Importance of fuel treatment for limiting moderate-to-high intensity fire: findings from comparative fire modelling
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Authors
Cary, Geoffrey J.
Davies, Ian
Bradstock, Ross A.
Keane, R.E.
Flannigan, Mike D.
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Kluwer Academic Publishers
Abstract
Context Wildland fire intensity influences natural
communities, soil properties, erosion, and sequestered
carbon. Measuring effectiveness of fuel treatment for
reducing area of higher intensity unplanned fire is
argued to be more meaningful than determining effect
on total unplanned area burned.
Objectives To contrast the relative importance of fuel
treatment effort, ignition management effort and
weather for simulated total area burned and area burned
by moderate-to-high intensity fire, and to determine the
level of consensus among independent models.
Methods Published and previously unreported data
from simulation experiments using three landscape
fire models, two incorporating weather from southeastern
Australia and one with weather from a Mediterranean location, were compared. The comparison explored variation in fuel treatment and ignition management effort across ten separate years of daily weather. Importance of these variables was measured by the Relative Sum of Squares in a Generalised Linear Model analysis of total pixels burned and pixels burned with moderate-to-high intensity fire. Results Variation in fuel treatment effort, from 0 to 30 % of landscape treated, explained less than 7 % of variation in both total area burned and area burned by moderate-to-high intensity fire. This was markedly
less than that explained by variation in ignition management effort (0–75 % of ignitions prevented
or extinguished) and weather year in all models.
Conclusions Increased fuel treatment effort, within a
range comparable to practical operational limits, was
no more important in controlling simulated moderateto-high intensity unplanned fire than it was for total
unplanned area burned
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Landscape Ecology
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Restricted until
2099-12-31
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