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Simulating fuel treatment effects in dry forests of the western United States: testing the principles of a fire-safe forest

Year of Publication
2011
Publication Type

We used the Fire and Fuels Extension to the Forest Vegetation Simulator (FFE-FVS) to simulate fuel treatment effects on 45 1 62 stands in low- to midelevation dry forests (e.g., ponderosa pine (Pinus ponderosa Doug!. ex. P. & C. Laws.) and Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) of the western United States. We evaluated treatment effects on predicted post-treatment fIre behavior (fire type) and fire hazard (torching index). FFE-FVS predicts that thinning and surface fuel treatments reduced crown fIre behavior relative to no treatment; a large proportion of stands were predicted to transition from active crown fire pre-treatment to surface fIre post-treatment. Intense thinning treatments ( 1 25 and 250 resid­ual trees·ha-1) were predicted to be more effective than light t!1inning treatments (500 and 750 residual trees·ha-I). Pre­scribed fire was predicted to be the most effective surface fuel treatment, whereas FFE-FVS predicted no difference between no surface fuel treatment and extraction of fuels . This inability to discriminate the effects of certain fuel treatments illumi­nates the consequence of a documented limitation in how FFE-FVS incorporates fuel models and we suggest improvements. The concurrence of results from modeling and empirical studies provides quantitative support for "fire-safe" principles of forest fuel reduction (sensu Agee and Skinner 2005. For. Eco1. Manag. 211: 83-96).

Authors
M.C. Johnson; M.C. Kennedy; D.L. Peterson
Citation

Johnson MC, Kennedy MC, Peterson DL. Simulating fuel treatment effects in dry forests of the western United States: testing the principles of a fire-safe forest. Canadian Journal of Forest Research [Internet]. 2011 ;41:13. Available from: http://www.fs.fed.us/pnw/pubs/journals/pnw_2011_johnson003.pdf

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