2007
DOI: 10.1071/wf06078
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Coupled influences of topography and wind on wildland fire behaviour

Abstract: Ten simulations were performed with the HIGRAD/FIRETEC wildfire behaviour model in order to explore its utility in studying wildfire behaviour in inhomogeneous topography. The goal of these simulations is to explore the potential extent of the coupling between the fire, atmosphere, and topography. The ten simulations described in this paper include five different topographies, each run with two different ambient wind speeds of 6 and 12 m s–1. The five topologies explored are: an idealised hill (which serves as… Show more

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Cited by 78 publications
(58 citation statements)
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“…Strong local winds in the Foothills and Rocky Mountain areas (Burrows 1903) are likely to cause more spot fire activity (Albini 1979) than in the Boreal Forest or Boreal Shield. Fire behaviour also becomes increasingly influenced by the greater topographic complexity in the Foothills and Rocky Mountain areas (Linn et al 2007). Foothills and Rocky Mountain landscapes also tend to be dominated by continuous pure conifer stands, which are fuel types associated with higher probabilities of burning.…”
Section: Discussion Regional Differences In Burn Patternsmentioning
confidence: 99%
“…Strong local winds in the Foothills and Rocky Mountain areas (Burrows 1903) are likely to cause more spot fire activity (Albini 1979) than in the Boreal Forest or Boreal Shield. Fire behaviour also becomes increasingly influenced by the greater topographic complexity in the Foothills and Rocky Mountain areas (Linn et al 2007). Foothills and Rocky Mountain landscapes also tend to be dominated by continuous pure conifer stands, which are fuel types associated with higher probabilities of burning.…”
Section: Discussion Regional Differences In Burn Patternsmentioning
confidence: 99%
“…Of course, much more remains to be done concerning the complex, finer-scale interactions between wind and topography and their effects on fire behavior (Linn et al, 2007;Sharples, 2008). Further clarification of regional fire spread directions will be gathered from analysis of smoke plumes and time series of active fire, observed with satellite imagery.…”
Section: (A) (B) (C)mentioning
confidence: 99%
“…The atmospheric boundary layer (ABM) is the lowest portion of the atmosphere, extending on average about one kilometre, and ranging up to at most about three kilometres above the Earth's surface [72]. It consists of a number of distinct sublayers, and it is of utmost importance since the ABM is where firebrand transport occurs.…”
Section: Appendix A3 the Atmospheric Boundary Layermentioning
confidence: 99%