. 2015;6(7).
. Dormant season grazing may decrease wildfire probability by increasing fuel moisture and reducing fuel amount and continuity . International Journal of Wildland Fire. 2015;24(6).
. Dormant season grazing may decrease wildfire probability by increasing fuel moisture and reducing fuel amount and continuity . International Journal of Wildland Fire. 2015;Online early.
. Drivers of Wildfire Suppression Costs: Literature Review and Annotated Bibliography. ().; 2015:40 p. Suppression synthesis.pdf (3.46 MB)
Suppression synthesis.pdf (3.46 MB) Defining extreme wildland fires using geospatial and ancillary metrics. International Journal of Wildland Fire. 2014;On-line early.
