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Crotteau JS. Forest fuels and potential fire behaviour 12 years after variable-retention harvest in lodgepole pine Keyes CR, ed. International Journal of Wildland Fire. 2016;Online early.
Consortium NFire Scien. NWFSC Research Brief #18 - Burning for Butterflies: Identifying Weather and Fuel Conditions that Protect and Promote Butterfly Habitat.; 2018.PDF icon NWFSC_RB18_Butterflies.pdf (2.25 MB)
Consortium NFire Scien. NWFSC Research Brief #19 - Adjusting the lenses of past, present and future to bring into focus the role of frequent fire in dry forests .; 2019.PDF icon NWFSC_RB19_Adjusting the focus.pdf (1.39 MB)
Collins BM. Beyond reducing fire hazard: fuel treatment impacts on overstory tree survival Das AJ, ed. Ecological Applications. 2014;24(8). Available at: http://dx.doi.org/10.1890/14-0971.1 .
Cochrane MA, Moran CJ, Wimberly MC, et al. Estimation of Wildfire Size and Risk Changes Due to Fuels Treatments. International Journal of Wildland Fire. 2012:11. Available at: http://www.fs.fed.us/rm/pubs_other/rmrs_2012_cochrane_m001.pdf.
Chung W, Jones G, Krueger K, Bramel J, Contreras M. Optimising fuel treatments over time and space. International Journal of Wildland Fire. 2013;On-line early.
Cannon JB. The influence of experimental wind disturbance on forest fuels and fire characteristics O'Brien JJ, ed. Forest Ecology and Management. 2014;330. Available at: http://www.srs.fs.usda.gov/pubs/46459.
Calkin DE, Cohen JD, Finney MA, Thompson MP. How risk management can prevent future wildfire disasters in the wildland-urban interface. USDA Forest Service, Rocky Mountain Research Station; 2014. Available at: www.pnas.org/cgi/doi/10.1073/pnas.1315088111.PDF icon PNAS Calkin Final.pdf (686.46 KB)