Forest fire burn areas in Western Canada modeled as self-similar criticality

Forest fire burn areas in the western Canadian provinces of Alberta and British Columbia have cumulative frequency-area istributions that are well described by a power law or an upper-truncated power law. The power law scaling extends over as any as five orders of magnitude and is observed for different geographical regions and for time intervals ranging from 1 to 40 ears. The observed scaling exponent varies both geographically within and between provinces and temporally between annual ecords. The temporal variability decreases at the decadal scale, suggesting that decadal distributions may be useful for long erm fire control planning within a geographical region. For example, for all of Alberta, based on the scaling parameters that escribe the 1961–2000 record, we expect approximately 24 fires per year of 100 ha or larger. Unlike the original self-organized riticality (SOC) forest fire model that produces a single scaling exponent, the self-similar criticality (SSC) model replicates the ange of scaling exponents observed for cumulative frequency-area distributions of natural forest fires. 2005 Elsevier B.V. All rights reserved.