Article Title,Year,Volume,Issue,Page Range,Author
Seasonal fire danger forecasts for the USA,2005,14,1,1-18,Roads
Science technology and human factors in fire danger rating: the Canadian experience,2006,15,1,121,Taylor
Autonomous field-deployable wildland fire sensors,2003,12,2,237-244,Kremens
A Physics-Based Approach to Modelling Grassland Fires,2007,16,1,1-22,Gould
Factors Influencing Wildfire Occurrence and Distribution in Eastern Kentucky USA,2007,16,1,23-33,Henry
Shrubland Fire Regime Scenarios in the Swartberg Mountain Range South Africa: Implications for Fire Management,2007,16,1,81-95,Seydack
Fire-Growth Modelling Using Meteorological Data With Random and Systematic Perturbations,2007,16,2,174-182,Anderson
Modelling the Probability of Sustained Flaming: Predictive Value of Fire Weather Index Components Compared With Observations of Site Weather and Fuel Moisture Conditions,2007,16,2,161-173,Beverly
Coupled Influences of Topography and Wind on Wildland Fire Behaviour,2007,16,2,183-195,Smith
Fire Danger Rating in the United States of America: an Evolution Since 1916,2007,16,2,217-231,Hardy
Precipitation Associated With Lightning-Ignited Wildfires in Arizona and New Mexico,2007,16,2,242-254,Hall
Construction of empirical models for predicting pinus sp. dead fine fuel moisture in NW Spain. i: response to changes in temperature and relative humidity,2009,18,1,71-83,Ruiz González
Fire intensity fire severity and burn severity: a brief review and suggested usage,2009,18,1,116-126,Keeley
Frequency and season of fires varies with distance from settlement and grass composition in eucalyptus miniata savannas of the Darwin region of Northern Australia,2009,18,1,61-70,Elliott
Regional-scale weather patterns and wildland fires in central Portugal,2009,18,1,36-49,Hoinka
The importance of fire–atmosphere coupling and boundary-layer turbulence to wildfire spread,2009,18,1,50-60,Jenkins
A computational method for optimising fuel treatment locations,2007,16,6,702-711,Finney
A critical assessment of the burning index in Los Angeles County California,2007,16,4,473-483,Woods
A fuel treatment reduces fire severity and increases suppression efficiency in a mixed conifer forest,2007,16,6,673-678,Moghaddas
A pragmatic assessment of the usefulness of the modis (terra and aqua) 1-km active fire (mod14a2 and myd14a2) products for mapping fires in the fynbos biome,2008,17,2,166-178,de Klerk
A simulation model of the growth and suppression of large forest fires in Ontario,2007,16,3,285-294,Podur
A variable property heat transfer model for predicting soil temperature profiles during simulated wildland fire conditions,2008,17,2,205-213,Torvi
Analysis of Alaskan burn severity patterns using remotely sensed data,2007,16,3,277-284,Duffy
Assessing the differenced normalized burn ratio’s ability to map burn severity in the boreal forest and tundra ecosystems of alaska’s national parks,2008,17,4,463-475,Allen
Climate drivers of regionally synchronous fires in the inland Northwest (1651–1900),2008,17,1,40-49,McKenzie
Climate effects on historical fires (1630–1900) in Utah,2008,17,1,28-39,Heyerdahl
Climatic influences on fire regimes in montane forests of the southern cascades California USA,2008,17,1,60-71,Taylor
Combustion characteristics of north-eastern usa vegetation tested in the cone calorimeter: invasive versus non-invasive plants,2007,16,4,426-443,White
Dendroclimatic inference of wildfire activity in Quebec over the 20th Century and implications for natural disturbance-based forest management at the northern limit of the commercial forest,2008,17,3,348-362,Flannigan
Development of an index for quick comparison of helicopter costs and benefits,2007,16,4,444-449,Trethewey
Development of fuel models for fire behaviour prediction in maritime pine (pinus pinaster ait.) stands,2008,17,2,194-204,Cruz
Different interest group views of fuels treatments: survey results from fire and fire surrogate treatments in a Sierran mixed conifer forest California USA,2008,17,2,224-233,Moghaddas
Effectiveness of aerial seeding and straw mulch for reducing post-wildfire erosion North-Western Montana USA,2008,17,5,559-571,Groen
Effects of a long-term fire retardant chemical (fire-trol 934) on seed viability and germination of plants growing in a burned mediterranean area,2007,16,3,349-359,Luna
Efficacy of permanent firebreaks and aerial prescribed burning in western Arnhem land northern territory Australia,2007,16,3,295-307,Price
Efficient simulation of wildfire spread on an irregular grid,2008,17,5,614-627,Johnston
Estimating crown fuel loading for Calabrian pine and Anatolian black pine,2008,17,1,147-154,Küçük
Estimation of dead fuel moisture content from meteorological data in mediterranean areas. Applications in fire danger assessment,2007,16,4,390-397,Aguado
Estimation of shrub height for fuel-type mapping combining airborne lidar and simultaneous color infrared ortho imaging,2007,16,3,341-348,Viegas
Evaluating predictive models of critical live fuel moisture in the Santa Monica mountains California,2008,17,1,18-27,Dennison
Evaluating the ability of the differenced normalized burn ratio (dnbr) to predict ecologically significant burn severity in Alaskan boreal forests,2008,17,4,490-499,Murphy
Evaluating the effectiveness of contour-felled log erosion barriers as a post-fire runoff and erosion mitigation treatment in the Western United States,2008,17,2,255-273,Brown
Evaluating the potential of landsat tm/etm+ imagery for assessing fire severity in Alaskan black spruce forests,2008,17,4,500-514,Hoy
Evaluation of farsite simulator in mediterranean maquis,2007,16,5,563-572,Arca
Evaluation of the composite burn index for assessing fire severity in Alaskan black spruce forests,2008,17,4,515-526,Hoy
Experimental fire behaviour in managed pinus sylvestris and picea abies stands of Finland,2007,16,4,414-425,Tanskanen
Factors in United States forest service district rangers’ decision to manage a fire for resource benefit,2007,16,6,755-762,Williamson
Factors influencing large wildland fire suppression expenditures,2008,17,5,650-659,Liang
Fine-scale variation of historical fire regimes in sagebrush-steppe and juniper woodland: an example from California USA,2008,17,2,245-254,Heyerdahl
Fire activity in Portugal and its relationship to weather and the Canadian fire weather index system,2008,17,3,328-338,Flannigan
Fire and stand history in two limber pine (pinus flexilis) and rocky mountain bristlecone pine (pinus aristata) stands in Colorado,2008,17,3,339-347,Brown
Fire ignitions related to radar reflectivity patterns in Arizona and New Mexico,2008,17,3,317-327,Hall
Fuel and fire characteristics in savanna–woodland of West Africa in relation to grazing and dominant grass type,2007,16,5,531-539,Savadogo
Holocene vegetation and fire regimes in subalpine and mixed conifer forests southern rocky mountains USA,2008,17,1,96-114,Anderson
Human and biophysical factors influencing modern fire disturbance in northern Wisconsin,2007,16,4,398-413,Sturtevant
Implementation of mid-scale fire regime condition class mapping,2008,17,3,390-406,Campbell
Influence of water and terpenes on flammability in some dominant mediterranean species,2008,17,2,274-286,Alessio
Integrating new methods and tools in fire danger rating,2007,16,3,306-316,Vasilakos
Laboratory determination of factors influencing successful point ignition in the litter layer of shrubland vegetation,2008,17,5,628-637,Anderson
Landscape-scale changes in canopy fuels and potential fire behaviour following ponderosa pine restoration treatments,2008,17,2,293-303,Roccaforte
Long-term relations among fire fuel and climate in the north-western US based on lake-sediment studies,2008,17,1,72-83,Long
Manager-based valuations of alternative fire management regimes on Cape York Peninsula Australia,2008,17,5,660-673,Drucker
Mapping the severity of fire using object-based classification of Ikonos imagery,2008,17,3,431-442,Mitri
Meteorologically influenced wildfire impacts on urban particulate matter and visibility in Tucson Arizona USA,2008,17,2,214-223,Wise
Modelling the effects of landscape fuel treatments on fire growth and behaviour in a mediterranean landscape (eastern Spain),2007,16,5,619-632,Duguy
Physically motivated empirical models for the spread and intensity of grass fires,2008,17,5,595-601,Higgins
Predicting spatial patterns of fire on a southern California landscape,2008,17,5,602-613,Radeloff
Problems paradoxes paradigms: triangulating fire research,2007,16,3,271-276,Pyne
Quantifying parametric uncertainty in the Rothermel model,2008,17,5,638-649,Jimenez
Remote sensing of burn severity: experience from western Canada boreal fires,2008,17,4,476-489,Hall
Review of formal methodologies for wind–slope correction of wildfire rate of spread,2008,17,2,179-193,Sharples
Seasonal and topographic effects on estimating fire severity from Landsat tm/etm+ data,2008,17,4,527-534,Hoy
Seasonal variations of live moisture content and ignitability in shrubs of the Mediterranean basin,2007,16,5,633-641,Duce
Sensitivity of a surface fire spread model and associated fire behaviour fuel models to changes in live fuel moisture,2007,16,4,503-509,Jolly
Separating combustion from pyrolysis in HIGRAD/FIRETEC,2007,16,4,493-502,Colman
Simulation of long-term landscape-level fuel treatment effects on large wildfires,2007,16,6,712-727,Finney
Soil temperatures during autumn prescribed burning: Implications for the germination of fire responsive species?,2008,17,5,572-578,Penman
Spatial and temporal patterns of plant functional types under simulated fire regimes,2007,16,4,484-492,Lloret
Stand-specific litter moisture content calibrations for the Canadian fine fuel moisture code,2007,16,4,463-472,Beverly
The contribution of fire research to fire management: A critical review of a long-term experiment in the Kruger national park South Africa,2007,16,5,519-530,Biggs
The relationship between the monsoonal summer rain and dry-season fire activity of northern Australia,2008,17,5,674-684,Harris
The relative importance of fine-scale fuel mosaics on reducing fire risk in south-west Tasmania Australia,2008,17,3,421-430,Chapman
The role of extinction on the re-ignition potential of wood-based embers in bushfires,2007,16,5,547-555,Dlugogorski
The spatial and temporal distribution of fires on Sakhalin Island Russia,2007,16,5,556-562,Kasischke
Thermal infrared emission–transmission measurements in flames from a cylindrical forest fuel burner,2007,16,3,324-340,Dupuy
Traditional and ecological fires and effects of bushfire laws in north Australian savannas,2007,16,4,378-389,Preece
Using visual obstruction to estimate heathland fuel load and structure,2008,17,3,380-389,Smith
Variability in fire-climate relationships in ponderosa pine forests in the Colorado front range,2008,17,1,50-59,Sherriff
What do we know about forest fire size distribution and why is this knowledge useful for forest management?,2008,17,2,234-244,Cui
Zigzag shape of the fire front,2007,16,6,763-764,Viegas
A model for calculating the temperature of aluminium particles ejected from overhead low-voltage lines owing to a short-circuit,2009,18,6,722-726,Psarros
A model for predicting human-caused wildfire occurrence in the region of Madrid Spain,2010,19,3,325-337,Martell
A new look at the role of fire-released moisture on the dynamics of atmospheric pyro-convection,2009,18,5,554-562,Luderer
A numerical study of slope and fuel structure effects on coupled wildfire behaviour,2010,19,2,179-201,Weise
A simple model for wind effects of burning structures and topography on wildland–urban interface surface-fire propagation,2009,18,3,290-301,Rehm
A sub-grid mixture–fraction-based thermodynamic equilibrium model for gas phase combustion in FIRETEC: development and results,2010,19,2,202-212,Linn
A surface fuel classification for estimating fire effects,2009,18,7,802-814,Lutes
An approach to operational forest fire growth predictions for Canada,2009,18,8,893-905,Little
An examination of fire spread thresholds in discontinuous fuel beds,2010,19,2,163-170,Cohen
An examination of flame shape related to convection heat transfer in deep-fuel beds,2010,19,2,171-178,Cohen
An experiment to test the potential for glass fragments to ignite wildland fuels,2009,18,7,885-891,Müller
An inverse method to estimate stem surface heat flux in wildland fires,2009,18,6,711-721,Bova
An overview of mountain meteorological effects relevant to fire behaviour and bushfire risk,2009,18,7,737-754,Sharples
Assessing ignition probability and moisture of extinction in a Mediterranean grass fuel,2010,19,1,29-34,Dimitrakopoulos
Assessing the capabilities of geospatial data to map built structures and evaluate their bushfire threat,2009,18,8,1010-1020,White
Assessing the exposure of the built environment to potential ignition sources generated from vegetative fuel,2010,19,3,299-313,Beverly
Australian grassland fire danger using inputs from the GRAZPLAN grassland simulation model,2010,19,3,338-345,King
Beyond wildfire: perspectives of climate managed fire and policy in the USA,2010,19,3,364-373,Brown
Climate lightning ignitions and fire severity in Yosemite National Park California USA,2009,18,7,765-774,Miller
Convective heat transfer in fire spread through fine fuel beds,2010,19,3,284-298,Anderson
Corrigendum to: Assessing canopy fuel stratum characteristics in crown fire prone fuel types of western North America,2010,19,1,iii,Alexander
Critical live fuel moisture in chaparral ecosystems: a threshold for fire activity and its relationship to antecedent precipitation,2009,18,8,1021-1027,Dennison
Critique of Sikkink and Keane's comparison of surface fuel sampling techniques,2010,19,3,374-376,Wright
Decision support tools to improve the effectiveness of hazardous fuel reduction treatments in the New Jersey Pine Barrens,2009,18,3,268-277,Cole
Detection of clusters using space–time scan statistics,2009,18,7,830-836,Tuia
Effect of vegetation heterogeneity on radiative transfer in forest fires,2009,18,5,536-553,Dupuy
Effectiveness of prescribed fire as a fuel treatment in Californian coniferous forests,2009,18,2,165-175,Stephens
Effects of targeted cattle grazing on fire behavior of cheatgrass-dominated rangeland in the northern Great Basin USA,2009,18,8,944-950,Diamond
Empirical modelling of surface fire behaviour in maritime pine stands,2009,18,6,698-710,Fernandes
Estimation of fire severity using pre- and post-fire LiDAR data in sagebrush steppe rangelands,2009,18,7,848-856,Wang
Estimation of grassland biophysical parameters using hyperspectral reflectance for fire risk map prediction,2009,18,7,815-824,Mason
Experimental measurements during combustion of moist individual foliage samples,2010,19,2,153-162,Weise
Factors influencing the pattern of fire severities in a large wildfire under extreme meteorological conditions in the Mediterranean basin,2009,18,7,755-764,Oliveras
Fire severity in a northern Australian savanna landscape: the importance of time since previous fire,2010,19,1,46-51,Murphy
Flammability descriptors of fine dead fuels resulting from two mechanical treatments in shrubland: a comparative laboratory study,2010,19,3,314-324,Fernandez
Flatland in flames: a two-dimensional crown fire propagation model,2009,18,5,527-535,Dickinson
Forest fire occurrence and climate change in Canada,2010,19,3,253-271,Flannigan
Generation of synthetic infrared remote-sensing scenes of wildland fire,2009,18,3,302-309,Coen
Ignition and flame-growth modelling on realistic building and landscape objects in changing environments,2010,19,2,228-237,Dietenberger
Implications of changing climate for global wildland fire,2009,18,5,483-507,Flannigan
Integrating values and risk perceptions into a decision support system,2010,19,1,123-136,Johnson
Integration of AWiFS and MODIS active fire data for burn mapping at regional level using the Burned Area Synergic Algorithm (BASA),2009,18,4,404-414,González-Alonso
Interpreting federal policy at the local level: the wildland–urban interface concept in wildfire protection planning in the eastern United States,2009,18,3,278-289,Williams
LANDFIRE: a nationally consistent vegetation wildland fire and fuel assessment,2009,18,3,235-249,Rollins
Landscape structural features control fire size in a Mediterranean forested area of central Spain,2009,18,5,575-583,Moreno
Modeling and mapping wildfire ignition risk in Portugal,2009,18,8,921-931,Rego
Natural variability of the Keetch–Byram Drought Index in the Hawaiian Islands,2009,18,4,459-475,Fujioka
Number of sensors versus time to detection in wildfires,2009,18,7,825-829,Fierens
Prediction of fire occurrence from live fuel moisture content measurements in a Mediterranean ecosystem,2009,18,4,430-441,Aguado
Prediction of the probability of large fires in the Sydney region of south-eastern Australia using fire weather,2009,18,8,932-943,Lucas
Public perspectives of fire fuels and the Forest Service in the Great Lakes Region: a survey of citizen–agency communication and trust,2009,18,2,157-164,Shindler
Rapid locating of fire points from Formosat-2 high spatial resolution imagery: example of the 2007 California wildfire,2009,18,4,415-422,Liu
Regional variations in wildfire susceptibility of land-cover types in Portugal: implications for landscape management to minimize fire hazard,2009,18,5,563-574,Moreira
Relationships among indices of fire severity in riparian zones,2009,18,5,584-593,Halofsky
Relative importance of fuel management ignition management and weather for area burned: evidence from five landscape–fire–succession models,2009,18,2,147-156,Li
Repeated disturbance through chaining and burning differentially affects recruitment among plant functional types in fire-prone heathlands,2010,19,1,52-62,Gosper
Road network density correlated with increased lightning fire incidence in the Canadian western boreal forest,2009,18,8,970-982,Krawchuk
Soil moisture dynamics and smoldering combustion limits of pocosin soils in North Carolina USA,2009,18,3,326-335,Reardon
Spatial and temporal characteristics of wildfires in Mississippi USA,2010,19,1,14-28,Grala
Spatial and temporal extremes of wildfire sizes in Portugal (1984–2004),2009,18,8,983-991,Bermudez
Spatial fuel data products of the LANDFIRE Project,2009,18,3,250-267,Rollins
Spatial variation of trends in wildfire and summer drought in British Columbia Canada 1920–2000,2010,19,3,272-283,Taylor
Spectral emission of flames from laboratory-scale vegetation fires,2009,18,7,875-884,Boulet
Spot fires: fuel bed flammability and capability of firebrands to ignite fuel beds,2009,18,8,951-969,Lampin-Maillet
Testing and classification of individual plants for fire behaviour: plant selection for the wildland–urban interface,2010,19,2,213-227,White
The development of fire-induced damage functions for forest recreation activity in Alberta Canada,2010,19,1,63-74,Rausch
The effect of fuel age on the spread of fire in sclerophyll forest in the Sydney region of Australia,2010,19,1,35-45,Price
The efficacy of fire and fuels reduction treatments in a Sierra Nevada pine plantation,2009,18,7,791-801,Mcbride
The wildland–urban interface fire problem – current approaches and research needs,2010,19,2,238-251,Rehm
Traditional fire management: historical fire regimes and land use change in pastoral East Africa,2009,18,4,442-450,Butz
Trust acceptance and citizen–agency interactions after large fires: influences on planning processes,2010,19,1,137-147,Olsen
Turbulent kinetic energy during wildfires in the north central and north-eastern US,2010,19,3,346-363,Heilman
Validation of FIRETEC wind-flows over a canopy and a fuel-break,2009,18,7,775-790,Linn
Validation studies of EUMETSAT’s active fire monitoring product over Turkey,2009,18,5,517-526,Tekeli
Wildland surface fire spread modelling 1990–2007. 1: Physical and quasi-physical models,2009,18,4,349-368,Sullivan
Wildland surface fire spread modelling 1990–2007. 2: Empirical and quasi-empirical models,2009,18,4,369-386,Sullivan
Wildland surface fire spread modelling 1990–2007. 3: Simulation and mathematical analogue models,2009,18,4,387-403,Sullivan
Wildland–urban interface fire behaviour and fire modelling in live fuels,2010,19,2,149-152,Weise
Modelling firebrand transport in wildfires using HIGRAD/FIRETEC,2012,21,4,396-417,Pagni
Fire behaviour in south-western Australian shrublands: evaluating the influence of fuel age and fire weather,2012,21,4,385-395,Fontaine
Fuel age weather and burn probability in Portugal,2012,21,4,380-384,Ferreira
Environmental susceptibility model for predicting forest fire occurrence in the Western Ghats of India,2012,21,4,368-379,Renard
Estimation of wildfire size and risk changes due to fuels treatments,2012,21,4,357-367,Zhu
Prediction of daily lightning- and human-caused fires in British Columbia,2012,21,4,342-356,Magnussen
Spatial variability in wildfire probability across the western United States,2012,21,4,313-327,Moritz
Fuel loadings 5 years after a bark beetle outbreak in south-western USA ponderosa pine forests,2012,21,3,306-312,Fulé
The influence of prescribed fire on the extent of wildfire in savanna landscapes of western Arnhem Land Australia,2012,21,3,297-305,Price
Wind-terrain effects on the propagation of wildfires in rugged terrain: fire channelling,2012,21,3,282-296,Sharples
Flame temperature and residence time of fires in dry eucalypt forest,2012,21,3,270-281,Wotton
Spatial and temporal patterns of wildfire ignitions in Canada from 1980 to 2006,2012,21,3,230-242,Gralewicz
The effect of aerial suppression on the containment time of Australian wildfires estimated by fire management personnel,2012,21,3,219-229,Gould
Impediments to prescribed fire across agency landscape and manager: an example from northern California,2012,21,3,210-218,Varner
Fire management on private conservation lands: knowledge perceptions and actions of landholders in eastern Australia,2012,21,3,197-209,Tran
A review of operations research methods applicable to wildfire management,2012,21,3,189-196,Minas
Corrigendum to: Factors influencing large wildland fire suppression expenditures,2012,21,2,186-187,Calkin
Evaluating regression model estimates of canopy fuel stratum characteristics in four crown fire-prone fuel types in western North America,2012,21,2,168-179,Alexander
Spatial and temporal drivers of wildfire occurrence in the context of rural development in northern Wisconsin USA,2012,21,2,141-154,Sturtevant
Entrainment regimes and flame characteristics of wildland fires,2012,21,2,127-140,Weise
Interdependencies between flame length and fireline intensity in predicting crown fire initiation and crown scorch height,2012,21,2,95-113,Alexander
Effects of high fire frequency in creosote bush scrub vegetation of the Mojave Desert,2012,21,1,61-68,Brooks
Fire frequency analysis in Portugal (1975-2005) using Landsat-based burnt area maps,2012,21,1,48-60,Oliveira
Evaluation of a very simple model for predicting the moisture content of eucalypt litter,2011,20,8,1000-1005,Sharples
Predicting post-fire hillslope erosion in forest lands of the western United States,2011,20,8,982-999,Miller
Wildfires and the Canadian Forest Fire Weather Index system for the Daxing'anling region of China,2011,20,8,963-973,Tian
Effect of particle orientation and of flow velocity on the combustibility of Pinus pinaster and Eucalyptus globulus firebrand material,2011,20,8,946-962,Viegas
Behaviour and effects of prescribed fire in masticated fuelbeds,2011,20,8,932-945,Varner
Complexity of homeowner wildfire risk mitigation: an integration of hazard theories,2011,20,8,921-931,McGee
Bayes Nets as a method for analysing the influence of management actions in fire planning,2011,20,8,909-920,Bradstock
Fuelbed ignition potential and bark morphology explain the notoriety of the eucalypt messmate 'stringybark' for intense spotting,2011,20,7,897-907,Ellis
Within-stand variation in understorey vegetation affects fire behaviour in longleaf pine xeric sandhills,2011,20,7,866-875,Wenk
Multi-scale evaluation of the environmental controls on burn probability in a southern Sierra Nevada landscape,2011,20,7,815-828,Parisien
Influences of forest roads on the spatial pattern of wildfire boundaries,2011,20,6,792-803,Narayanaraj
Regional forest-fire susceptibility analysis in central Portugal using a probabilistic ratings procedure and artificial neural network weights assignment,2011,20,6,776,Dimuccio
Factors affecting fuel break effectiveness in the control of large fires on the Los Padres National Forest California,2011,20,6,764-775,Keeley
Exploring three-dimensional coupled fire-atmosphere interactions downwind of wind-driven surface fires and their influence on backfires using the HIGRAD-FIRETEC model,2011,20,6,734-750,Vega
Prescribed burning: how can it work to conserve the things we value?,2011,20,6,721-733,Tran
Rhus glabra response to season and intensity of fire in tallgrass prairie,2011,20,5,709-720,Hajny
Assessing the susceptibility of semiarid rangelands to wildfires using Terra MODIS and Landsat Thematic Mapper data,2011,20,5,690-701,Chen
Landscape variables influencing forest fires in central Spain,2011,20,5,678-689,Viedma
The effects of wind on the flame characteristics of individual leaves,2011,20,5,657-667,Weise
Wildland fire spread modelling using cellular automata: evolution in large-scale spatially heterogeneous environments under fire suppression tactics,2011,20,5,633-647,Russo
Physical modelling of forest fire spreading through heterogeneous fuel beds,2011,20,5,625-632,Simeoni
The art of learning: wildfire amenity migration and local environmental knowledge,2011,20,4,612-624,Eriksen
Fire and carbon dynamics under climate change in south-eastern Australia: insights from FullCAM and FIRESCAPE modelling,2011,20,4,563-577,Cary
Regional signatures of future fire weather over eastern Australia from global climate models,2011,20,4,550-562,Clarke
The transferability of a dNBR-derived model to predict burn severity across 10 wildland fires in western Canada,2011,20,4,518-531,Daniels
Spatially explicit forecasts of large wildland fire probability and suppression costs for California,2011,20,4,508-517,Westerling
Defining fire spread event days for fire-growth modelling,2011,20,4,497-507,Wotton
Mapping burned area in Alaska using MODIS data: a data limitations-driven modification to the regional burned area algorithm,2011,20,4,487-496,Loboda
Relative importance of weather and climate on wildfire growth in interior Alaska,2011,20,4,479-486,Kolden
Fire danger estimation from MODIS Enhanced Vegetation Index data: application to Galicia region (north-west Spain),2011,20,3,465-473,Bisquert
Comparison of several kinetic approaches to evaluate the pyrolysis of three Mediterranean forest fuels,2011,20,3,407-417,Tihay
Numerical modelling of the aerial drop of firefighting agents by fixed-wing aircraft. Part II: model validation,2011,20,3,394-406,Amorim
Numerical modelling of the aerial drop of firefighting agents by fixed-wing aircraft. Part I: model development,2011,20,3,384-393,Amorim
Simulating landscape-scale effects of fuels treatments in the Sierra Nevada California USA,2011,20,3,364-383,Syphard
Community wildfire protection planning: is the Healthy Forests Restoration Act's vagueness genius?,2011,20,3,350-363,Nelson
Reducing fuels in the wildland-urban interface: community perceptions of agency fuels treatments,2011,20,3,340-349,Toman
Accommodating non-market values in evaluation of wildfire management in the United States: challenges and opportunities,2011,20,3,327-339,Calkin
The role of trust in residents' fire wise actions,2011,20,2,318-325,Absher
Slope effect on laboratory fire spread: contribution of radiation and convection to fuel bed preheating,2011,20,2,289-307,Maréchal
The effects of slope and fuel bed width on laboratory fire behaviour,2011,20,2,272-288,Maréchal
Declining fires in Larix-dominated forests in northern Irkutsk district,2011,20,2,248-254,Larjavaara
Quantifying the fire regime distributions for severity in Yosemite National Park California USA,2011,20,2,223-239,Miller
An optimisation modelling approach to seasonal resource allocation for planned burning,2011,20,2,175-183,Higgins
The combustion of sound and rotten coarse woody debris: a review,2011,20,2,163-174,Ottmar
Emission of biogenic volatile organic compounds involved in eruptive fire: implications for the safety of firefighters,2011,20,1,152-161,Barboni
Quantifying the influence of fuel age and weather on the annual extent of unplanned fires in the Sydney region of Australia,2011,20,1,142-151,Price
Career stages in wildland firefighting: implications for voice in risky situations,2011,20,1,115-124,Black
Effectiveness of three post-fire treatments at reducing soil erosion in Galicia (NW Spain),2011,20,1,104-114,Fonturbel
A North American regional reanalysis climatology of the Haines Index,2011,20,1,91-103,Lu
Built structure identification in wildland fire decision support,2011,20,1,78-90,Calkin
Relationships between landscape patterns and fire occurrence within a successional gradient in sagebrush steppe-juniper woodland,2011,20,1,69-77,Roth
Allocating fuel breaks to optimally protect structures in the wildland-urban interface,2011,20,1,59-68,Radeloff
On the comparative importance of fire danger rating indices and their integration with spatial and temporal variables for predicting daily human-caused fire occurrences in Spain,2011,20,1,46-58,Padilla
Modelling long-term fire regimes of southern California shrublands,2011,20,1,1-16,Dennison
Landscape composition influences local pattern of fire size in the eastern Canadian boreal forest: role of weather and landscape mosaic on fire size distribution in mixedwood boreal forest using the Prescribed Fire Analysis System,2010,19,8,1099-1109,Hély
Variation in local weather explains differences in fire regimes within a Québec south-eastern boreal forest landscape,2010,19,8,1073-1082,Flannigan
An evaluation of spatial and temporal patterns of lightning- and human-caused forest fires in Alberta Canada 1980-2007,2010,19,8,1059-1072,Anderson
Wildfires in boreal ecosystems: past present and some emerging trends,2010,19,8,991-995,Girardin
Post-fire regeneration strategies and flammability traits of California chaparral shrubs,2010,19,7,984-989,Cowan
'SINAMI': a tool for the economic evaluation of forest fire management programs in Mediterranean ecosystems,2010,19,7,927-936,Rodríguez y Silva
Meteorological conditions and wildfire-related houseloss in Australia,2010,19,7,914-926,Blanchi
Thermodynamic structure of a grass fire plume,2010,19,7,895-902,Clements
Firebrands and spotting ignition in large-scale fires,2010,19,7,818-843,Pagni
The economic cost of adverse health effectsfrom wildfire-smoke exposure: a review,2010,19,7,803-817,Champ
Methods to determine the impact of rainfall on fuels and burned area in southern African savannas,2010,19,6,774-782,Archibald
Prescribed burning of thinning slash in regrowth stands of jarrah (Eucalyptus marginata) following bauxite mining in south-west Australia,2010,19,6,737-745,Grigg
Burn severity mapping using simulation modelling and satellite imagery,2010,19,6,710-724,Keane
Building bridges to fight fire: the role of informal social interactions in six Colorado wildland-urban interface communities,2010,19,6,689-697,Brenkert-Smith
Adoption and perceptions of shelter-in-place in California's Rancho Santa Fe Fire Protection District,2010,19,6,677-688,Carroll
Economic optimisation of wildfire intervention activities,2010,19,5,659-672,Butry
Implementation of quantitative bushfire risk analysis in a GIS environment,2010,19,5,649-658,Atkinson
Volatile and semi-volatile organic compounds in smoke exposure of firefighters during prescribed burning in the Mediterranean region,2010,19,5,606-612,Simeoni
Ignition and fire spread thresholds in gorse (Ulex europaeus),2010,19,5,589-598,Anderson
Experimental investigation of the physical mechanisms governing the spread of wildfires,2010,19,5,570-582,Morandini
Evaluating Landsat Thematic Mapper spectral indices for estimating burn severity of the 2007 Peloponnese wildfires in Greece,2010,19,5,558-569,Veraverbeke
Environmental determinants of lightning- v. human-induced forest fire ignitions differ in a temperate mountain region of Switzerland,2010,19,5,541-557,Reineking
Linear model for spread rate and mass loss rate for mixed-size fuel beds,2010,19,5,531-540,Almeida
Monte Carlo-based ensemble method for prediction of grassland fire spread,2010,19,4,521-530,Cruz
The initiation of fire spread in shrubland fuels recreated in the laboratory,2010,19,4,512-520,Anderson
Economic analysis of geospatial technologies for wildfire suppression,2010,19,4,468-477,Hesseln
Simple models for predicting dead fuel moisture in eucalyptus forests,2010,19,4,459-467,Matthews
Beyond Landsat: a comparison of four satellite sensors for detecting burn severity in ponderosa pine forests of the Gila Wilderness NM USA,2010,19,4,449-458,Smith
Mesoscale model simulation of the meteorological conditions during the 2 June 2002 Double Trouble State Park wildfire,2010,19,4,427-448,Charney
NCEP-ECPC monthly to seasonal US fire danger forecasts,2010,19,4,399-414,Wang
Assessing crown fire potential in coniferous forests of western North America: a critique of current approaches and recent simulation studies,2010,19,4,377-398,Alexander
A comparison of bushfire fuel hazard assessors and assessment methods in dry sclerophyll forest near Sydney Australia,2012,21,6,755-763,Bradstock
A decision-making framework for wildfire suppression,2012,21,8,927-937,Carlson
A mathematical model for predicting the maximum potential spotting distance from a crown fire,2012,21,5,609-627,Alexander
A multivariate analysis of biophysical factors and forest fires in Spain 1991-2005,2012,21,5,498-509,Verdú
A new wildland fire danger index for a Mediterranean region and some validation aspects,2012,21,8,1030-1041,de Vicente
An alternative fire regime zonation for Canada,2012,21,8,1052-1064,Gauthier
Application of artificial neural networks and logistic regression to the prediction of forest fire danger in Galicia using MODIS data,2012,21,8,1025-1029,Bisquert
Application of QuickBird imagery in fuel load estimation in the Daxinganling region China,2012,21,5,583-590,Jin
Assessing the distribution patterns of wildfire sizes in Mississippi USA,2012,21,5,510-520,Sun
Atmospheric interactions with wildland fire behaviour - I. Basic surface interactions vertical profiles and synoptic structures,2012,21,7,779-801,Potter
Atmospheric interactions with wildland fire behaviour - II. Plume and vortex dynamics,2012,21,7,802-817,Potter
Australian wildfire litigation,2012,21,5,488-497,Eburn
Characteristics of lightning-attributed wildland fires in south-east Australia,2012,21,5,521-524,Dowdy
Corrigendum to: Estimating the amount of water required to extinguish wildfires under different conditions and in various fuel types,2012,21,6,778,Hansen
Coupled slope and wind effects on fire spread with influences of fire size: A numerical study using FIRETEC,2012,21,7,828-842,Dupuy
Early forest fire detection by vision-enabled wireless sensor networks,2012,21,8,938-949,Fernández-Berni
Effects of flame interaction on the rate of spread of heading and suppression fires in shrubland experimental fires,2012,21,8,950-960,Vega
Energy content of common fuels in upland pine savannas of the south-eastern US and their application to fire behaviour modelling,2012,21,5,591-595,Reid
Estimating the amount of water required to extinguish wildfires under different conditions and in various fuel types,2012,21,5,525-536,Hansen
Exploring phosphate effects on leaf flammability using a physical chemistry model,2012,21,8,1042-1051,Scarff
Fire suppression and burnt sediments: effects on the water chemistry of fire-affected wetlands,2012,21,5,557-561,Boyce
Firebrand generation data obtained from a full-scale structure burn,2012,21,8,961-968,Manzello
Forecasting intentional wildfires using temporal and spatiotemporal autocorrelations,2012,21,6,743-754,Goodrick
Fuel management effectiveness in a mixed heathland: a comparison of the effect of different treatment types on fire initiation risk,2012,21,8,969-979,Marino
Householder decision-making under imminent wildfire threat: Stay and defend or leave?,2012,21,7,915-925,McLennan
Identifying location and causality of fire ignition hotspots in a Mediterranean region,2012,21,7,905-914,Brotons
Linking complex forest fuel structure and fire behaviour at fine scales,2012,21,7,882-893,Loudermilk
Linking humans and fire: a proposal for a transdisciplinary fire ecology,2012,21,5,477-487,Petty
Mid-season physical fitness profile of interagency hotshot firefighters,2012,21,6,773-777,Sell
Modelling the effects of surface and crown fire behaviour on serotinous cone opening in jack pine and lodgepole pine forests,2012,21,6,709-721,Alexander
Predictive modelling of burn probability and burn severity in a desert spring ecosystem,2012,21,8,1014-1024,Weisberg
Properties affecting the consumption of sound and rotten coarse woody debris in northern Idaho: a preliminary investigation using laboratory fires,2012,21,5,596-608,Ottmar
Radiant flux density energy density and fuel consumption in mixed-oak forest surface fires,2012,21,6,722-730,Kremens
Simulating effects of climate change and ecological restoration on fire behaviour in a south-western USA ponderosa pine forest,2012,21,6,731-742,Fulé
Study of the jump fire produced by the interaction of two oblique fire fronts. Part 1. Analytical model and validation with no-slope laboratory experiments,2012,21,7,843-856,Viegas
The adaptive capacity of New Zealand communities to wildfire,2012,21,6,764-772,Jakes
Corrigendum to: Assessing the effect of foliar moisture on the spread rate of crown fires,2013,22,6,869-870,Alexander
Changes in the spectral features of fuel layers of an Australian dry sclerophyll forest in response to prescribed burning,2013,22,6,862-868,Gupta
Safety climate in the US federal wildland fire management community: influences of organisational environmental group and individual characteristics,2013,22,6,850-861,Black
Community safety during the 2009 Australian 'Black Saturday' bushfires: An analysis of household preparedness and response,2013,22,6,841-849,McLennan
Living in a tinderbox: wildfire risk perceptions and mitigating behaviours,2013,22,6,832-840,Champ
Building community-agency trust in fire-affected communities in Australia and the United States,2013,22,6,822-831,Olsen
Estimating wildfire risk on a Mojave Desert landscape using remote sensing and field sampling,2013,22,6,770-779,Van Linn
Effects of salvage logging and pile-and-burn on fuel loading potential fire behaviour fuel consumption and emissions,2013,22,6,757-769,Halofsky
Fire weather simulation skill by the Weather Research and Forecasting (WRF) model over south-east Australia from 1985 to 2009,2013,22,6,739-756,Clarke
Evaluating spectral indices and spectral mixture analysis for assessing fire severity combustion completeness and carbon emissions,2013,22,5,707-720,Veraverbeke
Firebrand characteristics of the stringy bark of messmate (Eucalyptus obliqua) investigated using non-tethered samples,2013,22,5,642-651,Ellis
Effects of distribution of bulk density and moisture content on shrub fires,2013,22,5,625-641,Mahalingam
Large eddy simulation of atypical wildland fire spread on leeward slopes,2013,22,5,599-614,Sharples
Historical fire-climate relationships of upper elevation fire regimes in the south-western United States,2013,22,5,588-598,Swetnam
Modelling conditional burn probability patterns for large wildland fires,2013,22,5,579-587,Rideout
Wildfire hazard mapping: Exploring site conditions in eastern US wildland-urban interfaces,2013,22,5,567-578,Peters
Assessing exposure of human and ecological values to wildfire in Sardinia Italy,2013,22,4,549-565,Finney
Evidence for the effect of homes on wildfire suppression costs,2013,22,4,537-548,Gude
How historic and current wildfire experiences in an Aboriginal community influence mitigation preferences,2013,22,4,527-536,McGee
On the relationships between forest fires and weather conditions in Greece from long-term national observations (1894-2010),2013,22,4,493-507,Koutsias
An analysis of fire frequency in tropical savannas of northern Australia using a satellite-based fire atlas,2013,22,4,479-492,Oliveira
Modelling the determinants of ignition in the Sydney Basin Australia: implications for future management,2013,22,4,469-478,Bradstock
Modelling the probability of Australian grassfires escaping initial attack to aid deployment decisions,2013,22,4,459-468,Plucinski
Effects of fuel load and moisture content on fire behaviour and heating in masticated litter-dominated fuels,2013,22,4,440-445,Zipperer
A cellular automata model to link surface fires to firebrand lift-off and dispersal,2013,22,4,428-439,Varner
Assessing the effect of foliar moisture on the spread rate of crown fires,2013,22,4,415-427,Alexander
Exotic annual grass invasion alters fuel amounts continuity and moisture content,2013,22,3,353-358,Davies
The influence of fuel moisture content on the combustion of Eucalyptus foliage,2013,22,3,343-352,Possell
Assessing the flammability of surface fuels beneath ornamental vegetation in wildland-urban interfaces in Provence (south-eastern France),2013,22,3,333-342,Jappiot
Lightning and fire weather in eastern coastal fynbos shrublands: seasonality and long-term trends,2013,22,3,288-295,van Wilgen
The importance of affect perceived risk and perceived benefit in understanding support for fuels management among wildland-urban interface residents,2013,22,3,267-276,Toman
Econometric analysis of fire suppression production functions for large wildland fires,2013,22,2,246-255,Calkin
The effects of personal experience on choice-based preferences for wildfire protection programs,2013,22,2,234-245,Holmes
Airtankers and wildfire management in the US Forest Service: Examining data availability and exploring usage and cost trends,2013,22,2,223-233,McHugh
Estimating US federal wildland fire managers' preferences toward competing strategic suppression objectives,2013,22,2,212-222,Thompson
Wildfire ignition-distribution modelling: a comparative study in the Huron-Manistee National Forest Michigan USA,2013,22,2,174-183,Radeloff
The effect of sampling rate on interpretation of the temporal characteristics of radiative and convective heating in wildland flames,2013,22,2,168-173,Butler
Measurements of convective and radiative heating in wildland fires,2013,22,2,157-167,Ottmar
Field validation of a free-agent cellular automata model of fire spread with fire-atmosphere coupling,2013,22,2,148-156,Achtemeier
Satellite-based comparison of fire intensity and smoke plumes from prescribed fires and wildfires in south-eastern Australia,2013,22,2,121-129,Bowman
Modelling smoke transport from wildland fires: a review,2013,22,1,83-94,Goodrick
Ecological effects of alternative fuel-reduction treatments: Highlights of the National Fire and Fire Surrogate study (FFS),2013,22,1,63-82,Edminster
Describing wildland surface fuel loading for fire management: A review of approaches methods and systems,2013,22,1,51-62,Keane
Research and development supporting risk-based wildfire effects prediction for fuels and fire management: status and needs,2013,22,1,37-50,Dickinson
On the need for a theory of wildland fire spread,2013,22,1,25-36,Finney
Social science research related to wildfire management: an overview of recent findings and future research needs,2013,22,1,15-24,Toman
A review of recent advances in risk analysis for wildfire management,2013,22,1,1-14,Ager
Wildland fire ash and particulate distribution in adjacent residential areas,2013,22,8,1078-1082,Wade
Short-term effects of fire on small rodents in the Brazilian Cerrado and their relation with feeding habits,2013,22,8,1063-1071,Vieira
Pre-wildfire fuel reduction treatments result in more resilient forest structure a decade after wildfire,2013,22,8,1108-1117,Stevens-Rumann
Consumption of residual pyrogenic carbon by wildfire,2013,22,8,1072-1077,Santín
Criteria and methodology for evaluating aerial wildfire suppression,2013,22,8,1144-1154,Plucinski
Comparing three sampling techniques for estimating fine woody down dead biomass,2013,22,8,1093-1107,Keane
Trial by fire: community wildfire protection plans put to the test,2013,22,8,1134-1143,Jakes
A comparison of targeted and systematic fire-scar sampling for estimating historical fire frequency in south-western ponderosa pine forests,2013,22,8,1021-1033,Swetnam
Spatial and temporal variability of guinea grass (Megathyrsus maximus) fuel loads and moisture on Oahu Hawaii,2013,22,8,1083-1092,Kauffman
Effects of wildfire on national park visitation and the regional economy: a natural experiment in the Northern Rockies,2013,22,8,1155-1166,Duffield
Optimising fuel treatments over time and space,2013,22,8,1118-1133,Chung
Climate change and associated fire potential for the south-eastern United States in the 21st century,2013,22,8,1034-1043,Goodrick
Effects of repeated fires on native plant community development at Hawaii Volcanoes National Park,2013,22,8,1044-1054,Kauffman
Mapping the daily progression of large wildland fires using MODIS active fire data,2014,23,5,655-667,Randerson
Use of night vision goggles for aerial forest fire detection,2014,23,5,678-685,Craig
Modern fire regime resembles historical fire regime in a ponderosa pine forest on Native American lands,2014,23,5,686-697,Fulé
Development and mapping of fuel characteristics and associated fire potentials for South America,2014,23,5,643-654,Ottmar
Assessment of fire selectivity in relation to land cover and topography: a comparison between Southern European countries,2014,23,5,620-630,Moreira
Numerical prediction of size mass temperature and trajectory of cylindrical wind-driven firebrands,2014,23,5,698-708,Almeida
Equilibrium moisture content and timelag of dead Pinus pinaster needles,2014,23,5,721-732,Viegas
Trend analysis of medium- and coarse-resolution time series image data for burned area mapping in a Mediterranean ecosystem,2014,23,5,668-677,Veraverbeke
Advances in remote sensing and GIS applications in support of forest fire management,2014,23,5,603-605,Camia
Simulated western spruce budworm defoliation reduces torching and crowning potential: a sensitivity analysis using a physics-based fire model,2014,23,5,709-720,Heyerdahl
Integrating geospatial information into fire risk assessment,2014,23,5,606-619,Yebra
The temporal evolution of wildfire ash and implications for post-fire infiltration,2014,23,5,733-745,Robichaud
Corrigendum to: Wildland fire ash and particulate distribution in adjacent residential areas,2014,23,4,601,Wade
Dynamics of moisture content in spruce-feather moss and spruce-Sphagnum organic layers during an extreme fire season and implications for future depths of burn in Clay Belt black spruce forests,2014,23,4,490-502,Girardin
Experimental modelling of crown fire initiation in open and closed shrubland systems,2014,23,4,451-462,Mahalingam
Carnivore distributions across chaparral habitats exposed to wildfire and rural housing in southern California,2014,23,4,591-600,Schuette
Assessment of the temporal pattern of fire activity and weather variability in Lebanon,2014,23,4,503-509,Mitri
A methodology for determining operational priorities for prevention and suppression of wildland fires,2014,23,4,544-554,Rodríguez y Silva
Predicting the number of daily human-caused bushfires to assist suppression planning in south-west Western Australia,2014,23,4,520-531,Gould
A fire weather index as a basis for an early warning system in Spain,2014,23,4,510-519,Mestre
Cost shared wildfire risk mitigation in Log Hill Mesa Colorado: survey evidence on participation and willingness to pay,2014,23,4,567-576,Brenkert-Smith
A quantitative study of the proximity of satellite detected active fires to roads and rivers in the Brazilian tropical moist forest biome,2014,23,4,532-543,Cochrane
A 'responsibility for place' - firefighter deployment local knowledge and risk,2014,23,4,577-584,Kruger
De-coupling seasonal changes in water content and dry matter to predict live conifer foliar moisture content,2014,23,4,480-489,Jolly
Experimental confirmation of the MWIR and LWIR grey body assumption for vegetation fire flame emissivity,2014,23,4,463-479,Johnston
Assessing the quality of forest fuel loading data collected using public participation methods and smartphones,2014,23,4,585-590,Coops
Exploring the use of economic evaluation in Australian wildland fire management decision-making,2014,23,4,555-566,Cary
Relationship between fire-return interval and mulga (Acacia aneura) regeneration in the Gibson Desert and Gascoyne-Murchison regions of Western Australia,2014,23,3,394-402,Ward
Effects of fire on carbon fluxes of a calcareous grassland,2014,23,3,425-434,Vončina
Effect of patches of woody vegetation on the role of fire in tropical grasslands and savannas,2014,23,3,410-416,van Langevelde
Understanding evacuation preferences and wildfire mitigations among Northwest Montana residents,2014,23,3,435-444,Venn
Forest fuel management for wildfire prevention in Spain: a quantitative SWOT analysis,2014,23,3,373-384,Marino
Methodology to obtain isochrones from large wildfires,2014,23,3,338-349,Manzano-Agugliaro
Defining extreme wildland fires using geospatial and ancillary metrics,2014,23,3,322-337,Abatzoglou
A field experiment on grass fire effects on wooden constructions and peat layer ignition,2014,23,3,445-449,Ivanov
Application and validation of visual fuel hazard assessments in dry Mediterranean-climate woodlands,2014,23,3,385-393,Gosper
Modelling canopy fuel variables for Pinus radiata D. Don in NW Spain with low-density LiDAR data,2014,23,3,350-362,González-Ferreiro
Future fire danger climatology for Tasmania Australia using a dynamically downscaled regional climate model,2014,23,3,309-321,Fox-Hughes
Is fire exclusion in mountain big sagebrush communities prudent? Soil nutrient plant diversity and arthropod response to burning,2014,23,3,417-424,Davies
Wildland firefighter safety zones: a review of past science and summary of future needs,2014,23,3,295-308,Butler
Structure and composition of forest floor fuels in long-unburned Jeffrey pine-white fir forests of the Lake Tahoe Basin USA,2014,23,3,363-372,Varner
Post-fire recovery of an endemic Canarian pine forest,2014,23,3,403-409,Ruiz
Hydrologic and erosion responses to wildfire along the rangeland-xeric forest continuum in the western US: a review and model of hydrologic vulnerability,2014,23,2,155-172,Robichaud
Social preferences for fuel break management programs in Spain: a choice modelling application to prevention of forest fires,2014,23,2,281-289,Riera
Changes in forest fire danger for south-western China in the 21st century,2014,23,2,185-195,Tian
Mapping day-of-burning with coarse-resolution satellite fire-detection data,2014,23,2,215-223,Parks
Characterising weather patterns associated with fire in a seasonally dry tropical forest in southern India,2014,23,2,196-201,Mondal
Fire regime shift linked to increased forest density in a piñon-juniper savanna landscape,2014,23,2,234-245,Margolis
Air tanker drop patterns,2014,23,2,272-280,Legendre
An evaluation of fire danger and behaviour indices in the Great Lakes Region calculated from station and gridded weather information,2014,23,2,202-214,Horel
Estimation of forest structure and canopy fuel parameters from small-footprint full-waveform LiDAR data,2014,23,2,224-233,Coops
Corrigendum to: Forecasting fire activity in Victoria Australia using antecedent climate variables and ENSO indices,2014,23,2,290-293,Nicholls
Forecasting fire activity in Victoria Australia using antecedent climate variables and ENSO indices,2014,23,2,173-184,Nicholls
Large airtanker use and outcomes in suppressing wildland fires in the United States,2014,23,2,259-271,McHugh
Verification of WRF modelled fire weather in the 2009-10 New Zealand fire season,2014,23,1,34-45,Simpson
Characterising vegetative biomass burning in China using MODIS data,2014,23,1,69-77,Qin
Influence of climate and environment on post-fire recovery of mountain big sagebrush,2014,23,1,131-142,Kitchen
Environmental assessment of erosion following prescribed burning in the Mount Lofty Ranges Australia,2014,23,1,104-116,Bradstock
Dead fuel moisture research: 1991-2012,2014,23,1,78-92,Matthews
Is fire severity increasing in the Sierra Nevada California USA?,2014,23,1,1-8,Odion
Effects of post-fire soil stabilisation techniques on trace elements lost by erosion,2014,23,1,93-103,Fernandez
Objective and perceived wildfire risk and its influence on private forest landowners' fuel reduction activities in Oregon's (USA) ponderosa pine ecoregion,2014,23,1,143-153,Ager
Representation and evaluation of wildfire propagation simulations,2014,23,1,46-57,Filippi
Modern calibration and historical testing of small-area fire-interval reconstruction methods,2014,23,1,58-68,Baker
Can precipitation influence landscape controls on wildfire severity? A case study within temperate eucalypt forests of south-eastern Australia,2014,23,1,9-20,Collins
Sagebrush steppe recovery after fire varies by development phase of Juniperus occidentalis woodland,2014,23,1,117-130,Davies
Current status and future needs of the BehavePlus Fire Modeling System,2014,23,1,21-33,Andrews
Combustibility of a mixture of live and dead fuel components,2013,22,7,992-1002,Soares
The relationship of large fire occurrence with drought and fire danger indices in the western USA 1984-2008: the role of temporal scale,2013,22,7,894-909,Grenfell
Allowing a wildfire to burn: estimating the effect on future fire suppression costs,2013,22,7,871-882,Calkin
Is burn severity related to fire intensity? Observations from landscape scale remote sensing,2013,22,7,910-918,Smith
Wildland firefighter entrapment avoidance: modelling evacuation triggers,2013,22,7,883-893,Cova
Post-fire response variability in Mediterranean Basin tree species in Portugal,2013,22,7,919-932,Fernandes
Short-term physiological effects of smoke on grapevine leaves,2013,22,7,933-946,Stephens
Examination of the wind speed limit function in the Rothermel surface fire spread model,2013,22,7,959-969,Cruz
Angular variation of fire rate of spread,2013,22,7,970-979,Andre
Combustion of eucalyptus bark firebrands in varying flow incidence and velocity conditions,2013,22,7,980-991,Viegas
Relationships between climate and macroscale area burned in the western United States,2013,22,7,1003-1020,Kolden
Laboratory fire spread analysis using visual and infrared images,2006,15,2,179-186,Ollero
Sleep in wildland firefighters: what do we know and why does it matter?,2018,27,2,73-84,Jay
How do weather and terrain contribute to firefighter entrapments in Australia?,2018,27,2,85-98,Matthews
A comparison of the US National Fire Danger Rating System (NFDRS) with recorded fire occurrence and final fire size,2018,27,2,99-113,Belcher
Mapping Canadian wildland fire interface areas,2018,27,1,1-14,Flannigan
Simulating the effectiveness of prescribed burning at altering wildfire behaviour in Tasmania Australia,2018,27,1,15-28,Bowman
An improved non-equilibrium model for the ignition of living fuel,2018,27,1,29-41,Morvan
Analysis of the physical processes associated with junction fires at laboratory and field scales,2018,27,1,52-68,Xie
Human-caused fire occurrence modelling in perspective: a review,2017,26,12,983-998,Vega-García
You own the fuel but who owns the fire?,2017,26,12,999-1008,Cary
Trend analysis of fire season length and extreme fire weather in North America between 1979 and 2015,2017,26,12,1009-1020,Flannigan
Characterisation of spatial and temporal distribution of the fire regime in Niassa National Reserve northern Mozambique,2017,26,12,1021-1029,Ribeiro
A new method for performing smouldering combustion field experiments in peatlands and rich-organic soils,2017,26,12,1040-1052,Planas
Time since prior wildfire affects subsequent fire containment in black spruce,2017,26,11,919-929,Beverly
Mantras of wildland fire behaviour modelling: facts or fallacies?,2017,26,11,973-981,Alexander
Modelling the drivers of natural fire activity: the bias created by cropland fires,2017,26,10,845-851,Bekar
Simulated fire behaviour in young postfire lodgepole pine forests,2017,26,10,852-865,Turner
Comparison of three methods to quantify the fire spread rate in laboratory experiments,2017,26,10,877-883,Gould
A LiDAR-based analysis of the effects of slope vegetation density and ground surface roughness on travel rates for wildland firefighter escape route mapping,2017,26,10,884-895,Dennison
Forest fire risk assessment using point process modelling of fire occurrence and Monte Carlo fire simulation,2017,26,9,789-805,Graham
Wildfire risk awareness and prevention by predominantly Māori rural residents Karikari Peninsula Aotearoa New Zealand,2017,26,9,820-828,McGee
Effect of two-way coupling on the calculation of forest fire spread: model development,2017,26,9,829-843,Viegas
Retraction notice to 'Projected changes in Australian fire regimes during the 21st century and consequences for ecosystems.' [International Journal of Wildland Fire (2016) doi: 10.1071/WF16032],2017,26,9,844,Harrison
An empirically based approach to defining wildland firefighter safety and survival zone separation distances,2017,26,8,655-667,Page
Direct estimation of Byram's fire intensity from infrared remote sensing imagery,2017,26,8,668-684,Wang
Downdraft outflows: climatological potential to influence fire behaviour,2017,26,8,685-692,Potter
An experimental study on thermal radiation of fire whirl,2017,26,8,693-705,Zhang
Balancing uncertainty and complexity to incorporate fire spread in an eco-hydrological model,2017,26,8,706-718,McKenzie
Cultivating a reluctance to simplify: exploring the radio communication context in wildland firefighting,2017,26,8,719-731,Thomas
Underreporting of wildland fires in the US Fire Reporting System NFIRS: California,2017,26,8,732-743,Thomas
Minority households' willingness to pay for public and private wildfire risk reduction in Florida,2017,26,8,744-753,González-Cabán
Towards enhanced risk management: planning decision making and monitoring of US wildfire response,2017,26,7,551-556,Thompson
Whither the paradigm shift? Large wildland fires and the wildfire paradox offer opportunities for a new paradigm of ecological fire management,2017,26,7,557-561,Ingalsbee
A review of challenges to determining and demonstrating efficiency of large fire management,2017,26,7,562-573,Thompson
Towards improving wildland firefighter situational awareness through daily fire behaviour risk assessments in the US Northern Rockies and Northern Great Basin,2017,26,7,574-586,Jolly
An empirical machine learning method for predicting potential fire control locations for pre-fire planning and operational fire management,2017,26,7,587-597,Thompson
Federal fire managers' perceptions of the importance scarcity and substitutability of suppression resources,2017,26,7,598-603,Calkin
Characterising resource use and potential inefficiencies during large-fire suppression in the western US,2017,26,7,604-614,Calkin
The influence of incident management teams on the deployment of wildfire suppression resources,2017,26,7,615-629,Thompson
A simulation and optimisation procedure to model daily suppression resource transfers during a fire season in Colorado,2017,26,7,630-641,Thompson
Studying interregional wildland fire engine assignments for large fire suppression,2017,26,7,642-653,Thompson
Is there an inherent conflict in managing fire for people and conservation?,2017,26,6,455-468,Penman
Public information seeking place-based risk messaging and wildfire preparedness in southern California,2017,26,6,469-477,Velez
Fall and spring grazing influence fire ignitability and initial spread in shrub steppe communities,2017,26,6,485-490,Davies
Mapping prescribed fire severity in south-east Australian eucalypt forests using modelling and satellite imagery: a case study,2017,26,6,491-497,Loschiavo
Contribution of human and biophysical factors to the spatial distribution of forest fire ignitions and large wildfires in a French Mediterranean region,2017,26,6,498-508,Mouillot
Evaluation of the Canadian Precipitation Analysis (CaPA) to improve forest fire danger rating,2017,26,6,509-522,Flannigan
Rice straw mulch for post-fire erosion control: assessing non-target effects on vegetation communities,2017,26,6,538-549,Stephens
Incorporating fine-scale drought information into an eastern US wildfire hazard model,2017,26,5,393-398,Peters
A probability model for long-term forest fire occurrence in the Karst forest management area of Slovenia,2017,26,5,399-412,Šturm
Modelling the rate of fire spread and uncertainty associated with the onset and propagation of crown fires in conifer forest stands,2017,26,5,413-426,Alexander
Does season affect fire behaviour in the Cerrado?,2017,26,5,427-433,Baeza
Different historical fire-climate patterns in California,2017,26,4,253-268,Keeley
Climatic influences on interannual variability in regional burn severity across western US forests,2017,26,4,269-275,Kolden
Understanding forest fire patterns and risk in Nepal using remote sensing geographic information system and historical fire data,2017,26,4,276-286,Matin
The contribution of turbulent plume dynamics to long-range spotting,2017,26,4,317-330,Fawcett
Modelling the dynamic behaviour of junction fires with a coupled atmosphere-fire model,2017,26,4,331-344,Evans
Corrigendum to: Interdependencies between flame length and fireline intensity in predicting crown fire initiation and crown scorch height,2017,26,4,345,Alexander
Variability and drivers of extreme fire weather in fire-prone areas of south-eastern Australia,2017,26,3,177-190,Brown
Hillslope-scale prediction of terrain and forest canopy effects on temperature and near-surface soil moisture deficit,2017,26,3,191-208,Tolhurst
Spatial distribution of grassland fires at the regional scale based on the MODIS active fire products,2017,26,3,209-218,Yu
Spatially varying constraints of human-caused fire occurrence in British Columbia Canada,2017,26,3,219-229,Krawchuk
Forest fire danger life satisfaction and feelings of safety: evidence from Australia,2017,26,3,240-248,Manning
Bridging the divide between fire safety research and fighting fire safely: how do we convey research innovation to contribute more effectively to wildland firefighter safety?,2017,26,2,107-112,Black
Sharing contracted resources for fire suppression: engine dispatch in the Northwestern United States,2017,26,2,113-121,Moseley
Spatial distribution and temporal variability of open fire in China,2017,26,2,122-135,Zhang
Evaluating the applicability of predicting dead fine fuel moisture based on the hourly Fine Fuel Moisture Code in the south-eastern Great Xing'an Mountains of China,2017,26,2,167-175,Huang
How a risk focus in emergency management can restrict community resilience - a case study from Victoria Australia,2017,26,1,1-9,Beilin
Probabilistic prediction of wildfire economic losses to housing in Cyprus using Bayesian network analysis,2017,26,1,10-23,Xanthopoulos
The effect of fuel moisture content on the spread rate of forest fires in the absence of wind or slope,2017,26,1,24-31,Rossa
Experimental investigation of fire propagation in single live shrubs,2017,26,1,58-70,Mahalingam
Interaction between flaming and smouldering in hot-particle ignition of forest fuels and effects of moisture and wind,2017,26,1,71-81,Huang
Simulation and thermal imaging of the 2006 Esperanza Wildfire in southern California: application of a coupled weather-wildland fire model,2014,23,6,755-770,Coen
Fuel reduction burning mitigates wildfire effects on forest carbon and greenhouse gas emission,2014,23,6,771-780,Reisen
Holocene fire in Fennoscandia and Denmark,2014,23,6,781-789,Clear
Investigation of the decline in reported smoking-caused wildfires in the USA from 2000 to 2011,2014,23,6,790-798,Thomas
Controls on the spatial pattern of wildfire ignitions in Southern California,2014,23,6,799-811,Randerson
Area burned in Portugal over recent decades: an extreme value analysis,2014,23,6,812-824,Miranda
Wildfire initial response planning using probabilistically constrained stochastic integer programming,2014,23,6,825-838,Arrubla
Ignition and fire behaviour of Juniperus virginiana in response to live fuel moisture and fire temperature in the southern Great Plains,2014,23,6,839-844,Weir
The effect of forest fire on mass movement in Lebanese mountainous areas,2014,23,6,845-859,Ziadé
Biomass and litter accumulation patterns in species-rich shrublands for fire hazard assessment,2014,23,6,860-871,Westcott
Preparing ... for what? Developing multi-dimensional measures of community wildfire preparedness for researchers practitioners and households,2014,23,6,887-896,McNeill
Climate and very large wildland fires in the contiguous western USA,2014,23,7,899-914,McKenzie
A synthesis of post-fire Burned Area Reports from 1972 to 2009 for western US Forest Service lands: trends in wildfire characteristics and post-fire stabilisation treatments and expenditures,2014,23,7,929-944,Robichaud
Calibration of the Fire Weather Index over Mediterranean Europe based on fire activity retrieved from MSG satellite imagery,2014,23,7,945-958,Amraoui
Fine-scale factors influence fire regimes in mixed-conifer forests on three high mountains in Mexico,2014,23,7,959-968,Brown
A comparison of three approaches for simulating fine-scale surface winds in support of wildland fire management. Part I. Model formulation and comparison against measurements,2014,23,7,969-981,Forthofer
A comparison of three approaches for simulating fine-scale surface winds in support of wildland fire management. Part II. An exploratory study of the effect of simulated winds on fire growth simulations,2014,23,7,982-994,Finney
Mathematical model and sensor development for measuring energy transfer from wildland fires,2014,23,7,995-1004,Sullivan
Successional stage after land abandonment modulates fire severity and post-fire recovery in a Mediterranean mountain landscape,2014,23,7,1005-1015,Orr
High-resolution observations of combustion in heterogeneous surface fuels,2014,23,7,1016-1026,Achtemeier
Effect of fire on small mammals: a systematic review,2014,23,7,1034-1043,Brook
Challenges of assessing fire and burn severity using field measures remote sensing and modelling,2014,23,8,1045-1060,Keane
Flammability of litter sampled according to two different methods: comparison of results in laboratory experiments,2014,23,8,1061-1075,Jappiot
Bulk and particle properties of pine needle fuel beds - influence on combustion,2014,23,8,1076-1086,Simeoni
Effect of slope on spread of a linear flame front over a pine needle fuel bed: experiments and modelling,2014,23,8,1087-1096,Zhang
Short-term effect of fuel treatments on fire behaviour in a mixed heathland: a comparative assessment in an outdoor wind tunnel,2014,23,8,1097-1107,Marino
Modelling and mapping dynamic variability in large fire probability in the lower Sonoran Desert of south-western Arizona,2014,23,8,1108-1118,Gray
Santa Ana winds and predictors of wildfire progression in southern California,2014,23,8,1119-1129,French
Improvement of fire danger modelling with geographically weighted logistic model,2014,23,8,1130-1146,Guo
Behaviour of fire weather indices in the 2009-10 New Zealand wildland fire season,2014,23,8,1147-1164,Simpson
The role of defensible space for residential structure protection during wildfires,2014,23,8,1165-1175,Keeley
Predictors of south-eastern Australian householders' strengths of intentions to self-evacuate if a wildfire threatens: two theoretical models,2014,23,8,1176-1188,Paton
Correlations between components of the water balance and burned area reveal new insights for predicting forest fire area in the southwest United States,2015,24,1,14-26,Swetnam
Different fire-climate relationships on forested and non-forested landscapes in the Sierra Nevada ecoregion,2015,24,1,27-36,Keeley
Location timing and extent of wildfire vary by cause of ignition,2015,24,1,37-47,Keeley
Relationships between annual plant productivity nitrogen deposition and fire size in low-elevation California desert scrub,2015,24,1,48-58,Minnich
An accuracy assessment of the MTBS burned area product for shrub-steppe fires in the northern Great Basin United States,2015,24,1,70-78,Smith
Modifying the Canadian Fine Fuel Moisture Code for masticated surface fuels,2015,24,1,79-91,Wotton
Modelling canopy fuel dynamics of maritime pine stands in north-west Spain,2015,24,1,92-102,Jiménez
Comparison of forest burned areas in mainland China derived from MCD45A1 and data recorded in yearbooks from 2001 to 2011,2015,24,1,103-113,Huang
Estimating the heat transfer to an organic soil surface during crown fire,2015,24,1,120-129,Wotton
It's not a 'thing' but a 'place': reconceptualising 'assets' in the context of fire risk landscapes,2015,24,1,130-137,Beilin
Rebuilding and new housing development after wildfire,2015,24,1,138-149,Radeloff
The role of social science in the governance and management of wildland fire,2015,24,2,151-152,Handmer
Predicting delay in residents' decisions on defending v. evacuating through antecedents of decision avoidance,2015,24,2,153-161,McNeill
Exposing hidden-value trade-offs: sharing wildfire management responsibility between government and citizens,2015,24,2,162-169,Eburn
Wildfire evacuation and its alternatives: perspectives from four United States' communities,2015,24,2,170-178,McCaffrey
Children's knowledge of bushfire emergency response,2015,24,2,179-189,Towers
Social science research on Indigenous wildfire management in the 21st century and future research needs,2015,24,2,190-200,Christianson
The relationship of mindfulness and self-compassion to desired wildland fire leadership,2015,24,2,201-211,Waldron
Understanding social impact from wildfires: advancing means for assessment,2015,24,2,212-224,Smith
The likelihood of ignition of dry-eucalypt forest litter by firebrands,2015,24,2,225-235,Ellis
Utah juniper and two-needle piñon reduction alters fuel loads,2015,24,2,236-248,Eggett
Seasonal differences in fire activity and intensity in tropical savannas of northern Australia using satellite measurements of fire radiative power,2015,24,2,249-260,Russell-Smith
The influence of external factors on false alarms in an infrared fire detection system,2015,24,2,261-266,Mengod
A Wildfire-relevant climatology of the convective environment of the United States,2015,24,2,267-275,Potter
Differences in land ownership fire management objectives and source data matter: a reply to Hanson and Odion (2014),2015,24,2,286-293,Miller
Sierra Nevada fire severity conclusions are robust to further analysis: a reply to Safford et al,2015,24,2,294-295,Odion
Global patterns in fire leverage: the response of annual area burnt to previous fire,2015,24,3,297-306,Fernandes
Parametric uncertainty quantification in the Rothermel model with randomised quasi-Monte Carlo methods,2015,24,3,307-316,Jimenez
Building Rothermel fire behaviour fuel models by genetic algorithm optimisation,2015,24,3,317-328,Ascoli
Integrating ground and satellite-based observations to determine the degree of grassland curing,2015,24,3,329-339,Nichols
Live fuel moisture content and leaf ignition of forest species in Andean Patagonia Argentina,2015,24,3,340-348,Bianchi
Fuel flammability and fire responses of juvenile canopy species in a temperate rainforest ecosystem,2015,24,3,349-360,Zimmer
Fuel accumulation and forest structure change following hazardous fuel reduction treatments throughout California,2015,24,3,361-371,Vaillant
Fuel characteristics of the invasive shrub Teline monspessulana (L.) K. Koch,2015,24,3,372-379,Pauchard
Predicting wildfire occurrence distribution with spatial point process models and its uncertainty assessment: a case study in the Lake Tahoe Basin USA,2015,24,3,380-390,Yang
Vegetation and topography interact with weather to drive the spatial distribution of wildfires in the eastern boreal forest of Canada,2015,24,3,391-406,Bergeron
Predictive modelling of fire occurrences from different fire spread patterns in Mediterranean landscapes,2015,24,3,407-418,Brotons
Compositing MODIS time series for reconstructing burned areas in the taiga-steppe transition zone of northern Mongolia,2015,24,3,419-432,Chu
A generic empirical-based model for predicting rate of fire spread in shrublands,2015,24,4,443-460,Gould
Estimating radiated flux density from wildland fires using the raw output of limited bandpass detectors,2015,24,4,461-469,Dickinson
Temporal fuel dynamics following high-severity fire in dry mixed conifer forests of the eastern Cascades Oregon USA,2015,24,4,470-483,Dunn
Relating fuel loads to overstorey structure and composition in a fire-excluded Sierra Nevada mixed conifer forest,2015,24,4,484-494,Knapp
The effects of burn entry and burn severity on ponderosa pine and mixed conifer forests in Grand Canyon National Park,2015,24,4,495-506,Thode
Temperatures below leaf litter during winter prescribed burns: implications for litter-roosting bats,2015,24,4,544-549,Perry
Monitoring live fuel moisture in semiarid environments using L-band radar data,2015,24,4,560-572,Tanase
Words matter: radio misunderstandings in wildland firefighting,2015,24,4,580-588,Gabor
Anthropogenic effects on global mean fire size,2015,24,5,589-596,Chuvieco
An empirical wildfire risk analysis: the probability of a fire spreading to the urban interface in Sydney Australia,2015,24,5,597-606,Bradstock
The influence of ignition technique on fire behaviour in spinifex open woodland in semiarid northern Australia,2015,24,5,607-612,Williams
Fuel dynamics and vegetation recovery after fire in a semiarid Australian shrubland,2015,24,5,613-623,Dalgleish
Interactions of fires of neighbouring shrubs in two- and three-shrub arrangements,2015,24,5,624-639,Mahalingam
Driving factors of fire density can spatially vary at the local scale in south-eastern France,2015,24,5,650-664,Ganteaume
Modelling and mitigating dose to firefighters from inhalation of radionuclides in wildland fire smoke,2015,24,5,723-733,Adetona
Operational wildfire suppression modelling: a review evaluating development state of the art and future directions,2015,24,6,735-748,Tolhurst
Effect of fire prevention programs on accidental and incendiary wildfires on tribal lands in the United States,2015,24,6,749-762,Butry
Modelling static fire hazard in a semi-arid region using frequency analysis,2015,24,6,763-777,Adab
Relationships among wildfire prescribed fire and drought in a fire-prone landscape in the south-eastern United States,2015,24,6,778-783,Hurteau
Techniques for evaluating wildfire simulators via the simulation of historical fires using the Australis simulator,2015,24,6,784-797,Milne
Leaf flammability and fuel load increase under elevated CO2 levels in a model grassland,2015,24,6,819-827,Manea
Effects of curing on grassfires: I. Fuel dynamics in a senescing grassland,2015,24,6,828-837,Nichols
Effects of curing on grassfires: II. Effect of grass senescence on the rate of fire spread,2015,24,6,838-848,Nichols
Dormant season grazing may decrease wildfire probability by increasing fuel moisture and reducing fuel amount and continuity,2015,24,6,849-856,Davies
Contemporary fire regime risks to key ecological assets and processes in north Australian savannas,2015,24,6,857-870,Russell-Smith
Local environmental covariates are important for predicting fire history from tree stem diameters,2015,24,6,871-882,Yoon
Sources and implications of bias and uncertainty in a century of US wildfire activity data,2015,24,7,883-891,Short
Climate change presents increased potential for very large fires in the contiguous United States,2015,24,7,892-899,Barbero
Relationships between fire danger and the daily number and daily growth of active incidents burning in the northern Rocky Mountains USA,2015,24,7,900-910,Cochrane
Impacts of repeated wildfire on long-unburned plant communities of the southern Appalachian Mountains,2015,24,7,911-920,Waldrop
A method for estimating the amount of dead grass fuel based on spectral reflectance characteristics,2015,24,7,940-948,Yong
Effect of mastication and other mechanical treatments on fuel structure in chaparral,2015,24,7,949-963,Keeley
The use of survival analysis methods to model the control time of forest fires in Ontario Canada,2015,24,7,964-973,Martell
The economic benefit of localised short-term wildfire-potential information,2015,24,7,974-982,Christman
Carbon footprint from helitankers: sustainable decision making in aerial wildfire fighting,2015,24,7,983-988,Planelles
Influence of wind speed on the global variability of burned fraction: a global fire model's perspective,2015,24,7,989-1000,Hantson
Re-analysis of wind and slope effects on flame characteristics of Mediterranean shrub fires,2015,24,7,1001-1007,Nelson
Experimental analysis of fire spread across a two-dimensional ridge under wind conditions,2015,24,7,1008-1022,Salis
Limitations and utilisation of Monitoring Trends in Burn Severity products for assessing wildfire severity in the USA,2015,24,7,1023-1028,Kolden
Wildfire smoke and public health risk,2015,24,8,1029-1044,Reisen
Fire in arctic tundra of Alaska: past fire activity future fire potential and significance for land management and ecology,2015,24,8,1045-1061,Loboda
Fire severity estimation from space: a comparison of active and passive sensors and their synergy for different forest types,2015,24,8,1062-1075,Kennedy
Seasonal predictability of summer fires in a Mediterranean environment,2015,24,8,1076-1084,Turco
Behaviour of slope and wind backing fires,2015,24,8,1085-1097,Viegas
Spatial patterns of wildfire ignitions in south-eastern Australia,2015,24,8,1098-1108,Price
Characterisation of the fuel and fire environment in southern Ontario's tallgrass prairie,2015,24,8,1118-1128,Wotton
The role of leaf traits in determining litter flammability of south-eastern Amazon tree species,2015,24,8,1143-1153,Balch
Measuring wildland fire leadership: the crewmember perceived leadership scale,2015,24,8,1168-1175,Cardinal
Measurements datasets and preliminary results from the RxCADRE project - 2008 2011 and 2012,2016,25,1,1-9,Ottmar
Pre-fire and post-fire surface fuel and cover measurements collected in the south-eastern United States for model evaluation and development - RxCADRE 2008 2011 and 2012,2016,25,1,10-24,Wright
Measurements relating fire radiative energy density and surface fuel consumption - RxCADRE 2011 and 2012,2016,25,1,25-37,Ottmar
Development and validation of fuel height models for terrestrial lidar - RxCADRE 2012,2016,25,1,38-47,Ottmar
Measuring radiant emissions from entire prescribed fires with ground airborne and satellite sensors - RxCADRE 2012,2016,25,1,48-61,Dickinson
High-resolution infrared thermography for capturing wildland fire behaviour: RxCADRE 2012,2016,25,1,62-75,Ottmar
Fire weather conditions and fire-atmosphere interactions observed during low-intensity prescribed fires - RxCADRE 2012,2016,25,1,90-101,Dickinson
Evaluation and use of remotely piloted aircraft systems for operations and research - RxCADRE 2012,2016,25,1,114-128,Dickinson
Evaluation of spectral indices for estimating burn severity in semiarid grasslands,2016,25,2,147-157,Lu
Towards a new paradigm in fire severity research using dose-response experiments,2016,25,2,158-166,Yedinak
Quantifying the influence of previously burned areas on suppression effectiveness and avoided exposure: a case study of the Las Conchas Fire,2016,25,2,167-181,Cochrane
Wildland fire limits subsequent fire occurrence,2016,25,2,182-190,Parks
Winter grazing can reduce wildfire size intensity and behaviour in a shrub-grassland,2016,25,2,191-199,Davies
Future burn probability in south-central British Columbia,2016,25,2,200-212,Taylor
A comparison of level set and marker methods for the simulation of wildland fire front propagation,2016,25,2,229-241,Mell
Replacing time with space: using laboratory fires to explore the effects of repeated burning on black carbon degradation,2016,25,2,242-248,Smith
Synthesising empirical results to improve predictions of post-wildfire runoff and erosion response,2016,25,3,257-261,Robichaud
Risk assessment of post-wildfire hydrological response in semiarid basins: the effects of varying rainfall representations in the KINEROS2/AGWA model,2016,25,3,268-278,Sidman
Relations between soil hydraulic properties and burn severity,2016,25,3,279-293,Nyman
Can pore-clogging by ash explain post-fire runoff?,2016,25,3,294-305,Martin
Structural and functional connectivity as a driver of hillslope erosion following disturbance,2016,25,3,306-321,Robichaud
Post-wildfire debris flows in southern British Columbia Canada,2016,25,3,322-336,Jordan
Validation of a probabilistic post-fire erosion model,2016,25,3,337-350,Miller
A coupled modelling approach to assess the effect of fuel treatments on post-wildfire runoff and erosion,2016,25,3,351-362,Sidman
Wildfire survival plans in theory and practice,2016,25,4,363-377,Bradstock
A value- and expectancy-based approach to understanding residents' intended response to a wildfire threat,2016,25,4,378-389,McNeill
The net benefits of human-ignited wildfire forecasting: the case of tribal land units in the United States,2016,25,4,390-402,Thomas
Global fire size distribution: from power law to log-normal,2016,25,4,403-412,Chuvieco
1984-2010 trends in fire burn severity and area for the conterminous US,2016,25,4,413-420,Peterson
Ensemble lightning prediction models for the province of Alberta Canada,2016,25,4,421-432,Flannigan
Repeatability of free-burning fire experiments using heterogeneous forest fuel beds in a combustion wind tunnel,2016,25,4,445-455,Sullivan
Propagation probability and spread rates of self-sustained smouldering fires under controlled moisture content and bulk density conditions,2016,25,4,456-465,Rein
A quantitative assessment of shoot flammability for 60 tree and shrub species supports rankings based on expert opinion,2016,25,4,466-477,Perry
The ability of winter grazing to reduce wildfire size and fire-induced plant mortality was not demonstrated: a comment on Davies et al. (2015),2016,25,4,484-488,Yedinak
Winter grazing decreases the probability of fire-induced mortality of bunchgrasses and may reduce wildfire size: a response to Smith et al. (this issue),2016,25,4,489-493,Davies
Outcomes of fire research: is science used?,2016,25,5,495-504,Hunter
What drives forest fire in Fujian China? Evidence from logistic regression and Random Forests,2016,25,5,505-519,Guo
Fighting fire in the heat of the day: an analysis of operational and environmental conditions of use for large airtankers in United States fire suppression,2016,25,5,520-533,Thompson
Structure-level fuel load assessment in the wildland-urban interface: a fusion of airborne laser scanning and spectral remote-sensing methodologies,2016,25,5,547-557,Clark
Data assimilation of dead fuel moisture observations from remote automated weather stations,2016,25,5,558-568,Vejmelka
A laboratory-based quantification of the effect of live fuel moisture content on fire spread rate,2016,25,5,569-573,Fernandes
Dryness in a Mediterranean-type climate - implications for wildfire burnt area: a case study from Mount Carmel Israel,2016,25,5,579-591,Wittenberg
Wildfires in the eastern Mediterranean as a result of lightning activity - a change in the conventional knowledge,2016,25,5,592-596,Tessler
Using Landsat imagery to backcast fire and post-fire residuals in the Boreal Shield of Saskatchewan: implications for woodland caribou management,2016,25,5,597-607,Kansas
Prescribed burning as a conservation tool for management of habitat for threatened species: the quokka Setonix brachyurus in the southern forests of Western Australia,2016,25,5,608-617,Bain
Assessing the effect of a fuel break network to reduce burnt area and wildfire risk transmission,2016,25,6,619-632,Fernandes
Effects of post-fire logging on fuel dynamics in a mixed-conifer forest Oregon USA: a 10-year assessment,2016,25,6,646-656,Fontaine
Concurrent and antecedent soil moisture relate positively or negatively to probability of large wildfires depending on season,2016,25,6,657-668,Twidwell
Burned area prediction with semiparametric models,2016,25,6,669-678,Marey-Pérez
Models for predicting fire ignition probability in graminoids from boreo-temperate moorland ecosystems,2016,25,6,679-684,Santana
Flammable Mexico,2016,25,6,711-713,Pausas
Projecting wildfire area burned in the south-eastern United States 2011-60,2016,25,7,715-729,McKenzie
Modelling spatiotemporal variability in fires in semiarid savannas: a satellite-based assessment around Africa's largest protected area,2016,25,7,730-741,Mishra
Shifting fire regimes from late to early dry-season fires to abate greenhouse emissions does not completely equate with terrestrial vertebrate biodiversity co-benefits on Cape York Peninsula Australia,2016,25,7,742-752,Perry
The formation of charcoal reflectance and its potential use in post-fire assessments,2016,25,7,775-779,Belcher
Fine woody fuel particle diameters for improved planar intersect fuel loading estimates in Southern Rocky Mountain ponderosa pine forests,2016,25,7,780-784,Keane
Modelling the spatial patterns of ignition causes and fire regime features in southern France: implications for fire prevention policy,2016,25,7,785-796,Curt
Analysis of forest fire fatalities in Greece: 1977-2013,2016,25,7,797-809,Xanthopoulos
Regional aspects of modelling burned areas in Europe,2016,25,8,811-818,Khabarov
How drought-induced forest die-off alters microclimate and increases fuel loadings and fire potentials,2016,25,8,819-830,Fontaine
Too much too soon? A review of the effects of increasing wildfire frequency on tree mortality and regeneration in temperate eucalypt forests,2016,25,8,831-848,Bennett
Targeting forest management through fire and erosion modelling,2016,25,8,876-887,Miller
Places where wildfire potential and social vulnerability coincide in the coterminous United States,2016,25,8,896-908,Radeloff
The importance of the traditional fire knowledge system in a subtropical montane socio-ecosystem in a protected natural area,2016,25,9,911-921,Martínez-Torres
Fire regime from 1973 to 2011 in north-western Patagonian grasslands,2016,25,9,922-932,Ghermandi
Identifying key climate and environmental factors affecting rates of post-fire big sagebrush (Artemisia tridentata) recovery in the northern Columbia Basin USA,2016,25,9,933-945,Shinneman
Modelling fire probability in the Brazilian Amazon using the maximum entropy method,2016,25,9,955-969,Shimabukuro
A power series formulation for two-dimensional wildfire shapes,2016,25,9,970-979,Hilton
Fire spread in chaparral - a comparison of laboratory data and model predictions in burning live fuels,2016,25,9,980-994,Mahalingam
Evaluation of the predictive capacity of dead fuel moisture models for Eastern Australia grasslands,2016,25,9,995-1001,Nichols
The impact of aging on laboratory fire behaviour in masticated shrub fuelbeds of California and Oregon USA,2016,25,9,1002-1008,Varner
Laboratory experiments to estimate interception of infrared radiation by tree canopies,2016,25,9,1009-1014,Smith
Predicting wildfire spread and behaviour in Mediterranean landscapes,2016,25,10,1015-1032,Arca
Short-term fire front spread prediction using inverse modelling and airborne infrared images,2016,25,10,1033-1047,Planas
The role of weather past fire and topography in crown fire occurrence in eastern Australia,2016,25,10,1048-1060,Price
Rapid-response tools and datasets for post-fire remediation: linking remote sensing and process-based hydrological models,2016,25,10,1061-1073,Miller
Social acceptability of fuel management in the Australian Capital Territory and surrounding region,2016,25,10,1093-1109,Mylek
Spatial and temporal variations of fire regimes in the Canadian Rocky Mountains and Foothills of southern Alberta,2016,25,11,1117-1130,Flannigan
Anthropogenic influence on wildfire activity in Alberta Canada,2016,25,11,1131-1143,Parisien
Recovery and adaptation after wildfire on the Colorado Front Range (2010-12),2016,25,11,1144-1155,Radeloff
Near-term probabilistic forecast of significant wildfire events for the Western United States,2016,25,11,1169-1180,Calkin
Faster prediction of wildfire behaviour by physical models through application of proper orthogonal decomposition,2016,25,11,1181-1192,Verda
Visual assessments of fuel loads are poorly related to destructively sampled fuel loads in eucalypt forests,2016,25,11,1193-1201,Sullivan
Historical reconstructions of California wildfires vary by data source,2017,25,12,1221-1227,Keeley
Fire spread from MODIS burned area data: obtaining fire dynamics information for every single fire,2017,25,12,1228-1237,Frantz
Curvature effects in the dynamic propagation of wildfires,2017,25,12,1238-1251,Hilton
Relationships between fire severity and recruitment in arid grassland dominated by the obligate-seeding soft spinifex (Triodia pungens),2017,25,12,1264-1272,Fensham
Fuel and topographic influences on wildland firefighter burnover fatalities in Southern California,2018,27,3,141-154,Page
What are the drivers of dangerous fires in Mediterranean France?,2018,27,3,155-163,Curt
Model-specification uncertainty in future area burned by wildfires in Canada,2018,27,3,164-175,Parisien
An analysis of Southeastern US prescribed burn weather windows: seasonal variability and El Niño associations,2018,27,3,176-189,Varner
Use of ordinary kriging and Gaussian conditional simulation to interpolate airborne fire radiative energy density estimates,2018,27,4,228-240,Kremens
Automated location of active fire perimeters in aerial infrared imaging using unsupervised edge detectors,2018,27,4,241-256,Planas
Interpolation framework to speed up near-surface wind simulations for data-driven wildfire applications,2018,27,4,257-270,Planas
Development and validation of a model for predicting fire behaviour in spinifex grasslands of arid Australia,2018,27,4,271-279,Sharples
Fire behaviour in masticated forest fuels: lab and prescribed fire experiments,2018,27,4,280-292,Smith
Where wildfires destroy buildings in the US relative to the wildland-urban interface and national fire outreach programs,2018,27,5,329-341,Radeloff
Does plant flammability differ between leaf and litter bed scale? Role of fuel characteristics and consequences for flammability assessment,2018,27,5,342-352,Ganteaume
Relationships between mature trees and fire fuel hazard in Australian forest,2018,27,5,353-362,Cary
The effect of woody fuel characteristics on fuel ignition and consumption: a case study from a eucalypt forest in south-west Western Australia,2018,27,5,363-375,Hollis
Human-related ignitions concurrent with high winds promote large wildfires across the USA,2018,27,6,377-386,Balch
The Haines Index - it's time to revise it or replace it,2018,27,7,437-440,Potter
Use and benefits of NASA's RECOVER for post-fire decision support,2018,27,7,441-446,Weber
Corrigendum to: Use of ordinary kriging and Gaussian conditional simulation to interpolate airborne fire radiative energy density estimates,2018,27,7,498-499,Kremens
Using transboundary wildfire exposure assessments to improve fire management programs: a case study in Greece,2018,27,8,501-513,Kalabokidis
Quantifying wildfire growth rates using smoke plume observations derived from weather radar,2018,27,8,514-524,Penman
Comparing the height and area of wild and prescribed fire particle plumes in south-east Australia using weather radar,2018,27,8,525-537,Bowman
Quantile regression: an alternative approach to modelling forest area burned by individual fires,2018,27,8,538-549,Rijal
Simulation of fuel bed ignition by wildland firebrands,2018,27,8,550-561,Filkov
Examining dispatching practices for Interagency Hotshot Crews to reduce seasonal travel distance and manage fatigue,2018,27,9,569-580,Thompson
Estimating post-fire debris-flow hazards prior to wildfire using a statistical analysis of historical distributions of fire severity from remote sensing data,2018,27,9,595-608,Staley
Wildland fires behaviour: wind effect versus Byram's convective number and consequences upon the regime of propagation,2018,27,9,636-641,Morvan
Corrigendum to: Wildland fires behaviour: wind effect versus Byram's convective number and consequences upon the regime of propagation,2018,27,9,642,Morvan
Values of the public at risk of wildfire and its management,2018,27,10,665-676,Rawluk
Smoke complaints caused by wildland fire in the southern Sierra Nevada region California,2018,27,10,677-683,Cisneros
The wildfire within: gender leadership and wildland fire culture,2018,27,11,715-726,Eriksen
Got to burn to learn: the effect of fuel load on grassland fire behaviour and its management implications,2018,27,11,727-741,Sullivan
Clarifying the meaning of mantras in wildland fire behaviour modelling: reply to Cruz et al. (2017),2018,27,11,770-775,Mell
A response to 'Clarifying the meaning of mantras in wildland fire behaviour modelling: reply to Cruz et al. (2017)',2018,27,11,776-780,Alexander
Historical patterns of wildfire ignition sources in California ecosystems,2018,27,12,781-799,Keeley
Simulation study of grass fire using a physics-based model: striving towards numerical rigour and the effect of grass height on the rate of spread,2018,27,12,800-814,Sutherland
Corrigendum 1 (published 19 Sep 2018) and Corrigendum 2 (published 11 Dec 2018) to: Wildland fires behaviour: wind effect versus Byram's convective number and consequences upon the regime of propagation,2018,27,12,857,Morvan
The failure of planning to address the urban interface and intermix fire-hazard problems in the San Francisco Bay Area,2019,28,1,1-3,Mcbride
The role of defensible space on the likelihood of house impact from wildfires in forested landscapes of south eastern Australia,2019,28,1,4-14,Price
Factors that affect the timing of the dispatch of initial attack resources to forest fires in northeastern Ontario Canada,2019,28,1,15-24,Martell
Public perceptions towards wildfire preparedness in the Veluwe region of the Netherlands,2019,28,1,25-34,McCaffrey
Predicting wildfire vulnerability using logistic regression and artificial neural networks: a case study in Brazil's Federal District,2019,28,1,35-45,de Bem
Analysis of forest fire fatalities in Southern Europe: Spain Portugal Greece and Sardinia (Italy),2019,28,2,85-98,Xanthopoulos
A web-based wildfire simulator for operational applications,2019,28,2,99-112,Arca
Modelling the fire propagation from the fuel bed to the lower canopy of ornamental species used in wildland-urban interfaces,2019,28,2,113-126,Lamorlette
Why is the effect of live fuel moisture content on fire rate of spread underestimated in field experiments in shrublands?,2019,28,2,127-137,Dupuy
A quantitative comparison of forest fires in central and northern California under early (1911-1924) and contemporary (2002-2015) fire suppression,2019,28,2,138-148,Miller
Non-additive effects of alternative stable states on landscape flammability in NW Patagonia: fire history and simulation modelling evidence,2019,28,2,149-159,Kitzberger
Forest fuel bed ignitability under marginal fire weather conditions in Eucalyptus forests,2019,28,3,198-204,Duff
Analysis of the uncertainty of fuel model parameters in wildland fire modelling of a boreal forest in north-east China,2019,28,3,205-215,He
Altered vegetation structure from mechanical thinning treatments changed wildfire behaviour in the wildland-urban interface on the 2011 Wallow Fire Arizona USA,2019,28,3,216-229,Johnson
Poisson mixed models for predicting number of fires,2019,28,3,237-253,Boubeta
A cautionary note regarding the use of cumulative burnt areas for the determination of fire danger index breakpoints,2019,28,3,254-258,Dupuy
Understanding the leadership perspective in wildland firefighting: gaps and opportunities for growth,2019,28,4,259-266,Waldron
Evidence of effectiveness in the Cohesive Strategy: measuring and improving wildfire response,2019,28,4,267-274,Nowell
Relationships among leaf flammability attributes and identifying low-leaf-flammability species at the wildland-urban interface,2019,28,4,295-307,Krix
The FireFlux II experiment: a model-guided field experiment to improve understanding of fire-atmosphere interactions and fire spread,2019,28,4,308-326,Jenkins
Net reductions or spatiotemporal displacement of intentional wildfires in response to arrests? Evidence from Spain,2019,28,6,397-411,Butry
Descriptive analysis of injuries and illnesses self-reported by wildland firefighters,2019,28,6,412-419,Palmer
Effects of drought on wildfires in forest landscapes of the Western Ghats India,2019,28,6,431-444,Kodandapani
Monthly adaptations of the Drought Code reveal nuanced fire-drought associations in montane forests with a mixed-severity fire regime,2019,28,6,445-455,Daniels
A review of US wildland firefighter entrapments: trends important environmental factors and research needs,2019,28,8,551-569,Jolly
Fire behaviour and smoke modelling: model improvement and measurement needs for next-generation smoke research and forecasting systems,2019,28,8,570-588,Brown
How terpene content affects fuel flammability of wildland-urban interface vegetation,2019,28,8,614-627,Ganteaume
High wildfire damage in interface communities in California,2019,28,9,641-650,Radeloff
Optimisation of tower site locations for camera-based wildfire detection systems,2019,28,9,651-665,Heyns
Wildfire ignition from forestry machines in boreal Sweden,2019,28,9,666-677,Sjöström
Examining barriers motivators and injury related to physical training in wildland firefighters,2019,28,9,678-686,Sondag
Investigation of the effects of interactions of intersecting oblique fire lines with and without wind in a combustion wind tunnel,2019,28,9,704-719,Sullivan
Machine learning to predict final fire size at the time of ignition,2019,28,11,861-873,Chen
Policy barriers and opportunities for prescribed fire application in the western United States,2019,28,11,874-884,McCaffrey
Impacts of wildland fire effects on resources and assets through expert elicitation to support fire response decisions,2019,28,11,885-900,Woolford
Understanding homeowners' decisions to mitigate wildfire risk and create defensible space,2019,28,11,901-911,Rollins
Applications of simulation-based burn probability modelling: a review,2019,28,12,913-926,Parisien
Spatial distribution of mean fire size and occurrence in eastern Canada: influence of climate physical environment and lightning strike density,2019,28,12,927-940,Gauthier
Effects of fuel characteristics on ember generation characteristics at branch-scales,2019,28,12,941-950,Hudson
An evaluation of remotely sensed indices for quantifying burn severity in arid ecoregions,2019,28,12,951-968,McKinley
Regional seasonality of fire size and fire weather conditions across Australia's northern savanna,2020,29,1,1-10,Meyer
Mesoscale spatiotemporal predictive models of daily human- and lightning-caused wildland fire occurrence in British Columbia,2020,29,1,11-27,Dean
Risk assessment for wildland fire aerial detection patrol route planning in Ontario Canada,2020,29,1,28-41,Martell
Cost-effective fuel treatment planning: a theoretical justification and case study,2020,29,1,42-56,Hawbaker
The effect of ignition protocol on grassfire development,2020,29,1,70-80,Sharples
Exploring fire response to high wind speeds: fire rate of spread energy release and flame residence time from fires burned in pine needle beds under winds up to 27 m s−1,2020,29,1,81-92,Bradshaw
The psychosocial impacts of wildland fires on children adolescents and family functioning: a scoping review,2020,29,2,93-103,Kulig
Current and future patterns of forest fire occurrence in China,2020,29,2,104-119,Keane
Likelihood and frequency of recurrent fire ignitions in highly urbanised Mediterranean landscapes,2020,29,2,120-131,Elia
Generation and evaluation of an ensemble of wildland fire simulations,2020,29,2,160-173,Filippi
Object-based post-fire aerial image classification for building damage destruction and defensive actions at the 2012 Colorado Waldo Canyon Fire,2020,29,2,174-189,Mell
Fire behaviour in wheat crops - effect of fuel structure on rate of fire spread,2020,29,3,258-271,Sullivan
Two methods for calculating wildland fire rate of forward spread,2020,29,3,272-281,Sullivan
Adaptive prescribed burning in Australia for the early 21st Century - context status challenges,2020,29,5,305-313,Russell-Smith
A framework for prioritising prescribed burning on public land in Western Australia,2020,29,5,314-325,Smith
Challenges for prescribed fire management in Australia's fire-prone rangelands - the example of the Northern Territory,2020,29,5,339-353,Russell-Smith
Using a statistical model of past wildfire spread to quantify and map the likelihood of fire reaching assets and prioritise fuel treatments,2020,29,5,401-413,Price
Quantification of inter-regional differences in risk mitigation from prescribed burning across multiple management values,2020,29,5,414-426,Bradstock
Cost effectiveness of fire management strategies in southern Australia,2020,29,5,427-439,Penman
Where to prescribe burn: the costs and benefits of prescribed burning close to houses,2020,29,5,440-458,Kelso
Seasonality and trends in human- and lightning-caused wildfires ≥ 2 ha in Canada 1959-2018,2020,29,6,473-485,Flannigan
Drivers of long-distance spotting during wildfires in south-eastern Australia,2020,29,6,459-472,Price
Exploring spatially varying relationships between forest fire and environmental factors at different quantile levels,2020,29,6,486-498,Guo
Evaluating wildland fire liability standards - does regulation incentivise good management?,2020,29,7,572-580,Montgomery
Wildfire decision support tools: an exploratory study of use in the United States,2020,29,7,581-594,Toman
Fire and rain are one: extreme rainfall events predict wildfire extent in an arid grassland,2020,29,8,702-711,Murray
A convective-radiative propagation model for wildland fires,2020,29,8,723-738,Rossi
Modelling suppression difficulty: current and future applications,2020,29,8,739-751,Thompson
Forest fires in Mexico: an approach to estimate fire probabilities,2020,29,9,753-763,Galván
Evaluation of the Weather Research and Forecasting model in simulating fire weather for the south-west of Western Australia,2020,29,9,779-792,Kala
Quantifying how sources of uncertainty in combustible biomass propagate to prediction of wildland fire emissions,2020,29,9,793-806,McKenzie
Effects of fuel characteristics on horizontal spread rate and ground surface temperatures of smouldering duff,2020,29,9,820-831,Page
Effects of policy change on wildland fire management strategies: evidence for a paradigm shift in the western US?,2020,29,10,857-877,McCaffrey
Generating annual estimates of forest fire disturbance in Canada: the National Burned Area Composite,2020,29,10,878-891,Landry
Quantifying surface severity of the 2014 and 2015 fires in the Great Slave Lake area of Canada,2020,29,10,892-906,French
Comparing the performance of daily forest fire danger summary metrics for estimating fire activity in southern Australian forests,2020,29,10,926-938,Plucinski
How to measure the economic health cost of wildfires - a systematic review of the literature for northern America,2020,29,11,961-973,Dittrich
Goal setting and Indigenous fire management: a holistic perspective,2020,29,11,974-982,Nikolakis
Effect of weather forecast errors on fire growth model projections,2020,29,11,983-994,Penman
A method for creating a burn severity atlas: an example from Alberta Canada,2020,29,11,995-1008,Parisien
Patterns and trends in simultaneous wildfire activity in the United States from 1984 to 2015,2021,29,12,1057-1071,Cullen
Spatial correlates of forest and land fires in Indonesia,2021,29,12,1088-1099,Taylor
Modelling evacuation decision-making in the 2016 Chimney Tops 2 fire in Gatlinburg TN,2021,29,12,1120-1132,McCaffrey
The effect of ignition protocol on the spread rate of grass fires: a comment on the conclusions of Sutherland et al. (2020),2021,29,12,1133-1138,Sullivan
A response to comments of Cruz et al. on: 'The effect of ignition protocol on the spread rate of grass fires',2021,29,12,1139-1141,Sharples
Examining the relationship between elections and wildfires,2021,30,1,6-17,Kountouris
Monetising the savings of remotely sensed data and information in Burn Area Emergency Response (BAER) wildfire assessment,2021,30,1,18-29,Epting
High-severity wildfire potential - associating meteorology climate resource demand and wildfire activity with preparedness levels,2021,30,1,30-41,Cullen
A critical review of fuel accumulation models used in Australian fire management,2021,30,1,42-56,Sharples
Wildfire dynamics and impacts on a tropical Andean oak forest,2020,30,2,112-124,Aguilar-Garavito
The space-time cube as an approach to quantifying future wildfires in California,2020,30,2,139-153,Butsic
Quantifying production of hot firebrands using a fire-resistant fabric,2020,30,2,154-159,Gardner
Operationalising homeowner wildfire risk mitigation in fire-prone areas,2020,30,3,161-169,McCaffrey
Pre-season fire management planning: the use of potential operational delineations to prepare for wildland fire events,2020,30,3,170-178,Schultz
Effects of fuel spatial distribution on wildland fire behaviour,2021,30,3,179-189,Linn
The effect of fuel bed height in grass fire spread: addressing the findings and recommendations of Moinuddin et al. (2018),2020,30,3,215-220,Sullivan
A response to comments of Cruz et al. on: 'Simulation study of grass fire using a physics-based model: striving towards numerical rigour and the effect of grass height on the rate of spread',2021,30,3,221-223,Sharples
Guidelines for effective evaluation and comparison of wildland fire occurrence prediction models,2021,30,4,225-240,Woolford
A multivariate approach to assess the structural determinants of large wildfires: evidence from a Mediterranean country,2021,30,4,241-254,Painho
The importance of small fires for wildfire hazard in urbanised landscapes of the northeastern US,2021,30,5,307-321,Radeloff
Forest fire smoke detection under complex backgrounds using TRPCA and TSVB,2021,30,5,329-350,Zhang
Reaction intensity partitioning: a new perspective of the National Fire Danger Rating System Energy Release Component,2021,30,5,351-364,Weise
Rapid wind-terrain correction for wildfire simulations,2021,30,6,410-427,Hilton
A simple model indicates that there are sufficient water supply points for fighting forest fires in the Czech Republic,2021,30,6,428-439,Szczygieł
Spontaneous ignition of soils: a multi-step reaction scheme to simulate self-heating ignition of smouldering peat fires,2021,30,6,440-453,Rein
Using a biomathematical model to assess fatigue risk and scheduling characteristics in Canadian wildland firefighters,2021,30,6,467-473,Bredin
Wildland firefighters' thermal exposure in relation to suppression tasks,2021,30,7,475-483,Carballo-Leyenda
Factors influencing the development of violent pyroconvection. Part I: fire size and stability,2021,30,7,484-497,Sharples
Factors influencing the development of violent pyroconvection. Part II: fire geometry and intensity,2021,30,7,498-512,Sharples
Objective identification of thunderstorm gust fronts in numerical weather prediction models for fire weather forecasting,2021,30,7,513-535,Coen
Prescribed fire and fire suppression operations influence wildfire severity under severe weather in Lassen Volcanic National Park California USA,2021,30,7,536-551,Farris
Patterns of wildfire risk in the United States from systematic operational risk assessments: how risk is characterised by land managers,2021,30,8,569-584,Seielstad
Quantifying the effect of mastication on flaming and smouldering durations in eucalypt forests and woodlands under laboratory conditions,2021,30,8,611-624,Penman
Likelihood of implementing fuel reduction treatments on nonindustrial private forest lands,2021,30,8,625-635,Gordon
Downscaled GCM climate projections of fire weather over Victoria Australia. Part 1*: evaluation of the MACA technique,2021,30,8,585-595,Brown
Downscaled GCM climate projections of fire weather over Victoria Australia. Part 2*: a multi-model ensemble of 21st century trends,2021,30,8,596-610,Brown
Effect of vented helmets on heat stress during wildland firefighter simulation,2021,30,9,645-651,Dumke
Dynamic simulation of fire propagation in forests and rangelands using a GIS-based cellular automata model,2021,30,9,652-663,Hooshangi
On the non-monotonic behaviour of fire spread,2021,30,9,702-719,Viegas
Experimental study on artificial lightning ignition phenomenon and model of the fuel bed,2021,30,9,720-731,Liang
Bureaucratic inertia in dealing with annual forest fires in Indonesia,2021,30,10,733-744,Nurmandi
Long-term trends in wildfire damages in California,2021,30,10,757-762,Buechi
Spatial accessibility of anthropogenic fire ignition sources of grassland fire in northeast China,2021,30,10,763-775,Yu
Effect of fuel spatial resolution on predictive wildfire models,2021,30,10,776-789,Jones
Uncertainty quantification of forecast error in coupled fire-atmosphere wildfire spread simulations: sensitivity to the spatial resolution,2021,30,10,790-806,Bennett
Integrating remotely sensed fuel variables into wildfire danger assessment for China,2021,30,10,807-821,Xie
Corrigendum to: Integrating remotely sensed fuel variables into wildfire danger assessment for China,2021,30,10,822,Xie
Characterisation of initial fire weather conditions for large spring wildfires in Alberta Canada,2021,30,11,823-835,Flannigan
Potential conditions for fire occurrence in vegetation in the Peruvian Andes,2021,30,11,836-849,Zubieta
Comparing calibrated statistical and machine learning methods for wildland fire occurrence prediction: a case study of human-caused fires in Lac La Biche Alberta Canada,2021,30,11,850-870,Woolford
Dead and down woody debris fuel loads in Canadian forests,2021,30,11,871-885,Wang
An approach to integrated data management for three-dimensional time-dependent fire behaviour model evaluation,2021,30,12,911-920,McNamara
Variability in wildland fuel patches following high-severity fire and post-fire treatments in the northern Sierra Nevada,2021,30,12,921-932,Stephens
'Any prediction is better than none'? A study of the perceptions of fire behaviour analysis users in Australia,2021,30,12,946-953,Begg
Characterisation of thunderstorms that caused lightning-ignited wildfires,2021,30,12,954-970,Soler
Effect of uncompensable heat from the wildland firefighter helmet,2021,30,12,990-997,Dumke
Roles and experiences of non-governmental organisations in wildfire response and recovery,2021,31,1,46-55,Miller
Understanding fire regimes in Europe,2021,31,1,56-66,Curt
Regional drought synchronised historical fires in dry forests of the Montane Cordillera Ecozone Canada,2021,31,1,67-80,Daniels
An empirical-based model for predicting the forward spread rate of wildfires in eucalypt forests,2021,31,1,81-95,Sullivan
Do you CBI what I see? The relationship between the Composite Burn Index and quantitative field measures of burn severity varies across gradients of forest structure,2022,31,2,112-123,Harvey
High-resolution fire danger forecast for Poland based on the Weather Research and Forecasting Model,2021,31,2,149-162,Kochanski
Initial growth of fires in eucalypt litter from ignition to steady-state rate of spread: laboratory studies,2021,31,2,163-175,Sullivan
Extension of the Balbi fire spread model to include the field scale conditions of shrubland fires,2022,31,2,176-192,Cruz
Forest fire and its key drivers in the tropical forests of northern Vietnam,2022,31,3,213-229,Enright
Evaluating the relationships between wildfires and drought using machine learning,2022,31,3,230-239,Chen
An analytical model for predicting the flame length of fire lines and tree crown scorching,2022,31,3,240-254,Simeoni
An advanced approach for leaf flammability index estimation,2022,31,3,277-290,Güney
What determines variation in remotely sensed fire severity? Consideration of remote sensing limitations and confounding factors,2022,31,3,291-305,Cary
QES-Fire: a dynamically coupled fast-response wildfire model,2022,31,3,306-325,Kochanski
Simulation-based high-resolution fire danger mapping using deep learning,2022,31,4,379-394,Filippi
Predicting daily initial attack aircraft targets in British Columbia,2022,31,4,449-468,Taylor
Corrigendum to: Predicting daily initial attack aircraft targets in British Columbia,2022,31,4,469,Taylor
Evidence for lack of a fuel effect on forest and shrubland fire rates of spread under elevated fire danger conditions: implications for modelling and management,2022,31,5,471-479,Alexander
Re-examining the assumption of dominant regional wind and fire spread directions,2022,31,5,480-491,Shmuel
Interaction between two parallel fire fronts under different wind conditions,2022,31,5,492-506,Viegas
An analysis of fatalities from forest fires in China 1951-2018,2022,31,5,507-517,Brown
Field and full-scale laboratory testing of prototype wildland fire shelters,2022,31,5,518-528,Barker
Co-management during crisis: insights from jurisdictionally complex wildfires,2022,31,5,529-544,Nowell
Reconstructing seasonal fire danger in southeastern Australia using tree rings,2022,31,6,559-571,Fox-Hughes
Comparing geostationary and polar-orbiting satellite sensor estimates of Fire Radiative Power (FRP) during the Black Summer Fires (2019-2020) in south-eastern Australia,2022,31,6,572-585,Reinke
An analysis of factors influencing structure loss resulting from the 2018 Camp Fire,2022,31,6,586-598,Troy
Preventing wildfires with fire permits in rural Edson Alberta,2022,31,6,599-606,McGee
Firebrand transport from a novel firebrand generator: numerical simulation of laboratory experiments,2022,31,6,634-648,Sutherland
Corrigendum to: Firebrand transport from a novel firebrand generator: numerical simulation of laboratory experiments,2022,31,6,649,Sutherland
Professional wildfire mitigation competency: a potential policy gap,2022,31,7,651-657,Gollner
Recent change of burned area associated with summer heat extremes over Iberia,2022,31,7,658-669,DaCamara
A note on fire weather indices,2022,31,7,728-734,Sharples
Assessing the predictive efficacy of six machine learning algorithms for the susceptibility of Indian forests to fire,2022,31,8,735-758,Sharma
Rate of spread and flaming zone velocities of surface fires from visible and thermal image processing,2022,31,8,759-773,Zhang
Modelling initial attack success on forest fires suppressed by air attack in the province of Ontario Canada,2022,31,8,774-785,Wotton
Effectiveness of fitness training and psychosocial education intervention programs in wildland firefighting: a cluster randomised control trial,2022,31,8,799-815,Dorman
Wildland fire prevention: the impact of the Modifying Industrial Operations Protocol on the growth of industrial forestry-caused wildland fires in Ontario Canada,2022,31,9,825-834,Dean
A case-study of wildland fire management knowledge exchange: the barriers and facilitators in the development and integration of the Canadian Forest Fire Danger Rating System in Ontario Canada,2022,31,9,835-846,Johnston
Estimating visitor preferences for recreation sites in wildfire prone areas,2022,31,9,871-885,Tanner
Mapping the ethical landscape of wildland fire management: setting an agendum for research and deliberation on the applied ethics of wildland fire,2022,31,10,911-917,Goldstein
More smoke today for less smoke tomorrow? We need to better understand the public health benefits and costs of prescribed fire,2022,31,10,918-926,Berrens
The US Forest Service Life First safety initiative: exploring unnecessary exposure to risk,2022,31,10,927-935,Haire
Collective action for managing wildfire risk across boundaries in forest and range landscapes: lessons from case studies in the western United States,2022,31,10,936-948,Cheng
GAMBUT field experiment of peatland wildfires in Sumatra: from ignition to spread and suppression,2022,31,10,949-966,Rein
On the intermittent nature of forest fire spread - Part 2,2022,31,10,967-981,Ribeiro
Automated classification of fuel types using roadside images via deep learning,2022,31,10,982-987,Gul
Future expansion seasonal lengthening and intensification of fire activity under climate change in southeastern France,2022,32,1,4-14,Dupuy
Disentangling the factors of spatio-temporal patterns of wildfire activity in south-eastern France,2022,32,1,15-28,Dupuy
The role of helicity and fire-atmosphere turbulent energy transport in potential wildfire behaviour,2023,32,1,29-42,Zawar-Reza
Atmospheric turbulent structures and fire sweeps during shrub fires and implications for flaming zone behaviour,2022,32,1,43-55,Zawar-Reza
Comparing two methods to measure oxidative pyrolysis gases in a wind tunnel and in prescribed burns,2022,32,1,56-77,Weise
Deep peat fire persistently smouldering for weeks: a laboratory demonstration,2022,32,1,86-98,Huang
Heading and backing fire behaviours mediate the influence of fuels on wildfire energy,2023,32,8,1244-1261,Dickinson
Assessment of wildland firefighter opinions and experiences related to incident medical providers,2023,32,8,1262-1268,Bovbjerg
Exploring the impact of airtanker drops on in-stand temperature and relative humidity,2023,32,8,1269-1276,Wotton
Predicting burn severity for integration with post-fire debris-flow hazard assessment: a case study from the Upper Colorado River Basin USA,2023,32,9,1315-1331,Hawbaker
A phenology-driven fire danger index for northern grasslands,2023,32,9,1332-1346,Sjöström
FireFormer: an efficient transformer to identify forest fire from surveillance cameras,2023,32,9,1364-1380,Li
Effect of initial generating eddy height on formation and flame geometry of fire whirl,2023,32,9,1381-1390,Zhang
Quantifying the flammability of living plants at the branch scale: which metrics to use?,2023,32,10,1404-1421,Filkov
Extending methods for assessing fuel hazard in temperate Australia to enhance data quality and consistency,2023,32,10,1422-1437,Bennett
Transitioning operational satellite grassland curing from MODIS to VIIRS,2023,32,10,1438-1454,Wright
Improved logistic models of crown fire probability in Canadian conifer forests,2023,32,10,1455-1473,Taylor
Measuring the long-term costs of uncharacteristic wildfire: a case study of the 2010 Schultz Fire in Northern Arizona,2023,32,10,1474-1486,Edgeley
Performance of operational fire spread models in California,2023,32,11,1492-1502,Cardil
Fireline production rate of handcrews in wildfires of the Spanish Mediterranean region,2023,32,11,1503-1514,Molina
Numerical simulation of aerial liquid drops of Canadair CL-415 and Dash-8 airtankers,2023,32,11,1515-1528,Legendre
Assessing the role played by meteorological conditions on the interannual variability of fire activity in four subregions of Iberia,2023,32,11,1529-1541,Pereira
Systematising experts' understanding of traditional burning in Portugal: a mental model approach,2023,32,11,1558-1575,Souza
Physics-based modelling for mapping firebrand flux and heat load on structures in the wildland-urban interface,2023,32,11,1576-1599,Filkov
Parametric evaluation of heat transfer mechanisms in a WUI fire scenario,2023,32,11,1600-1618,Santiago
On the interaction of wind fire intensity and downslope terrain with implications for building standards in wildfire-prone areas,2023,32,11,1619-1632,Sharples
Social science to advance wildfire adaptation in the southwestern United States: a review and future research directions,2023,32,12,1647-1662,Edgeley
Occupational and environmental factors influencing morale of United States federal wildland firefighters,2023,32,12,1663-1676,Shen
A novel method to evaluate safe heat exposure distance for firefighters under thermal radiation conditions,2023,32,12,1677-1688,Li
Fighting wildfires: predicting initial attack success across Victoria Australia,2023,32,12,1689-1703,Deutsch
A high-resolution large-eddy simulation framework for wildland fire predictions using TensorFlow,2023,32,12,1711-1725,Anderson
Numerical simulation of two parallel merging wildfires,2023,32,12,1726-1740,Huang
Interactions of non-intersecting oblique lines of fire burning in surface fuels in a combustion wind tunnel with and without wind,2023,32,12,1741-1757,Sullivan
Mapping the probability of wildland fire occurrence in Central America and identifying the key factors,2023,32,12,1758-1772,Chicas
Drivers of wildfire burn severity in the montane rainforests of northern Vietnam,2023,32,12,1773-1787,Enright
Using soil moisture information to better understand and predict wildfire danger: a review of recent developments and outstanding questions,2023,32,2,111-132,Coops
Relating McArthur fire danger indices to remote sensing derived burned area across Australia,2023,32,2,133-148,Cary
Non-parametric comparative analysis of the spatiotemporal pattern of human-caused and natural wildfires in Galicia,2023,32,2,178-194,Marey-Pérez
Coupled fire-atmosphere simulation of the 2018 Camp Fire using WRF-Fire,2023,32,2,195-221,Roberts
Relationships between building features and wildfire damage in California USA and Pedrógão Grande Portugal,2023,32,2,296-312,Rein
Perception of wildfire behaviour potential among Swedish incident commanders and their fire suppression tactics revealed through tabletop exercises,2023,32,3,320-327,Sjöström
Slope effect on junction fire with two non-symmetric fire fronts,2023,32,3,328-335,Viegas
Physics-based modelling of junction fires: parametric study,2023,32,3,336-350,Moinuddin
Modelling the daily probability of lightning-caused ignition in the Iberian Peninsula,2023,32,3,351-362,Vega-García
CFD modelling of WUI fire behaviour in historical fire cases according to different fuel management scenarios,2023,32,3,363-379,Ganteaume
Factors influencing ember accumulation near a building,2023,32,3,380-387,Quarles
LPG stored at the wildland-urban interface: recent events and the effects of jet fires and BLEVE,2023,32,3,388-402,Viegas
Bridging knowledge gaps on the role of spatial planning in wildfire risk reduction: insights from Portugal,2023,32,3,403-416,Tedim
Wildfire hazard mapping in the eastern Mediterranean landscape,2023,32,3,417-434,Tonini
Different approaches make comparing studies of burn severity challenging: a review of methods used to link remotely sensed data with the Composite Burn Index,2023,32,4,449-475,Moskal
Atmospheric turbulence and wildland fires: a review,2023,32,4,476-495,Heilman
Physics-based simulations of grassfire propagation on sloped terrain at field scale: motivations model reliability rate of spread and fire intensity,2023,32,4,496-512,Moinuddin
Physics-based simulations of grassfire propagation on sloped terrain at field scale: flame dynamics mode of fire propagation and heat fluxes,2023,32,4,513-530,Moinuddin
The role of drought conditions on the recent increase in wildfire occurrence in the high Andean regions of Peru,2023,32,4,531-544,Zubieta
Crown fire initiation of a thunderstorm,2023,32,4,545-560,Sturgess
Effects of different sampling strategies for unburned label selection in machine learning modelling of wildfire occurrence probability,2023,32,4,561-575,Xie
Study on the ground fraction of air tankers,2023,32,4,576-592,Xie
Experimental study of the burning characteristics of dead forest fuels,2023,32,4,593-609,Pinto
Identifying building locations in the wildland-urban interface before and after fires with convolutional neural networks,2023,32,4,610-621,Radeloff
Use of the Wildland Fire Decision Support System (WFDSS) for full suppression and managed fires within the Southwestern Region of the US Forest Service,2023,32,4,622-635,Paveglio
An artificial intelligence framework for predicting fire spread sustainability in semiarid shrublands,2023,32,4,636-649,Cruz
Fires and their key drivers in Mexico,2023,32,5,651-664,Montoya
Quantifying burned area of wildfires in the western United States from polar-orbiting and geostationary satellite active-fire detections,2023,32,5,665-678,Saide
Consistent high-accuracy mapping of daily and sub-daily wildfire growth with satellite observations,2023,32,5,694-708,Wang
Simulated behaviour of wildland fire spreading through idealised heterogeneous fuels,2023,32,5,738-748,Moinuddin
Adaptation of QES-Fire a dynamically coupled fast response wildfire model for heterogeneous environments,2023,32,5,749-766,Moody
The relationship between wind speed and satellite measurements of fire radiative power,2023,32,5,767-776,Potter
Examining the influence of mid-tropospheric conditions and surface wind changes on extremely large fires and fire growth days,2023,32,5,777-795,Potter
Evaluation of new methods for drought estimation in the Canadian Forest Fire Danger Rating System,2023,32,6,836-853,Flannigan
Wind vector change and fire weather index in New Zealand as a modified metric in evaluating fire danger,2023,32,6,872-885,Pearce
Testing simple approaches to map sediment mobilisation hotspots after wildfires,2023,32,6,886-902,Parente
Influence of fuel structure on gorse fire behaviour,2023,32,6,927-941,Finney
Nature-based solutions to wildfires in rural landscapes of Southern Europe: let's be fire-smart!,2023,32,6,942-950,Lecina-Diaz
Field and laboratory analysis of the junction fire process in the catastrophic fire of Pedrógão Grande in June 2017,2023,32,6,951-967,Almeida
Burnover events identified during the 2018 Camp Fire,2023,32,6,989-997,Maranghides
Intermittent fireline behaviour over porous vegetative media in different crossflow conditions,2023,32,6,998-1010,Simeoni
Evaluating wildfire vulnerability of Mediterranean dwellings using fuzzy logic applied to expert judgement,2023,32,6,1011-1029,Pastor
Drivers of California's changing wildfires: a state-of-the-knowledge synthesis,2023,32,7,1039-1058,Brown
Shoot flammability patterns among plant species of the wildland-urban interface in the fire-prone Greater Blue Mountains World Heritage Area,2023,32,7,1119-1134,Curran
Effect of flame zone depth on the correlation of flame length with fireline intensity,2023,32,7,1135-1147,Finney
Severe large-scale bushfire threatens metapopulation function of quokka (Setonix brachyurus) in south-western Australia,2023,32,8,1175-1186,Bain
Calculating fire danger of cured grasslands in temperate climates - the elements of the Grassland Fire Index (GLFI),2023,32,8,1212-1225,Wittich
Field-based generic empirical flame length-fireline intensity relationships for wildland surface fires,2024,33,1,WF23127,Fernandes
Factors influencing wildfire management decisions after the 2009 US federal policy update,2024,33,1,WF23129,McCaffrey
Forest fire progress monitoring using dual-polarisation Synthetic Aperture Radar (SAR) images combined with multi-scale segmentation and unsupervised classification,2024,33,1,WF23124,Zhang
LEF-YOLO: a lightweight method for intelligent detection of four extreme wildfires based on the YOLO framework,2024,33,1,WF23044,Li
The role of people parks and precipitation on the frequency and timing of fires in a sub-Saharan savanna ecosystem,2024,33,1,WF23020,Moise
Associations between Australian climate drivers and extreme weekly fire danger,2024,33,1,WF23060,Cary
Fire whirls induced by a line fire on a windward slope: a laboratory-scale study,2024,33,1,WF23048,Simeoni
Exploring the influence of the Keetch-Byram Drought Index and McArthur's Drought Factor on wildfire incidence in Victoria Australia,2024,33,1,WF23073,Deutsch
Prescribed burning on private land: reflections on recent law reform in Australia and California,2024,33,1,WF22213,Miller
An escape route planning model based on wildfire prediction information and travel rate of firefighters,2024,33,3,,Li