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 6 2017


We identified strategies that reduced risk for both conservation and property. Increasing fuel treatment area in landscapes can be beneficial by reducing burn probability and wildfire extent. However, impact from exposure to fire remains high. Additional complementary strategies will provide further risk reduction benefits.


This paper examines relationships between wildfire knowledge and experience, preparedness and information seeking in selected southern California communities. Findings support using two-way communication from agencies for geographically specific risk threat, and event-based and readiness information, along with one-way sources like television, which can act as a link to interactive media.

WF17046Prescribed fire as a tool to regenerate live and dead serotinous jack pine (Pinus banksiana) stands

Maria Sharpe, Hyejin Hwang, David Schroeder, Soung Ryoul Ryu and Victor J. Lieffers
pp. 478-484

We document regeneration 3 years after burning live and dead jack pine stands using different types of fire. Without fire, there was no regrowth of pine five summers after mortality. A higher percentage of cones were opened by fire in dead stands and continuous crown fire promoted pine seedlings in dead stands.

WF17065Fall and spring grazing influence fire ignitability and initial spread in shrub steppe communities

Kirk W. Davies, Amanda Gearhart, Chad S. Boyd and Jon D. Bates
pp. 485-490

We evaluated the effect of fall and spring grazing on fuels, fire ignition and initial spread in shrub steppe communities. Both grazing treatments decreased fine fuels and increased fuel moisture and subsequently decreased the probability of fire ignition and initial spread. Effects, however, varied by grazing management.

WF16167Mapping prescribed fire severity in south-east Australian eucalypt forests using modelling and satellite imagery: a case study

John Loschiavo, Brett Cirulis, Yingxin Zuo, Bronwyn A. Hradsky and Julian Di Stefano
pp. 491-497

Fire severity maps derived from satellite imagery and simulation modelling were compared with field data for a prescribed burn. Overall, the satellite-based map was more accurate than the modelled map, but both methods overestimated the area of unburnt forest. These methods provide viable approaches for mapping the severity of prescribed fires but need further refinement.


We examined the human and biophysical factors driving the regional distribution of wildfires in a Mediterranean area. We found a fire size-dependent pattern in which humans control the distribution of all fires whereas land cover and fire weather mainly explained the location of the largest fires. These factors should therefore be taken into consideration when projecting fire hazard.

WF16170Evaluation of the Canadian Precipitation Analysis (CaPA) to improve forest fire danger rating

Chelene C. Hanes, Piyush Jain, Mike D. Flannigan, Vincent Fortin and Guy Roy
pp. 509-522

Precipitation is a key component in fire danger prediction. Spatial interpolation of precipitation from sparse weather stations is a problem over large areas. A new precipitation analysis system that incorporates Doppler radar, weather station and forecast data was assessed and shown to improve precipitation estimation and resultant fire weather indices.


Wildfires are burning larger and hotter, with substantial impacts on forest wildlife. We review what is known about small-mammal responses to fire in North America; most studies focus only on changes in abundance between burned and mature forests. Our review highlights the need for more diverse research in study design and response variables to gain a richer understanding of small-mammal responses to fire.

WF16211High post-fire mortality of resprouting woody plants in Tasmanian Mediterranean-type vegetation

Áine Nicholson, Lynda D. Prior, George L. W. Perry and David M. J. S. Bowman
pp. 532-537

Resprouting is a key trait that helps plants recover after fire. Our survey following an extensive fire on an island in Bass Strait found resprouting rates were low, even in species with the capacity to resprout. This shows that the dichotomisation of plant species as ‘resprouters’ or ‘non-resprouters’ is overly simplistic.

WF16208Rice straw mulch for post-fire erosion control: assessing non-target effects on vegetation communities

Kristen L. Shive, Becky L. Estes, Angela M. White, Hugh D. Safford, Kevin L. O'Hara and Scott L. Stephens
pp. 538-549

Straw mulch is commonly applied to reduce post-fire erosion, but can have non-target effects on plant communities. Our study documented higher non-native plant cover and richness in areas treated with rice straw mulch, with 25 non-native species exclusive to mulched areas. Total plant cover and conifer regeneration were relatively unaffected.

Online Early

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

Published online 26 April 2017

WF16126The influence of incident management teams on the deployment of wildfire suppression resources

Michael Hand, Hari Katuwal, David E. Calkin and Matthew P. Thompson
 

Factors associated with daily use of suppression resources on large wildfires are investigated. After controlling for fire, landscape and geographic characteristics, unobserved differences between incident management teams account for ~14% of variation in suppression resources used to manage wildfire incidents.

Published online 20 April 2017

WF16137A review of challenges to determining and demonstrating efficiency of large fire management

Matthew P. Thompson, Francisco Rodríguez y Silva, David E. Calkin and Michael S. Hand
 

We review challenges to determining and demonstrating efficiency of strategic approaches to managing low-probability, high-consequence large fire events. Key knowledge gaps relate to quantifying the consequences of fire and how they may change under alternative suppression strategies.

Published online 13 February 2017

WF16135An empirical machine learning method for predicting potential fire control locations for pre-fire planning and operational fire management

Christopher D. O' Connor, David E. Calkin and Matthew P. Thompson
 

This research supports planning for and management of wildfires to improve resource allocation decisions and to reduce risk to fire responders. We use historical fire perimeters to identify landscape features and conditions associated with where fires stop, and leverage these relationships to predict potential future fire control locations.

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.

Published online 21 September 2016

WF16032Projected changes in Australian fire regimes during the 21st century and consequences for ecosystems

S. P. Harrison and D. I. Kelley
 

Simulations show reduced burnt area in northern Australia and increased burnt area in central and southern Australia in response to projected changes in 21st century climate. Climate-induced vegetation changes are as important as climate in determining future fire regimes. Changes in fire regime are large enough to cause changes in vegetation patterns.

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