International Journal of Wildland Fire International Journal of Wildland Fire Society
Journal of the International Association of Wildland Fire

International Journal of Wildland Fire

International Journal of Wildland Fire

International Journal of Wildland Fire publishes articles on basic and applied aspects of wildland fire science including, but not confined to, ecological impact, modelling fire and its effects, and management of fire. Read more about the journalMore

Editors-in-Chief: Susan G. Conard and Stefan Doerr

Current Issue

International Journal of Wildland Fire

Volume 26 Number 1 2017

The research investigated different understandings of risk and resilience in emergency management. Findings indicate that uncertainty tends to be framed as knowable risk. Resilience consequently appears as the product of risk reduction and response. We argue that this limited understanding affects people’s ability to know their risk, make decisions and, therefore, be resilient.

This paper presents a probabilistic model for predicting house damage due to wildfire at the mesoscale. The model is based on Bayesian networks (BN), and its inputs are readily available spatiotemporal datasets. The BN is coupled with a GIS for a spatially explicit estimate of expected house damages. Numerical investigations are carried out for Cyprus.

This work showed that the use of Landsat satellite imagery through the differenced Normalized Burn Ratio (dNBR) index provides a valuable approach for the quantification and mapping of burn severity in eastern boreal forests of Canada, which is useful in post-fire ecology research and management.

Charcoal was collected from mosses and traps after a wildfire in NE China. Although both macroscopic and microscopic charcoals were found to have been dispersed across long distances, their concentrations clearly distinguished burnt areas from unburnt areas. The burnt area and the vegetation were major factors in determining charcoal abundances.

The ignition of natural fuels by hot metal particles from powerlines and welding may initiate wildfires. In this work, we measured the minimum particle temperature required to ignite pine needles for variable particle sizes and fuel moisture contents. We provide a theory to explain the critical ignition conditions and ignition delay time.

WF16077Effects of fire radiative energy density dose on Pinus contorta and Larix occidentalis seedling physiology and mortality

Alistair M. S. Smith, Alan F. Talhelm, Daniel M. Johnson, Aaron M. Sparks, Crystal A. Kolden, Kara M. Yedinak, Kent G. Apostol, Wade T. Tinkham, John T. Abatzoglou, James A. Lutz, Anthony S. Davis, Kurt S. Pregitzer, Henry D. Adams and Robert L. Kremens
pp. 82-94

Through controlled nursery and combustion laboratory experiments we show that increased doses of fire radiative energy density can lead to potential mortality or reduced vigour in surviving seedlings. Doses required to sustain or eliminate two woody species are identified. Seedling physiological responses and mortality change with increasing doses of fire radiative energy density.

WF16139Impacts of fire radiative flux on mature Pinus ponderosa growth and vulnerability to secondary mortality agents

Aaron M. Sparks, Alistair M. S. Smith, Alan F. Talhelm, Crystal A. Kolden, Kara M. Yedinak and Daniel M. Johnson
pp. 95-106

Through stand-scale prescribed fires, we demonstrate that fire radiative flux has a dose–response relationship with Pinus ponderosa growth post-fire. Generally, as dose of fire radiative flux increased, post-fire radial growth decreased. We also show that tree resin duct defences are increased, regardless of fire intensity.

Online Early

The peer-reviewed and edited version of record published online before inclusion in an issue

Published online 02 November 2016

WF16073A simulation and optimisation procedure to model daily suppression resource transfers during a fire season in Colorado

Yu Wei, Erin J. Belval, Matthew P. Thompson, Dave E. Calkin and Crystal S. Stonesifer

We developed and implemented a model to improve engine and crew assignments and transfers during a fire season. We implemented this model to study how multiple factors may influence engine and crew transfer costs and efficiencies. Results show we could decrease engine and crew transport costs through efficient resource dispatching.

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These articles have been peer reviewed and accepted for publication. They are still in production and have not been edited, so may differ from the final published form.

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  1. Predicting wildfire spread and behaviour in Mediterranean landscapes

    International Journal of Wildland Fire 25 (10)
    Michele Salis, Bachisio Arca, Fermin Alcasena, Margarita Arianoutsou, Valentina Bacciu, Pierpaolo Duce, Beatriz Duguy, Nikos Koutsias, Giorgos Mallinis, Ioannis Mitsopoulos, José M. Moreno, José Ramón Pérez, Itziar R. Urbieta, Fotios Xystrakis, Gonzalo Zavala, Donatella Spano

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