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Methods are presented for analyzing the relationship between fire danger rating indexes and fire activity as a means of evaluating the performance of fire danger rating systems. Percentile analysis is used to examine the data itself; logistic regression provides a means for statistical analysis. Ranking of selected items indicates indexes that deserve further assessment using subjective considerations. Methods rely on generally available data: the fire danger index for every day in the fire season, fire discovery date, and final fire size. For logistic regression analysis, the independent variable is the index, and dependent variables are fire-day, large-fire-day, and multiple-fire day. Data analysis methods have been incorporated into the Fire Family Plus computer program for easy application. Potential uses of the analysis include choosing the most appropriate fire danger index and fuel model for an area, evaluating proposed changes to a fire danger rating system, and assessing the performance of a system in a location other than that for which it was designed. As a demonstration, this technique was applied to evaluation of several indexes and fuel models of the U.S. National Fire Danger Rating System on the Tonto National Forest in Arizona, USA, using fire and weather data from 1974-2001.
Cataloging Information
- annual plant
- Arizona
- climatology
- computer program
- coniferous forests
- conifers
- dead fuels
- fire danger rating
- fire frequency
- fire management planning
- fire size
- fire weather
- forbs
- forest management
- fuel models
- fuel types
- grasses
- hardwoods
- heavy fuels
- logistic regression
- pine forests
- pocosins
- slash
- statistical analysis
- tundra
- weather observations
- wilderness fire management
- wildfires
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