Statistical Models of Key Components of Wildfire Risk

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Abstract

Fire danger systems have evolved from qualitative indices, to process-driven deterministic models of fire behavior and growth, to data-driven stochastic models of fire occurrence and simulation systems. However, there has often been little overlap or connectivity in these frameworks, and validation has not been common in deterministic models. Yet, marked increases in annual fire costs, losses, and fatality costs over the past decade draw attention to the need for better understanding of fire risk to support fire management decision making through the use of science-backed, data-driven tools. Contemporary risk modeling systems provide a useful integrative framework. This article discusses a variety of important contributions for modeling fire risk components over recent decades, certain key fire characteristics that have been overlooked, and areas of recent research that may enhance risk models.

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Most cited references 112

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Western United States forest wildfire activity is widely thought to have increased in recent decades, yet neither the extent of recent changes nor the degree to which climate may be driving regional changes in wildfire has been systematically documented. Much of the public and scientific discussion of changes in western United States wildfire has focused instead on the effects of 19th- and 20th-century land-use history. We compiled a comprehensive database of large wildfires in western United States forests since 1970 and compared it with hydroclimatic and land-surface data. Here, we show that large wildfire activity increased suddenly and markedly in the mid-1980s, with higher large-wildfire frequency, longer wildfire durations, and longer wildfire seasons. The greatest increases occurred in mid-elevation, Northern Rockies forests, where land-use histories have relatively little effect on fire risks and are strongly associated with increased spring and summer temperatures and an earlier spring snowmelt.

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Leo Breiman (2001)

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Author and article information

Journal

Title: Annual Review of Statistics and Its Application

Abbreviated Title: Annu. Rev. Stat. Appl.

Publisher: Annual Reviews

ISSN (Print): 2326-8298

ISSN (Electronic): 2326-831X

Publication date Created: March 07 2019

Publication date (Print): March 07 2019

Volume: 6

Issue: 1

Pages: 197-222

Affiliations

[1 ]Department of Statistical and Actuarial Sciences, University of Western Ontario, London, Ontario N6A 5B7, Canada;,

[2 ]Pacific Forestry Centre, Natural Resources Canada, Victoria, British Columbia V8Z 1M5, Canada;

[3 ]Department of Statistics and Actuarial Science, University of Waterloo, Waterloo, Ontario N2L 3G1, Canada;

Article

DOI: 10.1146/annurev-statistics-031017-100450

SO-VID: e7e146a3-35da-4626-9b52-2cdc2700f337

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ScienceOpen disciplines: Sociology,Social policy & Welfare,Earth & Environmental sciences,Urban studies,Geosciences,Anthropology

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ScienceOpen disciplines: Sociology, Social policy & Welfare, Earth & Environmental sciences, Urban studies, Geosciences, Anthropology

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