Publications Library

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2022
Li C, Handwerger AL, Wang J, et al. Augmentation of WRF-Hydro to simulate overland-flow- and streamflow-generated debris flow susceptibility in burn scars. Natural Hazards and Earth System Sciences. 2022;22:2317–2345.PDF icon Li et al_2022_NatHazards_Augmentation of WRF Hydro to simulate debris flow susceptibility in burn scars.pdf (1.36 MB)
Iniguez JM, Evans AM, Dadashi S, et al. Comparing Geography and Severity of Managed Wildfires in California and the Southwest USA before and after the Implementation of the 2009 Policy Guidance. Forests. 2022;13(793).PDF icon Iniguez et al_2022_Comparing geography and severity of managed wildfires in CA and SW USA before and after 2009 policy guidance.pdf (1.64 MB)
Leduc C, Giga SI, Fletcher IJ, Young M, Dorman SC. Effectiveness of fitness training and psychosocial education intervention programs in wildland firefighting: a cluster randomised control trial. International Journal of Wildland Fire. 2022;31:799-815.PDF icon Leduc et al_2022_IJWF_Effectiveness of fitness traning and phychosocial education intervention in wildland firefighters.pdf (1.14 MB)
Rao K, Williams PA, Diffenbaugh NS, Yebra M, Konings AG. Plant-water sensitivity regulates wildfire vulnerability. Nature Ecology & Evolution. 2022;Online.PDF icon Rao et al_2022_Plant-water_sensitivity_regulates_wildfire_vulnerability.pdf (2.41 MB)
Miller BAlan, Yung L, Wyborn C, et al. Re-Envisioning Wildland Fire Governance: Addressing the Transboundary, Uncertain, and Contested Aspects of Wildfire. Fire. 2022;5(49).PDF icon Miller et al 2022_Re-Envisioning_Wildland_Fire_Governance_Addressing.pdf (1.96 MB)
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)
2021
Hagmann RK, Hessburg PF, Prichard SJ, et al. Evidence for widespread changes in the structure, composition, and fire regimes of western North American forests. Ecological Applications. 2021.PDF icon eap.2431.pdf (9.22 MB)
2018
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).
2016
Smith AM. The ability of winter grazing to reduce wildfire size and fire-induced plant mortality was not demonstrated: a comment on Davies et al. (2015) Talhelm AF, ed. International Journal of Wildland Fire. 2016;25.
Lueck D. Clearning the smoke from wildfire policy: An economic perspective. (Yoder J, ed.). Bozeman, MT: PERC; 2016:48 p.PDF icon PS-56-WEB final-1.pdf (3.71 MB)
Cohen WB. Forest disturbance across the conterminous United States from 1985-2012: The emerging dominance of forest decline Yang Z, ed. Forest Ecology and Management. 2016;360.
Vogeler JC. Mapping post-fire habitat characteristics through the fusion of remote sensing tools Yang Z, ed. Remote Sensing of Environment. 2016;173.
Liu JCoco. Particulate air pollution from wildfires in the Western US under climate change Mickley LJ, ed. Climate Change. 2016;138(3).
Smith AMS. Towards a new paradigm in fire severity research using dose-response experiments Sparks AM, ed. International Journal of Wildland Fire. 2016;Online early.
Bybee J. Vegetation Response to Piñon and Juniper Tree Shredding Roundy BA, ed. Rangeland Ecology & Management. 2016;69(3).

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