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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

Volume 24 Number 5 2015

WF14208Anthropogenic effects on global mean fire size

Stijn Hantson, Gitta Lasslop, Silvia Kloster and Emilio Chuvieco
pp. 589-596

Humans have an important effect on fire size, but this has so far not been well quantified at a global scale. Here we describe a linear negative relationship between mean fire size and population density over the globe. We use this information to improve the global fire model SPITFIRE–JSBACH.


We developed a statistical model to predict whether random points on the urban interface were burnt by a sample of 677 past wildfires. The model had 98% accuracy and shows promise for predicting and mapping wildfire risk. Fire weather, the extent of forest, distance and time-since-fire were important predictors.

WF14177The influence of ignition technique on fire behaviour in spinifex open woodland in semiarid northern Australia

Paul R. Williams, Eleanor M. Collins, Mick Blackman, Clare Blackman, Jackie McLeod, Leasie Felderhof, Lauren Colless, Kate Masters, Simon Coates, Andrew Sturgess and Graeme Martin
pp. 607-612

Managed fires using spot ignition in spinifex open woodland of northern Australia can produce a more patchily burnt landscape, with less canopy severity than wildfires. The high severity of wildfires appears strongly influenced by fire front length, irrespective of fire season.

WF14128Fuel dynamics and vegetation recovery after fire in a semiarid Australian shrubland

Sarah A. Dalgleish, Eddie J. B. van Etten, William D. Stock and Chris Knuckey
pp. 613-623

We showed that shrubland fuel levels in semiarid Australia gradually accumulated for many decades following burning due to increases in shrub size and density, and buildup of dead plant material. This suggests that fire hazard will also increase over such time frames and that prescribed burning may help reduce this threat.

WF14089Interactions of fires of neighbouring shrubs in two- and three-shrub arrangements

Ambarish Dahale, Babak Shotorban and Shankar Mahalingam
pp. 624-639

Interactions of shrub fires were studied by physics-based modelling. Peak mass-loss rate and vertical fire spread rate were found to be larger for cases with a smaller separation distance between the shrubs. Generation of strong vorticity by higher gravitational torque appeared to be the cause of enhanced burning in the three-shrub arrangement.

WF14090Incorporating vegetation attenuation in radiant heat flux modelling

Glenn Newnham, Raphaele Blanchi, Kimberley Opie, Justin Leonard and Anders Siggins
pp. 640-649

We present a model of radiant heat incident on homes affected by wildfire. The model uses spatial information describing topography and arrangement of vegetation in the near vicinity. The attenuating influence of fuels that lie between the flame and the building are included in the calculation and their significance evaluated.


Spatial relationships between fire density and biophysical and human-related factors were found in in a south-eastern France study, pointing to wildland–urban interface as the principal driver of fire density; but at a smaller scale, some of these factors spatially varied. A better understanding of their influence on fire density will help to improve fire prevention at a fine scale.

WF14142Integrating forest fuels and land cover data for improved estimation of fuel consumption and carbon emissions from boreal fires

Kerry Anderson, Brian Simpson, Ronald J. Hall, Peter Englefield, Michael Gartrell and Juha M. Metsaranta
pp. 665-679

The potential of spatial fuel maps to improve estimation of wildland fire carbon emissions in Canada’s National Forest Carbon Monitoring, Accounting and Reporting System was evaluated. The use of spatial fuel maps was found to increase the precision of estimated total carbon emissions for select wildfires in western Canada.

WF14005Fire history of a mixed conifer forest on the Mogollon Rim, northern Arizona, USA

David W. Huffman, Thomas J. Zegler and Peter Z. Fulé
pp. 680-689

We reconstructed fire regime characteristics of a mixed conifer forest landscape in northern Arizona and analysed composite fire intervals, point fire intervals, natural fire rotation, landscape characteristics and forest age structure. Results showed that the historical fire regime on this landscape was one of high-frequency, low-severity fires.

WF14123Bird diversity increases after patchy prescribed fire: implications from a before–after control–impact study

Holly Sitters, Julian Di Stefano, Fiona J. Christie, Paul Sunnucks and Alan York
pp. 690-701

We investigated avian responses to patchy, low-severity prescribed fire at two spatial scales. Prescribed fire increased bird diversity at finer spatial scales and allowed persistence of species detected in pre-fire surveys. We recommend formal incorporation of patchiness into prescribed burning for ecologically sensitive fire management.

WF14163Small mammals decline with increasing fire extent in northern Australia: evidence from long-term monitoring in Kakadu National Park

Michael J. Lawes, Brett P. Murphy, Alaric Fisher, John C. Z. Woinarski, Andrew C. Edwards and Jeremy Russell-Smith
pp. 712-722

We compared the effect of fire extent, fire frequency, season and spatial heterogeneity (patchiness) of the burnt area on mammal declines in Kakadu National Park over a recent decadal period. Fire extent was the most important aspect of fire regimes associated with declines. Small mammals appear most affected by extensive (at scales larger than the home ranges of small mammals) and less patchy fires.

WF14181Modelling and mitigating dose to firefighters from inhalation of radionuclides in wildland fire smoke

Brian J. Viner, Tim Jannik, Daniel Stone, Allan Hepworth, Luke Naeher, Olorunfemi Adetona, John Blake and Teresa Eddy
pp. 723-733

Fires in radiological contaminated areas may expose firefighters to airborne radioactive material. Modelling fuel conditions and smoke dispersion for a range of case studies showed regulatory dose limits were not exceeded in most cases. Consideration of plume rise further reduced the predicted dose. Our approach can be applied to a range of burn scenarios.

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