Articles citing this paper
Predicting the ignition of crown fuels above a spreading surface fire. Part I: model idealization
Miguel G. Cruz A E , Bret W. Butler B , Martin E. Alexander C , Jason M. Forthofer B and Ronald H. Wakimoto D
+ Author Affiliations
- Author Affiliations
A Associação para o Desenvolvimento da Aerodinâmica Industrial, Apartado 10131, 3031-601 Coimbra, Portugal. Present address: Ensis – Forest Biosecurity and Protection, CSIRO, PO Box E4008, Kingston, ACT 2604, Australia.
B USDA Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory, Missoula, MT 59834, USA.
C Forest Engineering Research Institute of Canada, Wildland Fire Operations Research Group, 1176 Switzer Drive, Hinton, AB T7V 1V3, Canada. Present address: Canadian Forest Service, Northern Forestry Centre, 5320 122nd Street, Edmonton, Alberta T6H 3S5, Canada.
D College of Forestry and Conservation, University of Montana, Missoula, MT 59812, USA.
E Corresponding author. Email: miguel.cruz@ensisjv.com
International Journal of Wildland Fire 15(1) 47-60 https://doi.org/10.1071/WF04061
Submitted: 26 October 2004 Accepted: 25 August 2005 Published: 6 March 2006
53 articles found in Crossref database.
Estimation of Crown Fuel Load of Suppressed Trees in Non-treated Young Calabrian Pine (Pinus brutia Ten.) Plantation Areas
BAYSAL İsmail,
YURTGAN Mehmet,
KÜÇÜK Ömer, ÖZTÜRK Nuray
Kastamonu Üniversitesi Orman Fakültesi Dergisi. 2019 19(3). p.350
Improved logistic models of crown fire probability in Canadian conifer forests
Perrakis Daniel D. B.,
Cruz Miguel G.,
Alexander Martin E.,
Hanes Chelene C.,
Thompson Dan K.,
Taylor Stephen W., Stocks Brian J.
International Journal of Wildland Fire. 2023 32(10). p.1455
Estimating the heat transfer to an organic soil surface during crown fire
Thompson D. K.,
Wotton B. M., Waddington J. M.
International Journal of Wildland Fire. 2015 24(1). p.120
Evaluating a model for predicting active crown fire rate of spread using wildfire observations
Alexander Martin E, Cruz Miguel G
Canadian Journal of Forest Research. 2006 36(11). p.3015
Autoignition of Dead Shrub Twigs: Influence of Diameter on Ignition
Tihay-Felicelli Virginie,
Santoni Paul-Antoine,
Barboni Toussaint, Leonelli Lara
Fire Technology. 2016 52(3). p.897
Effect of stand, topographic, and climatic factors on the fuel complex characteristics of Aleppo (Pinus halepensis Mill.) and Calabrian (Pinus brutia Ten.) pine forests of Greece
Mitsopoulos Ioannis, Xanthopoulos Gavriil
Forest Ecology and Management. 2016 360 p.110
Linking 3D spatial models of fuels and fire: Effects of spatial heterogeneity on fire behavior
Parsons Russell A.,
Mell William E., McCauley Peter
Ecological Modelling. 2011 222(3). p.679
Using AutoML and generative AI to predict the type of wildfire propagation in Canadian conifer forests
Khanmohammadi Sadegh,
Cruz Miguel G.,
Perrakis Daniel D.B.,
Alexander Martin E., Arashpour Mehrdad
Ecological Informatics. 2024 82 p.102711
Cork extraction as a key factor determining post-fire cork oak survival in a mountain region of southern Portugal
Moreira Francisco,
Duarte Inês,
Catry Filipe, Acácio Vanda
Forest Ecology and Management. 2007 253(1-3). p.30
Fuels and fire behavior dynamics in bark beetle-attacked forests in Western North America and implications for fire management
Jenkins Michael J.,
Page Wesley G.,
Hebertson Elizabeth G., Alexander Martin E.
Forest Ecology and Management. 2012 275 p.23
Potential crown fire behavior in Pinus pinea stands following different fuel treatments
Molina Juan Ramon,
Rodriguez y Silva F, Herrera M A
Forest Systems. 2011 20(2). p.266
Use of national forest inventory data to develop stand density driven models for understorey shrubs and overstorey fuel variables and associated temporal dynamics in commercial plantations
Castedo-Dorado Fernando,
Ruiz-González Ana Daría,
Hidalgo José Antonio Vega,
Arellano-Pérez Stéfano, Álvarez-González Juan Gabriel
Forest Ecology and Management. 2024 553 p.121597
Orman Yangınları Sonrası Ekosistem Tabanlı Planlamaya Doğru: Yanma Derinliğinin Sınıflandırılması
GÜNEY Coşkun Okan,
MERT Ahmet, GÜLSOY Serkan
Afet ve Risk Dergisi. 2023 6(1). p.206
Development and evaluation of a semi-physical crown fire initiation model
Cruz Miguel G.,
Butler Bret W.,
Alexander Martin E., Viegas D.X.
Forest Ecology and Management. 2006 234 p.S96
Cross-Scale Analysis of Fire Regimes
Falk Donald A.,
Miller Carol,
McKenzie Donald, Black Anne E.
Ecosystems. 2007 10(5). p.809
Canopy bulk density and canopy base height equations for assessing crown fire hazard inPinus radiataplantations
Ruiz-González Ana Daría, Álvarez-González Juan Gabriel
Canadian Journal of Forest Research. 2011 41(4). p.839
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Simulating fire regimes in the Amazon in response to climate change and deforestation
Silvestrini Rafaella Almeida,
Soares-Filho Britaldo Silveira,
Nepstad Daniel,
Coe Michael,
Rodrigues Hermann, Assunção Renato
Ecological Applications. 2011 21(5). p.1573
An analytical model for predicting the flame length of fire lines and tree crown scorching
Zhou Kuibin, Simeoni Albert
International Journal of Wildland Fire. 2022 31(3). p.240
Designing a conceptual framework for strategic selection of Bushfire mitigation approaches
Tayari Sara,
Taghikhah Firouzeh,
Bharathy Gnana, Voinov Alexey
Journal of Environmental Management. 2023 344 p.118486
Satellite observed response of fire dynamics to vegetation water content and weather conditions in Southeast Asia
Fu Yuyun,
Hu Jiheng,
Song Weiguo,
Cheng Yuanxi, Li Rui
ISPRS Journal of Photogrammetry and Remote Sensing. 2023 202 p.230
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
Viegas Domingos X.,
Raposo Jorge R.,
Davim David A., Rossa Carlos G.
International Journal of Wildland Fire. 2012 21(7). p.843
A mathematical model for predicting the maximum potential spotting distance from a crown fire
Albini Frank A.,
Alexander Martin E., Cruz Miguel G.
International Journal of Wildland Fire. 2012 21(5). p.609
Assessing crown fire potential in coniferous forests of western North America: a critique of current approaches and recent simulation studies
Cruz Miguel G., Alexander Martin E.
International Journal of Wildland Fire. 2010 19(4). p.377
Modelling available crown fuel for Pinus pinaster Ait. stands in the “Cazorla, Segura and Las Villas Natural Park” (Spain)
Molina Juan Ramón,
Rodríguez y Silva Francisco,
Mérida Enrique, Herrera Miguel Ángel
Journal of Environmental Management. 2014 144 p.26
Differentiating mixed- and high-severity fire regimes in mixed-conifer forests of the Canadian Cordillera
Marcoux Hélène M.,
Daniels Lori D.,
Gergel Sarah E.,
Da Silva Eric,
Gedalof Ze’ev, Hessburg Paul F.
Forest Ecology and Management. 2015 341 p.45
An artificial intelligence framework for predicting fire spread sustainability in semiarid shrublands
Khanmohammadi Sadegh,
Arashpour Mehrdad,
Golafshani Emadaldin Mohammadi,
Cruz Miguel G., Rajabifard Abbas
International Journal of Wildland Fire. 2023 32(4). p.636
Experimental and Numerical Modeling of Shrub Crown Fire Initiation
Tachajapong Watcharapong,
Lozano Jesse,
Mahalingam Shankar,
Zhou Xiangyang, Weise David R.
Combustion Science and Technology. 2009 181(4). p.618
The effect of silvicultural treatments on fire behaviour potential in radiata pine plantations of South Australia
Cruz M.G.,
Alexander M.E., Plucinski M.P.
Forest Ecology and Management. 2017 397 p.27
Mantras of wildland fire behaviour modelling: facts or fallacies?
Cruz Miguel G.,
Alexander Martin E., Sullivan Andrew L.
International Journal of Wildland Fire. 2017 26(11). p.973
Effects of wildland fire smoke on a tree-roosting bat: integrating a plume model, field measurements, and mammalian dose–response relationships
Dickinson M. B.,
Norris J. C.,
Bova A. S.,
Kremens R. L.,
Young V., Lacki M. J.
Canadian Journal of Forest Research. 2010 40(11). p.2187
Fire potential rating for wildland fuelbeds using the Fuel Characteristic Classification SystemThis article is one of a selection of papers published in the Special Forum on the Fuel Characteristic Classification System.
Sandberg David V.,
Riccardi Cynthia L., Schaaf Mark D.
Canadian Journal of Forest Research. 2007 37(12). p.2456
Predicting climate change effects on wildfires requires linking processes across scales
Macias Fauria Marc,
Michaletz Sean T., Johnson Edward A.
WIREs Climate Change. 2011 2(1). p.99
Sub-canopy forest winds: understanding wind profiles for fire behaviour simulation
Moon K.,
Duff T.J., Tolhurst K.G.
Fire Safety Journal. 2019 105 p.320
Wildland Fires and Air Pollution (2008)
Prescribed fire experiences on crop residue removal for biomass exploitations. Application to the maritime pine forests in the Mediterranean Basin
Molina Juan Ramón,
García Juan Pedro,
Fernández Juan José, Rodríguez y Silva Francisco
Science of The Total Environment. 2018 612 p.63
Fire Phenomena and the Earth System (2013)
Modelling the effects of surface and crown fire behaviour on serotinous cone opening in jack pine and lodgepole pine forests
Alexander M. E., Cruz M. G.
International Journal of Wildland Fire. 2012 21(6). p.709
Vertical and Horizontal Crown Fuel Continuity Influences Group-Scale Ignition and Fuel Consumption
Ritter Scott M.,
Hoffman Chad M.,
Battaglia Mike A.,
Linn Rodman, Mell William E.
Fire. 2023 6(8). p.321
Empirical-based models for predicting head-fire rate of spread in Australian fuel types
Cruz Miguel G.,
Gould James S.,
Alexander Martin E.,
Sullivan Andrew L.,
McCaw W. Lachlan, Matthews Stuart
Australian Forestry. 2015 78(3). p.118
Fluid Dynamic Structures in a Fire Environment Observed in Laboratory-Scale Experiments
Lozano Jesse,
Tachajapong Watcharapong,
Weise David R.,
Mahalingam Shankar, Princevac Marko
Combustion Science and Technology. 2010 182(7). p.858
Predicting the ignition of crown fuels above a spreading surface fire. Part II: model evaluation
Cruz Miguel G.,
Butler Bret W., Alexander Martin E.
International Journal of Wildland Fire. 2006 15(1). p.61
An Investigation of Crown Fuel Bulk Density Effects on the Dynamics of Crown Fire Initiation in Shrublands1
Tachajapong Watcharapong,
Lozano Jesse,
Mahalingam Shankar,
Zhou Xiangyang, Weise David R.
Combustion Science and Technology. 2008 180(4). p.593
Fire Protection Principles and Recommendations in Disturbed Forest Areas in Central Europe: A Review
Berčák Roman,
Holuša Jaroslav,
Kaczmarowski Jan,
Tyburski Łukasz,
Szczygieł Ryszard,
Held Alexander,
Vacik Harald,
Slivinský Ján, Chromek Ivan
Fire. 2023 6(8). p.310
Effect of vegetation heterogeneity on radiative transfer in forest fires
Pimont François,
Dupuy Jean-Luc,
Caraglio Yves, Morvan Dominique
International Journal of Wildland Fire. 2009 18(5). p.536
Wildfire plume electrical conductivity
Mphale Kgakgamatso, Heron Malcom
Tellus B: Chemical and Physical Meteorology. 2007 59(4). p.766
Sensor Applications, Experimentation, and Logistics (2010)
The Transition and Spread of a Chaparral Crown Fire: Insights from Laboratory Scale Wind Tunnel Experiments
Cobian-Iñiguez Jeanette,
Aminfar Amir Hessam,
Saha Shusmita,
Awayan Kyle,
Weise David R.,
Princevac Marko, Shaw Benjamin
Journal of Combustion. 2022 2022 p.1
EFFECT OF WILDFIRE-INDUCED THERMAL BUBBLE ON RADIO COMMUNICATION
Mphale Kgakgamatso,
Heron Mal, Verma Tej
Progress In Electromagnetics Research. 2007 68 p.197
How forest fires kill trees: A review of the fundamental biophysical processes
Michaletz Sean T., Johnson Edward A.
Scandinavian Journal of Forest Research. 2007 22(6). p.500
A conceptual framework for ranking crown fire potential in wildland fuelbedsThis article is one of a selection of papers published in the Special Forum on the Fuel Characteristic Classification System.
Schaaf Mark D.,
Sandberg David V.,
Schreuder Maarten D., Riccardi Cynthia L.
Canadian Journal of Forest Research. 2007 37(12). p.2464
Simulated western spruce budworm defoliation reduces torching and crowning potential: a sensitivity analysis using a physics-based fire model
Cohn Gregory M.,
Parsons Russell A.,
Heyerdahl Emily K.,
Gavin Daniel G., Flower Aquila
International Journal of Wildland Fire. 2014 23(5). p.709
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
