TY - JOUR
T1 - Use of random forests for modeling and mapping forest canopy fuels for fire behavior analysis in Lassen Volcanic National Park, California, USA
AU - Pierce, Andrew D.
AU - Farris, Calvin A.
AU - Taylor, Alan H.
N1 - Funding Information:
This work was supported by National Science Foundation Doctoral Dissertation Research Improvement award #BCSB09Q8705, a National Park Service fuels research Grant #H399206006, and by Academic Enrichment Awards from the Department of Geography, Pennsylvania State University. The authors would like to thank the fire management staff at LVNP, especially T. Garcia and E. Hensel. We would also like to thank C. Skinner and two anonymous reviewers for helpful comments on of this manuscript.
PY - 2012/9/1
Y1 - 2012/9/1
N2 - Fire managers often need data that is spatially explicit at a fine scale (30m) but is also laborious and time consuming to collect. This study integrates Landsat 5 imagery and topographic information with plot and tree based data to model and map four key canopy fuels variables: Canopy Bulk Density (CBD), Canopy Cover (CC), Canopy Base Height (CBH), and canopy Height (HT). We sampled 223 plots of 500m2 each in Lassen Volcanic National Park. Within each plot we recorded every tree by species, diameter, condition, and canopy position. Additionally, we measured each tree's height, height to live crown base and height to dead crown base. Finally, we took three hemispherical photographs of the forest canopy above each plot. We developed five topographic variables-elevation, slope, aspect, and two measures of topographic position-and used Landsat 5 spectral bands 1-5, and 7 as well as the Normalized Difference Vegetation Index (NDVI) and the Tasseled Cap Greenness, Brightness, and Wetness to model and then predict these canopy fuels variables for both 2009 and 2003 across LVNP. RF models relating predictor variables to canopy fuels characteristics had pseudo-r2 values ranging from 0.55 to 0.68. To demonstrate the potential utility of our mapping procedure, we used our 2003 canopy fuels map along with a previously unpublished contemporary surface fuels map and the fire behavior modeling program FlamMap® to relate predicted fire behavior of our fuels maps with fire severity from the Monitoring Trends in Burn Severity (MTBS) dataset for the Bluff (2004) fire.
AB - Fire managers often need data that is spatially explicit at a fine scale (30m) but is also laborious and time consuming to collect. This study integrates Landsat 5 imagery and topographic information with plot and tree based data to model and map four key canopy fuels variables: Canopy Bulk Density (CBD), Canopy Cover (CC), Canopy Base Height (CBH), and canopy Height (HT). We sampled 223 plots of 500m2 each in Lassen Volcanic National Park. Within each plot we recorded every tree by species, diameter, condition, and canopy position. Additionally, we measured each tree's height, height to live crown base and height to dead crown base. Finally, we took three hemispherical photographs of the forest canopy above each plot. We developed five topographic variables-elevation, slope, aspect, and two measures of topographic position-and used Landsat 5 spectral bands 1-5, and 7 as well as the Normalized Difference Vegetation Index (NDVI) and the Tasseled Cap Greenness, Brightness, and Wetness to model and then predict these canopy fuels variables for both 2009 and 2003 across LVNP. RF models relating predictor variables to canopy fuels characteristics had pseudo-r2 values ranging from 0.55 to 0.68. To demonstrate the potential utility of our mapping procedure, we used our 2003 canopy fuels map along with a previously unpublished contemporary surface fuels map and the fire behavior modeling program FlamMap® to relate predicted fire behavior of our fuels maps with fire severity from the Monitoring Trends in Burn Severity (MTBS) dataset for the Bluff (2004) fire.
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U2 - 10.1016/j.foreco.2012.05.010
DO - 10.1016/j.foreco.2012.05.010
M3 - Article
AN - SCOPUS:84862676014
SN - 0378-1127
VL - 279
SP - 77
EP - 89
JO - Forest Ecology and Management
JF - Forest Ecology and Management
ER -