2003
DOI: 10.5558/tfc79976-5
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Assessing the probability of crown fire initiation based on fire danger indices

Abstract: The initiation of crown fires in conifer stands was modelled through logistic regression analysis by considering as independent variables a basic physical descriptor of the fuel complex structure and selected components of the Canadian Forest Fire Weather Index (FWI) System. The study was based on a fire behaviour research database consisting of 63 experimental fires covering a relatively wide range of burning conditions and fuel type characteristics. Four models were built with decreasing input needs. Signifi… Show more

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Cited by 38 publications
(36 citation statements)
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“…This is in concordance with other studies, where similar predicting variables have also been used as an indicator of stand-level competition and have been shown to influence fire risk probability (González et al 2006). Denser stands comprised of smaller trees are more prone to high-intensity crown fire due to high vertical and horizontal continuity (Van Wagner 1977, Cruz et al 2004. Wildfire occurrence probability also decreases with stand dominant height (hdom).…”
Section: Discussionsupporting
confidence: 75%
See 1 more Smart Citation
“…This is in concordance with other studies, where similar predicting variables have also been used as an indicator of stand-level competition and have been shown to influence fire risk probability (González et al 2006). Denser stands comprised of smaller trees are more prone to high-intensity crown fire due to high vertical and horizontal continuity (Van Wagner 1977, Cruz et al 2004. Wildfire occurrence probability also decreases with stand dominant height (hdom).…”
Section: Discussionsupporting
confidence: 75%
“…The rate of fuel accumulation after a wildfire in a eucalypt forest is relatively high, declining progressively after 5-8 years and stabilizing at a level that depends on the prevailing environmental conditions (Gould et al 2011). Moreover, the abundance of shrubs contributes to an easier spread of surface fires and facilitate the starting of crown fires because of the vertical fuel continuity (Rothermel & Philpot 1983, Finney 1999, Cruz et al 2004. From a fire suppression viewpoint, the effectiveness of silvicultural treatments can be gauged by their ability to prevent crown fires (Keeley & Zedler 2009).…”
Section: Discussionmentioning
confidence: 99%
“…• Likelihood of crown fire initiation or occurrence based on two distinct approaches, one of which relies on the CBH or certain components of the Canadian FWI System (Cruz et al 2003b), whereas the other is determined by the fine dead fuel moisture (table 8-2), CBH, windspeed, and an estimate of surface fuel consumption ) ( fig. 8-17).…”
Section: Other Empirically Based Approachesmentioning
confidence: 99%
“…Consequently, fire danger rating To avoid this tendency, the assumptions on which the systems are based and the range of conditions under which the systems are valid need to be defined carefully and checked frequently (Brown and Davis 1973). Most importantly, fire danger values must be correlated with empirical measures of fire occurrence or severity through experimentation and analysis of historical records (Harvey et al 1986;Viegas et al 1999;Cruz et al 2003). The use of fire danger systems can result in two types of error, which are illustrated for two conditions, 'High' and 'Low' fire danger levels in Table 2: • Type I errors (errors of commission or false positives) occur when the system 'sounds an alarm', but no real potential for serious fires exists: fire danger is overestimated; • Type II errors (errors of omission or false negatives) occur when serious fires take place prior to the system 'sounding an alarm' or when the system 'sounds no alarm at all': fire danger is underestimated.…”
Section: Principles Of Fire Danger Ratingmentioning
confidence: 99%