1989
DOI: 10.5558/tfc65258-4
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Canadian Forest Fire Danger Rating System: An Overview

Abstract: Forest fire danger rating research in Canada was initiated by the federal government in 1925. Five different fire danger rating systems have been developed since that time, each with increasing universal applicability across Canada. The approach has been to build on previous danger rating systems in an evolutionary fashion and to use field experiments and empirical analysis extensively. The current system, the Canadian Forest Fire Danger Rating System (CFFDRS), has been under development by Forestry Canada sin… Show more

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Cited by 253 publications
(165 citation statements)
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“…In terms of their stand structure and fire behaviour characteristics, these two species are similar and are a very common forest type found across Canada. Although there are numerous published descriptions of the FWI System and its components (e.g., Stocks et al 1989), the mathematical structure of the system, as it is used today, was described by Van Wagner (1987).…”
Section: The Fire Weather Index Systemmentioning
confidence: 99%
“…In terms of their stand structure and fire behaviour characteristics, these two species are similar and are a very common forest type found across Canada. Although there are numerous published descriptions of the FWI System and its components (e.g., Stocks et al 1989), the mathematical structure of the system, as it is used today, was described by Van Wagner (1987).…”
Section: The Fire Weather Index Systemmentioning
confidence: 99%
“…MC2 was initialized with climate data representing 1895-1950(PRISM, Daly et al 2008) and run forward from 1950 to 2100 with the downscaled GCM climate data. The MC2 wildfire model (Lenihan et al 2008a;Lenihan et al 2008b) initiates fires based on fuel moisture conditions (driven by temperature and relative humidity), with critical parameters in the form of Canadian Forest Fire Weather System BUI (Build-up Index) and FFMC (Fine Fuel Moisture Code) indices (Stocks et al 1989). Here, the BUI and FFMC thresholds were adjusted to produce a fire regime that approximated the historical rate of standreplacing fire in our domain during the 1985-2010 interval (see below).…”
Section: The Dynamic Global Vegetation Modelmentioning
confidence: 99%
“…The most common variables for those simulations are fuel moisture (estimated as a function of temperature, humidity and precipitation), wind speed, and terrain conditions (such as slope or aspect). Examples of widely-used fire behavior models are BehavePlus [8], the National Fire Danger Rating System [9], the Canadian Forest Fire Behavior Prediction System [10], and the Fuel Characteristic Classification System [11]. These systems were developed for regional or national territories, where fuel characteristics information is available,…”
Section: Introductionmentioning
confidence: 99%