Articles citing this paper
cfArticle2ecfc1291681887$funcTITLE@3118ffdb
John K. Maingi A B and Mary C. Henry A
+ Author Affiliations
- Author Affiliations
A Department of Geography, Miami University, Oxford, OH 45056, USA.
B Corresponding author. Email: maingijk@muohio.edu
International Journal of Wildland Fire 16(1) 23-33 https://doi.org/10.1071/WF06007
Published: 20 February 2007
112 articles found in Crossref database.
Multi‐scalar influence of weather and climate on very large‐fires in the Eastern United States
Barbero Renaud,
Abatzoglou John T.,
Kolden Crystal A.,
Hegewisch Katherine C.,
Larkin Narasimhan K., Podschwit Harry
International Journal of Climatology. 2015 35(8). p.2180
Modeling the spatial patterns of human wildfire ignition in Yunnan province, China
Ye Jiangxia,
Wu Mingshan,
Deng Zhongjian,
Xu Shengji,
Zhou Ruliang, Clarke Keith C.
Applied Geography. 2017 89 p.150
Estimating the probability of wildfire occurrence in Mediterranean landscapes using Artificial Neural Networks
Elia Mario,
D'Este Marina,
Ascoli Davide,
Giannico Vincenzo,
Spano Giuseppina,
Ganga Antonio,
Colangelo Giuseppe,
Lafortezza Raffaele, Sanesi Giovanni
Environmental Impact Assessment Review. 2020 85 p.106474
The impact of wildfires on particulate carbon in the western U.S.A
Requia Weeberb J.,
Coull Brent A., Koutrakis Petros
Atmospheric Environment. 2019 213 p.1
Trends in Forest Fire Occurrence in the Ilmensky Nature Reserve, Southern Urals, Russia, between 1948 and 2014
Veselkin Denis,
Kuyantseva Nadezhda,
Pustovalova Liliya, Mumber Aleksandr
Forests. 2022 13(4). p.528
Response of Northern Bats (Myotis septentrionalis) to Prescribed Fires in Eastern Kentucky Forests
Lacki Michael J.,
Cox Daniel R.,
Dodd Luke E., Dickinson Matthew B.
Journal of Mammalogy. 2009 90(5). p.1165
Fire severity effects on ash chemical composition and water-extractable elements
Pereira Paulo,
Úbeda Xavier, Martin Deborah A.
Geoderma. 2012 191 p.105
Socio-economic risk factors and wildfire crime in Italy: a quantile panel approach
Canepa Alessandra
Empirical Economics. 2024 66(1). p.431
Forest Fires in Italy: An Econometric Analysis of Major Driving Factors
Michetti Melania, Pinar Mehmet
SSRN Electronic Journal. 2013
Spatial accessibility of anthropogenic fire ignition sources of grassland fire in northeast China
Zhang Zhengxiang,
Li Jianjie,
Yu Shan, Zhao Jianjun
International Journal of Wildland Fire. 2021 30(10). p.763
The Relationship between wildfire areas and physiographic features in the Zagros vegetation area, Kermanshah province
Gholamrezaei Ashkan,
Khosravi Mohammad, Pourreza Morteza
Ecology of Iranian Forests. 2022 10(20). p.183
Spatial models for monitoring the spatio-temporal evolution of ashes after fire – a case study of a burnt grassland in Lithuania
Pereira P.,
Cerdà A.,
Úbeda X.,
Mataix-Solera J.,
Martin D.,
Jordán A., Burguet M.
Solid Earth. 2013 4(1). p.153
Driving factors of fire density can spatially vary at the local scale in south-eastern France
Ganteaume Anne, Long-Fournel Marlène
International Journal of Wildland Fire. 2015 24(5). p.650
Environmental determinants of lightning- v. human-induced forest fire ignitions differ in a temperate mountain region of Switzerland
Reineking Björn,
Weibel Patrick,
Conedera Marco, Bugmann Harald
International Journal of Wildland Fire. 2010 19(5). p.541
Progress in the remote sensing of veld fire occurrence and detection: A review
Graham Earl,
Dube Timothy, Mpakairi Kudzai S.
African Journal of Ecology. 2023 61(3). p.541
Forest Fire Risk Assessment using Fuzzy Analytic Hierarchy Process
MEHTA DIVYA,
KAUR BAWEJA PARMINDER, AGGARWAL R K
Current World Environment. 2018 13(3). p.307
Spatial pattern prediction of forest wildfire susceptibility in Central Yunnan Province, China based on multivariate data
Lan Yongcui,
Wang Jinliang,
Hu Wenying,
Kurbanov Eldar,
Cole Janine,
Sha Jinming,
Jiao Yuanmei, Zhou Jingchun
Natural Hazards. 2023 116(1). p.565
Spatial and temporal characteristics of wildfires in Mississippi, USA
Grala Katarzyna, Cooke William H.
International Journal of Wildland Fire. 2010 19(1). p.14
Risk of fire occurrence in arid and semi-arid ecosystems of Iran: an investigation using Bayesian belief networks
Bashari Hossein,
Naghipour Ali Asghar,
Khajeddin Seyed Jamaleddin,
Sangoony Hamed, Tahmasebi Pejman
Environmental Monitoring and Assessment. 2016 188(9).
What drives forest fire in Fujian, China? Evidence from logistic regression and Random Forests
Guo Futao,
Wang Guangyu,
Su Zhangwen,
Liang Huiling,
Wang Wenhui,
Lin Fangfang, Liu Aiqin
International Journal of Wildland Fire. 2016 25(5). p.505
Impacts of climate change on the fate of contaminants through extreme weather events
Bolan Shiv,
Padhye Lokesh P.,
Jasemizad Tahereh,
Govarthanan Muthusamy,
Karmegam N.,
Wijesekara Hasintha,
Amarasiri Dhulmy,
Hou Deyi,
Zhou Pingfan,
Biswal Basanta Kumar,
Balasubramanian Rajasekhar,
Wang Hailong,
Siddique Kadambot H.M.,
Rinklebe Jörg,
Kirkham M.B., Bolan Nanthi
Science of The Total Environment. 2024 909 p.168388
Black carbon and organic carbon emissions from wildfires in Mexico
Cruz Núñez Xóchitl,
Villers Ruiz Lourdes, Gay García Carlos
Atmósfera. 2014 27(2). p.165
Spatiotemporal patterns of burned areas, fire drivers, and fire probability across the equatorial Andes
Zapata-Ríos Xavier,
Lopez-Fabara Carmen,
Navarrete Abigail,
Torres-Paguay Sandra, Flores Miguel
Journal of Mountain Science. 2021 18(4). p.952
Factors influencing the formation of unburned forest islands within the perimeter of a large forest fire
Román-Cuesta Rosa Maria,
Gracia Marc, Retana Javier
Forest Ecology and Management. 2009 258(2). p.71
Estimating the area burned by agricultural fires from Landsat 8 Data using the Vegetation Difference Index and Burn Scar Index
Wang Shudong,
Baig Muhammad Hasan Ali,
Liu Suhong,
Wan Huawei,
Wu Taixia, Yang Yingying
International Journal of Wildland Fire. 2018 27(4). p.217
Evaluation of Wildfire Occurrences in Pakistan with Global Gridded Soil Properties Derived from Remotely Sensed Data
Rafaqat Warda,
Iqbal Mansoor,
Kanwal Rida, Weiguo Song
Remote Sensing. 2022 14(21). p.5503
Influences of forest roads on the spatial patterns of human- and lightning-caused wildfire ignitions
Narayanaraj Ganapathy, Wimberly Michael C.
Applied Geography. 2012 32(2). p.878
Wildland Fires and Air Pollution (2008)
Unauthorized Firesetting as Socioecological Disturbance: A Spatiotemporal Analysis of Incendiary Wildfires in Georgia, USA, 1987–2010
Coughlan Michael R.
Fire Ecology. 2013 9(3). p.45
Assessment of social vulnerability to forest fire and hazardous facilities in Germany
Fekete Alexander, Nehren Udo
International Journal of Disaster Risk Reduction. 2023 87 p.103562
Identifying dynamics of fire ignition probabilities in two representative Mediterranean wildland-urban interface areas
Badia Anna,
Serra Pere, Modugno Sirio
Applied Geography. 2011 31(3). p.930
Modelling static fire hazard in a semi-arid region using frequency analysis
Adab Hamed,
Kanniah Kasturi Devi,
Solaimani Karim, Sallehuddin Roselina
International Journal of Wildland Fire. 2015 24(6). p.763
Human-caused fire occurrence modelling in perspective: a review
Costafreda-Aumedes Sergi,
Comas Carles, Vega-Garcia Cristina
International Journal of Wildland Fire. 2017 26(12). p.983
The Impact of Precipitation Regimes on Forest Fires in Yunnan Province, Southwest China
Chen Feng,
Niu Shukui,
Tong Xiaojuan,
Zhao Jinlong,
Sun Yu, He Tengfei
The Scientific World Journal. 2014 2014 p.1
Landfire hazard assessment in the Caspian Hyrcanian forest ecoregion with the long-term MODIS active fire data
Adab Hamed
Natural Hazards. 2017 87(3). p.1807
A multivariate analysis of biophysical factors and forest fires in Spain, 1991 - 2005
Verdú Felipe,
Salas Javier, Vega-García Cristina
International Journal of Wildland Fire. 2012 21(5). p.498
Mapping fire behaviour under changing climate in a Mediterranean landscape in Greece
Mitsopoulos Ioannis,
Mallinis Giorgos,
Karali Anna,
Giannakopoulos Christos, Arianoutsou Margarita
Regional Environmental Change. 2016 16(7). p.1929
The fire history of an arid grassland: the influence of antecedent rainfall and ENSO
Greenville Aaron C.,
Dickman Chris R.,
Wardle Glenda M., Letnic Mike
International Journal of Wildland Fire. 2009 18(6). p.631
Impact of drought on wildland fires in Greece: implications of climatic change?
Dimitrakopoulos Alexandros P.,
Vlahou M.,
Anagnostopoulou Ch. G., Mitsopoulos I. D.
Climatic Change. 2011 109(3-4). p.331
Road Network and the Spatial Distribution of Wildfires in the Valencian Community (1993–2015)
Zambon Ilaria,
Cerdà Artemi,
Cudlin Pavel,
Serra Pere,
Pili Silvia, Salvati Luca
Agriculture. 2019 9(5). p.100
Predictive model of spatial scale of forest fire driving factors: a case study of Yunnan Province, China
Li Wenhui,
Xu Quanli,
Yi Junhua, Liu Jing
Scientific Reports. 2022 12(1).
Tools for Assessing the Impacts of Climate Variability and Change on Wildfire Regimes in Forests
Herawati Hety,
González-Olabarria José,
Wijaya Arief,
Martius Christopher,
Purnomo Herry, Andriani Rubeta
Forests. 2015 6(5). p.1476
A Review of the Main Driving Factors of Forest Fire Ignition Over Europe
Ganteaume Anne,
Camia Andrea,
Jappiot Marielle,
San-Miguel-Ayanz Jesus,
Long-Fournel Marlène, Lampin Corinne
Environmental Management. 2013 51(3). p.651
Likelihood of implementing fuel reduction treatments on nonindustrial private forest lands
Shrestha Anusha,
Grala Robert K.,
Grado Stephen C.,
Roberts Scott D., Gordon Jason S.
International Journal of Wildland Fire. 2021 30(8). p.625
Comparing four regression techniques to explore factors governing the number of forest fires in Southeast, China
Cao Qianqian,
Zhang Lianjun,
Su Zhangwen,
Wang Guangyu,
Sun Shuaichao, Guo Futao
Geomatics, Natural Hazards and Risk. 2021 12(1). p.499
Modeling Anthropogenic Fire Occurrence in the Boreal Forest of China Using Logistic Regression and Random Forests
Guo Futao,
Zhang Lianjun,
Jin Sen,
Tigabu Mulualem,
Su Zhangwen, Wang Wenhui
Forests. 2016 7(11). p.250
Analysis of Factors Related to Forest Fires in Different Forest Ecosystems in China
Wu Zechuan,
Li Mingze,
Wang Bin,
Tian Yuping,
Quan Ying, Liu Jianyang
Forests. 2022 13(7). p.1021
Contemporary Pyrogeography and Wildfire-Climate Relationships of South Dakota, USA
Clabo Darren R.
Atmosphere. 2018 9(6). p.207
Trend analysis of medium- and coarse-resolution time series image data for burned area mapping in a Mediterranean ecosystem
Katagis Thomas,
Gitas Ioannis Z.,
Toukiloglou Pericles,
Veraverbeke Sander, Goossens Rudi
International Journal of Wildland Fire. 2014 23(5). p.668
Understanding fire drivers and relative impacts in different Chinese forest ecosystems
Guo Futao,
Su Zhangwen,
Wang Guangyu,
Sun Long,
Tigabu Mulualem,
Yang Xiajie, Hu Haiqing
Science of The Total Environment. 2017 605-606 p.411
Use of machine learning as a tool for determining fire management units in the brazilian atlantic forest
JUVANHOL RONIE S.,
FIEDLER NILTON CESAR,
SANTOS ALEXANDRE R. DOS,
PELUZIO TELMA M.O.,
SILVA WELLINGTON B. DA,
PINHEIRO CHRISTIANO JORGE G., SOUSA HELBECY CRISTINO P. DE
Anais da Academia Brasileira de Ciências. 2023 95(2).
Simulation of forest fire spread based on artificial intelligence
Wu Zechuan,
Wang Bin,
Li Mingze,
Tian Yuping,
Quan Ying, Liu Jianyang
Ecological Indicators. 2022 136 p.108653
Improving Wildfire Danger Assessment Using Time Series Features of Weather and Fuel in the Great Xing’an Mountain Region, China
Wang Zili,
He Binbin,
Chen Rui, Fan Chunquan
Forests. 2023 14(5). p.986
Mapping Forest Fire Risk Zones Using Machine Learning Algorithms in Hunan Province, China
Tan Chaoxue, Feng Zhongke
Sustainability. 2023 15(7). p.6292
Effect of Socioeconomic Variables in Predicting Global Fire Ignition Occurrence
Mukunga Tichaona,
Forkel Matthias,
Forrest Matthew,
Zotta Ruxandra-Maria,
Pande Nirlipta,
Schlaffer Stefan, Dorigo Wouter
Fire. 2023 6(5). p.197
Spatiotemporal Dynamics and Climate Influence of Forest Fires in Fujian Province, China
Zeng Aicong,
Yang Song,
Zhu He,
Tigabu Mulualem,
Su Zhangwen,
Wang Guangyu, Guo Futao
Forests. 2022 13(3). p.423
Examining the influence of outdoor recreation on anthropogenic wildfire regime of the southern Rocky Mountains
Benefield Adam, Chen Jian
Natural Hazards. 2022 111(1). p.523
Likelihood and frequency of recurrent fire ignitions in highly urbanised Mediterranean landscapes
Elia Mario,
Giannico Vincenzo,
Spano Giuseppina,
Lafortezza Raffaele, Sanesi Giovanni
International Journal of Wildland Fire. 2020 29(2). p.120
Assessing the probability of wildfire occurrences in a neotropical dry forest
Campos-Vargas Carlos, Vargas-Sanabria Daniela
Écoscience. 2021 28(2). p.159
Effectiveness in Mitigating Forest Fire Ignition Sources: A Statistical Study Based on Fire Occurrence Data in China
Wang Haihui,
Jin Bangxin,
Zhang Kaixuan,
Aktar Shamima, Song Zhilong
Fire. 2022 5(6). p.215
Impact of human factors on wildfire occurrence in Mississippi, United States
Grala Katarzyna,
Grala Robert K.,
Hussain Anwar,
Cooke William H., Varner J. Morgan
Forest Policy and Economics. 2017 81 p.38
A Probabilistic Method Predicting Forest Fire Occurrence Combining Firebrands and the Weather-Fuel Complex in the Northern Part of the Daxinganling Region, China
Sun Ping, Zhang Yunlin
Forests. 2018 9(7). p.428
Using GIS and Random Forests to identify fire drivers in a forest city, Yichun, China
Su Zhangwen,
Hu Haiqing,
Wang Guangyu,
Ma Yuanfan,
Yang Xiajie, Guo Futao
Geomatics, Natural Hazards and Risk. 2018 9(1). p.1207
High-resolution mapping of wildfire drivers in California based on machine learning
Qiu Linghua,
Chen Ji,
Fan Linfeng,
Sun Liqun, Zheng Chunmiao
Science of The Total Environment. 2022 833 p.155155
Firescape ecology: how topography determines the contrasting distribution of fire and rain forest in the south-west of the Tasmanian Wilderness World Heritage Area
Wood Sam W.,
Murphy Brett P., Bowman David M. J. S.
Journal of Biogeography. 2011 38(9). p.1807
Historical Drivers and Contemporary Perceptions of Wildfire in a Post-Industrial Rural Landscape
Saladyga Thomas, Standlee Alecea
Fire. 2018 1(2). p.33
Rainfall, geology and landscape position generate large‐scale spatiotemporal fire pattern heterogeneity in an African savanna
Smit Izak P. J.,
Smit Chris F.,
Govender Navashni,
Linde Mike van der, MacFadyen Sandra
Ecography. 2013 36(4). p.447
Predicting fire occurrence patterns with logistic regression in Heilongjiang Province, China
Chang Yu,
Zhu Zhiliang,
Bu Rencang,
Chen Hongwei,
Feng Yuting,
Li Yuehui,
Hu Yuanman, Wang Zhicheng
Landscape Ecology. 2013 28(10). p.1989
Are Climate Factors Driving the Contemporary Wildfire Occurrence in China?
Lan Zige,
Su Zhangwen,
Guo Meng,
C. Alvarado Ernesto,
Guo Futao,
Hu Haiqing, Wang Guangyu
Forests. 2021 12(4). p.392
Modelling long-term fire occurrence factors in Spain by accounting for local variations with geographically weighted regression
Martínez-Fernández J.,
Chuvieco E., Koutsias N.
Natural Hazards and Earth System Sciences. 2013 13(2). p.311
Prediction capability of the MCDA-AHP model in wildfire risk zonation of a protected area in the Southern Western Ghats
Salma ,
Nikhil S.,
Danumah Jean Homian,
Prasad Megha K.,
Nazar Neha,
Saha Sunil,
Mammen Pratheesh C., Ajin R. S.
Environmental Sustainability. 2023 6(1). p.59
Multivariate spatial regressions help explain wildfire hot spot intensities in Washington, USA
Zerbe Kevin,
Cook Tim, Vulcano Audrey
Natural Hazards Research. 2023
Nonindustrial private forest landowner willingness to pay for prescribed burning to lower wildfire hazards
Shrestha Anusha,
Grala Robert K.,
Grado Stephen C.,
Roberts Scott D.,
Gordon Jason S., Adhikari Ram K.
Forest Policy and Economics. 2021 127 p.102451
Short‐Term Vegetation Recovery after a Grassland Fire in Lithuania: The Effects of Fire Severity, Slope Position and Aspect
Pereira Paulo,
Cerdà Artemi,
Lopez Antonio Jordán,
Zavala Lorena M.,
Mataix‐Solera Jorge,
Arcenegui Victoria,
Misiune Ieva,
Keesstra Saskia, Novara Agata
Land Degradation & Development. 2016 27(5). p.1523
Mapping total nitrogen in ash after a wildland fire: a microplot analysis
Pereira Paulo,
Úbeda Xavier, Baltrėnaitė Edita
Ekologija. 2010 56(3). p.144
Does Human Accessibility Affect Lightning-Caused Wildfires? A Case Study of the Southern Rocky Mountains
Benefield Adam, Chen Jian
Fire Technology. 2023 59(5). p.2355
Human-caused wildfire risk rating for prevention planning in Spain
Martínez Jesús,
Vega-Garcia Cristina, Chuvieco Emilio
Journal of Environmental Management. 2009 90(2). p.1241
Spatio-temporal Vegetation Recuperation after a Grassland Fire in Lithuania
Pereira Paulo,
Cerda Artemi,
Jordan Antonio,
Bolutiene Violeta,
Pranskevicius Mantas,
Ubeda Xavier, Mataix-Solera Jorge
Procedia Environmental Sciences. 2013 19 p.856
Forest-Fire-Risk Prediction Based on Random Forest and Backpropagation Neural Network of Heihe Area in Heilongjiang Province, China
Gao Chao,
Lin Honglei, Hu Haiqing
Forests. 2023 14(2). p.170
Forest fires in the wildland–urban interface: A spatial analysis of forest fragmentation and human impacts
Chas-Amil M.L.,
Touza J., García-Martínez E.
Applied Geography. 2013 43 p.127
A new wildland fire danger index for a Mediterranean region and some validation aspects
de Vicente Javier, Crespo Fortunato
International Journal of Wildland Fire. 2012 21(8). p.1030
Spatial Modelling of Fire Drivers in Urban-Forest Ecosystems in China
Guo Futao,
Su Zhangwen,
Tigabu Mulualem,
Yang Xiajie,
Lin Fangfang,
Liang Huiling, Wang Guangyu
Forests. 2017 8(6). p.180
WATERSHED ROAD NETWORK ANALYSIS WITH AN EMPHASIS ON FIRE FIGHTING MANAGEMENT
MOSTAFA Mohsen,
SHATAEE JOUIBARY Shaban,
LOTFALIAN Majid, SADODDIN Amir
Journal of Environmental Engineering and Landscape Management. 2017 25(4). p.342
Driving factors for forest fire occurrence in Durango State of Mexico: A geospatial perspective
Avila-Flores Diana,
Pompa-Garcia Marin,
Antonio-Nemiga Xanat,
Rodriguez-Trejo Dante A.,
Vargas-Perez Eduardo, Santillan-Perez Javier
Chinese Geographical Science. 2010 20(6). p.491
Boreal Forests in the Face of Climate Change (2023)
Vegetation structure parameters determine high burn severity likelihood in different ecosystem types: A case study in a burned Mediterranean landscape
Fernández-Guisuraga José Manuel,
Suárez-Seoane Susana,
García-Llamas Paula, Calvo Leonor
Journal of Environmental Management. 2021 288 p.112462
Factors influencing the pattern of fire severities in a large wildfire under extreme meteorological conditions in the Mediterranean basin
Oliveras Imma,
Gracia Marc,
Moré Gerard, Retana Javier
International Journal of Wildland Fire. 2009 18(7). p.755
Influences of forest roads on the spatial pattern of wildfire boundaries
Narayanaraj Ganapathy, Wimberly Michael C.
International Journal of Wildland Fire. 2011 20(6). p.792
Evaluating spectral indices for burned area discrimination using MODIS/ASTER (MASTER) airborne simulator data
Veraverbeke S.,
Harris S., Hook S.
Remote Sensing of Environment. 2011 115(10). p.2702
Forest Fire Driving Factors and Fire Risk Zoning Based on an Optimal Parameter Logistic Regression Model: A Case Study of the Liangshan Yi Autonomous Prefecture, China
Zhang Fuhuan,
Zhang Bin,
Luo Jun,
Liu Hui,
Deng Qingchun,
Wang Lei, Zuo Ziquan
Fire. 2023 6(9). p.336
Spatial-temporal characteristics and influencing factors of wildfire occurrence and correlation with WUI presence in Beijing-Tianjin-Hebei region, China
Liu Nan,
Zhu Wei,
Zhong Shaobo, Cheng Haitao
Geomatics, Natural Hazards and Risk. 2023 14(1).
Using Artificial Intelligence to Estimate the Probability of Forest Fires in Heilongjiang, Northeast China
Wu Zechuan,
Li Mingze,
Wang Bin,
Quan Ying, Liu Jianyang
Remote Sensing. 2021 13(9). p.1813
A Deep Learning Framework: Predicting Fire Radiative Power From the Combination of Polar-Orbiting and Geostationary Satellite Data During Wildfire Spread
Dong Zixun,
Zheng Change,
Zhao Fengjun,
Wang Guangyu,
Tian Ye, Li Hongchen
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 2024 17 p.10827
Reconstructing a cultural fire regime in the Pennsylvania Anthracite Region
Saladyga Thomas
Physical Geography. 2017 38(5). p.404
A Multicriteria Geographic Information System Analysis of Wildfire Susceptibility in the Andean Region: A Case Study in Ibarra, Ecuador
Arias-Muñoz Paúl,
Cabrera-García Santiago, Jácome-Aguirre Gabriel
Fire. 2024 7(3). p.81
Geospatial information on geographical and human factors improved anthropogenic fire occurrence modeling in the Chinese boreal forest
Guo Futao,
Selvalakshmi Selvaraj,
Lin Fangfang,
Wang Guangyu,
Wang Wenhui,
Su Zhangwen, Liu Aiqin
Canadian Journal of Forest Research. 2016 46(4). p.582
Decision Support for Integrated Management of Local-Level Adaptation to Climate Changes: The Case of Serbia
Vranić Petar,
Glišović Srđan, Velimirović Lazar
International Journal of Disaster Risk Science. 2021 12(4). p.479
Building probabilistic models of fire occurrence and fire risk zoning using logistic regression in Shanxi Province, China
Pan Jinghu,
Wang Weiguo, Li Junfeng
Natural Hazards. 2016 81(3). p.1879
Forest Fire Occurrence Prediction in China Based on Machine Learning Methods
Pang Yongqi,
Li Yudong,
Feng Zhongke,
Feng Zemin,
Zhao Ziyu,
Chen Shilin, Zhang Hanyue
Remote Sensing. 2022 14(21). p.5546
Spatial and temporal patterns and driving factors of forest fires based on an optimal parameter-based geographic detector in the Panxi region, Southwest China
Liu Jia,
Wang Yukuan,
Guo Haiyan,
Lu Yafeng,
Xu Yuanxin,
Sun Yu,
Gan Weiwei,
Sun Rui, Li Zhengyang
Fire Ecology. 2024 20(1).
Historical fire in the Appalachian Plateau of Ohio and Kentucky, USA, from remnant yellow pines
Hutchinson Todd F.,
Stambaugh Michael C.,
Marschall Joseph M., Guyette Richard P.
Fire Ecology. 2019 15(1).
Maximum entropy-based forest fire likelihood mapping: analysing the trends, distribution, and drivers of forest fires in Sikkim Himalaya
Banerjee Polash
Scandinavian Journal of Forest Research. 2021 36(4). p.275
An Object-Based Approach for Fire History Reconstruction by Using Three Generations of Landsat Sensors
Katagis Thomas,
Gitas Ioannis, Mitri George
Remote Sensing. 2014 6(6). p.5480
Geographic multi-criteria evaluation and validation: A case study of wildfire vulnerability in Western North Carolina, USA following the 2016 wildfires
Andersen Lauren M., Sugg Margaret M.
International Journal of Disaster Risk Reduction. 2019 39 p.101123
Wildfire crime, apprehension and social vulnerability in Italy
Canepa Alessandra, Drogo Federico
Forest Policy and Economics. 2021 122 p.102330
Identifying Forest Fire Driving Factors and Related Impacts in China Using Random Forest Algorithm
Ma Wenyuan,
Feng Zhongke,
Cheng Zhuxin,
Chen Shilin, Wang Fengge
Forests. 2020 11(5). p.507
A model for predicting human-caused wildfire occurrence in the region of Madrid, Spain
Vilar Lara,
Woolford Douglas. G.,
Martell David L., Martín M. Pilar
International Journal of Wildland Fire. 2010 19(3). p.325
SPATIAL DISTRIBUTION OF HEAVY METALS RELEASED FROM ASHES AFTER A WILDFIRE
Pereira Paulo, Úbeda Xavier
JOURNAL OF ENVIRONMENTAL ENGINEERING AND LANDSCAPE MANAGEMENT. 2010 18(1). p.13
Modelling temporal variation of fire-occurrence towards the dynamic prediction of human wildfire ignition danger in northeast Spain
Martín Yago,
Zúñiga-Antón María, Rodrigues Mimbrero Marcos
Geomatics, Natural Hazards and Risk. 2019 10(1). p.385
Tracking Fires in India Using Advanced Along Track Scanning Radiometer (A)ATSR Data
Giriraj Amarnath,
Babar Shilpa,
Jentsch Anke,
Sudhakar Singuluri, Murthy Manchi Sri Ramachandra
Remote Sensing. 2010 2(2). p.591
Spatial and temporal drivers of wildfire occurrence in the context of rural development in northern Wisconsin, USA
Miranda Brian R.,
Sturtevant Brian R.,
Stewart Susan I., Hammer Roger B.
International Journal of Wildland Fire. 2012 21(2). p.141
Characterization of wildfire regimes in Canadian boreal terrestrial ecosystems
Jiang Yueyang,
Zhuang Qianlai,
Flannigan Mike D., Little John M.
International Journal of Wildland Fire. 2009 18(8). p.992
