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Data Archive: Using A Coproduction Approach To Map Future Forest Retention Likelihood In The Southeastern United States, Rachel E. Greene, Kristine O. Evans, Michael T. Gray, D. Todd Jones-Farrand, William G. Wathen
Data Archive: Using A Coproduction Approach To Map Future Forest Retention Likelihood In The Southeastern United States, Rachel E. Greene, Kristine O. Evans, Michael T. Gray, D. Todd Jones-Farrand, William G. Wathen
College of Forest Resources Publications and Scholarship
Supporting data for publication titled: Using a Coproduction Approach to Map Future Forest Retention Likelihood in the Southeastern United States;
Journal of Forestry, 2020, 28–43 doi:10.1093/jofore/fvz063
Data For Tree Mortality Calibration Of Satellite And Lidar-Derived Fire Severity Estimates, N. Macriss, T. J. Furniss, S.M.A. Jeronimo, E. L. Crowley, O. W. Germain, S. Germain, V. R. Kane, A. J. Larson, J. A. Lutz
Data For Tree Mortality Calibration Of Satellite And Lidar-Derived Fire Severity Estimates, N. Macriss, T. J. Furniss, S.M.A. Jeronimo, E. L. Crowley, O. W. Germain, S. Germain, V. R. Kane, A. J. Larson, J. A. Lutz
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The 55 JFSP plots were established to capture forest types, fire histories, and severity levels beyond those found within the YFPD. The plots were square 50 m × 50 m plots established in Pinus ponderosa, Pinus jeffreyi, and Abies concolor – Pinus lambertiana forest types between 1,431 m and 2,250 m elevation. Plots were installed post-fire based on a randomly chosen locations stratified by burn severity levels as calculated from the differenced Normalized Burn Ratio (dNBR). For details on site selection see Furniss et al. (in review). In the field, plots were located using a handheld GPS and …