Articles citing this paper
Human and biophysical factors influencing modern fire disturbance in northern Wisconsin
Brian R. Sturtevant A C and David T. Cleland B
+ Author Affiliations
- Author Affiliations
A Northern Research Station, USDA Forest Service, 5985 Hwy K, Rhinelander, WI 54501, USA.
B Southern Research Station, Eastern Regional Office, USDA Forest Service, Federal Building, 68 S. Stevens Street, Rhinelander, WI 54501, USA.
C Corresponding author. Email: bsturtevant@fs.fed.us
International Journal of Wildland Fire 16(4) 398-413 https://doi.org/10.1071/WF06023
Submitted: 28 February 2006 Accepted: 3 February 2007 Published: 20 August 2007
71 articles found in Crossref database.
Human-ignited wildfire patterns and responses to policy shifts
Chas-Amil M.L.,
Prestemon J.P.,
McClean C.J., Touza J.
Applied Geography. 2015 56 p.164
Spatially varying constraints of human-caused fire occurrence in British Columbia, Canada
Camp Philip E., Krawchuk Meg A.
International Journal of Wildland Fire. 2017 26(3). p.219
Mathematical Simulation of Forest Fire Impact on Industrial Facilities and Wood-Based Buildings
Baranovskiy Nikolay, Malinin Aleksey
Sustainability. 2020 12(13). p.5475
Land cover analysis in wildland–urban interfaces according to wildfire risk: A case study in the South of France
Lampin-Maillet C.,
Long-Fournel M.,
Ganteaume A.,
Jappiot M., Ferrier J.P.
Forest Ecology and Management. 2011 261(12). p.2200
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
Studying Fire Mitigation Strategies in Multi-Ownership Landscapes: Balancing the Management of Fire-Dependent Ecosystems and Fire Risk
Sturtevant Brian R.,
Miranda Brian R.,
Yang Jian,
He Hong S.,
Gustafson Eric J., Scheller Robert M.
Ecosystems. 2009 12(3). p.445
Wildfire ignition-distribution modelling: a comparative study in the Huron–Manistee National Forest, Michigan, USA
Bar Massada Avi,
Syphard Alexandra D.,
Stewart Susan I., Radeloff Volker C.
International Journal of Wildland Fire. 2013 22(2). p.174
Simulating dynamic and mixed-severity fire regimes: A process-based fire extension for LANDIS-II
Sturtevant Brian R.,
Scheller Robert M.,
Miranda Brian R.,
Shinneman Douglas, Syphard Alexandra
Ecological Modelling. 2009 220(23). p.3380
Application of a geographical assessment method for the characterization of wildland–urban interfaces in the context of wildfire prevention: A case study in western Madrid
Herrero-Corral Gema,
Jappiot Marielle,
Bouillon Christophe, Long-Fournel Marlène
Applied Geography. 2012 35(1-2). p.60
Biotic and Abiotic Effects of Human Settlements in the Wildland–Urban Interface
Bar-Massada Avi,
Radeloff Volker C., Stewart Susan I.
BioScience. 2014 64(5). p.429
Research on Optimization Technology of Cross-Regional Synergistic Deployment of Fire Stations Based on Fire Risk
Guo Kai,
Wang Wei,
Tian Shixiang,
Yang Juntao,
Jiang Zebiao, Dai Zhangyin
Sustainability. 2022 14(23). p.15725
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 drivers and spatial dependency in wildfire ignition patterns of northwestern Patagonia
Mundo Ignacio A.,
Wiegand Thorsten,
Kanagaraj Rajapandian, Kitzberger Thomas
Journal of Environmental Management. 2013 123 p.77
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
Climate adaptive silviculture strategies: How do they impact growth, yield, diversity and value in forested landscapes?
Gustafson Eric J.,
Kern Christel C.,
Miranda Brian R.,
Sturtevant Brian R.,
Bronson Dustin R., Kabrick John M.
Forest Ecology and Management. 2020 470-471 p.118208
Use of artificial landscapes to isolate controls on burn probability
Parisien Marc-André,
Miller Carol,
Ager Alan A., Finney Mark A.
Landscape Ecology. 2010 25(1). p.79
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
Considerations for modeling burn probability across landscapes with steep environmental gradients: an example from the Columbia Mountains, Canada
Parisien Marc-André,
Walker Gregg R.,
Little John M.,
Simpson Brian N.,
Wang Xianli, Perrakis Daniel D. B.
Natural Hazards. 2013 66(2). p.439
Past and projected rural land conversion in the US at state, regional, and national levels
White Eric M.,
Morzillo Anita T., Alig Ralph J.
Landscape and Urban Planning. 2009 89(1-2). p.37
Sustainable Land-Use, Wildfires, and Evolving Local Contexts in a Mediterranean Country, 2000–2015
Marchi Maurizio,
Chianucci Francesco,
Ferrara Carlotta,
Pontuale Giorgio,
Pontuale Elisa,
Mavrakis Anastasios,
Morrow Nathan,
Rossi Fabrizio, Salvati Luca
Sustainability. 2018 10(11). p.3911
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
Integrating models to evaluate and map grassland fire risk zones in Hulunbuir of Inner Mongolia, China
Bian Hongfeng,
Zhang Hongyan,
Zhou Daowei,
Xu Jiawei, Zhang Zhengxiang
Fire Safety Journal. 2013 61 p.207
A streamlined approach for the spatial allocation of fuel removals in wildland–urban interfaces
Elia Mario,
Lafortezza Raffaele,
Colangelo Giuseppe, Sanesi Giovanni
Landscape Ecology. 2014 29(10). p.1771
Projections of fire probability and ecosystem vulnerability under 21st century climate across a trans-Andean productivity gradient in Patagonia
Kitzberger Thomas,
Tiribelli Florencia,
Barberá Iván,
Gowda Juan Haridas,
Morales Juan Manuel,
Zalazar Laura, Paritsis Juan
Science of The Total Environment. 2022 839 p.156303
Multitemporal Modelling of Socio-Economic Wildfire Drivers in Central Spain between the 1980s and the 2000s: Comparing Generalized Linear Models to Machine Learning Algorithms
Vilar Lara,
Gómez Israel,
Martínez-Vega Javier,
Echavarría Pilar,
Riaño David,
Martín M. Pilar, Vadrevu Krishna Prasad
PLOS ONE. 2016 11(8). p.e0161344
Characterizing Spatial Patterns of Amazon Rainforest Wildfires and Driving Factors by Using Remote Sensing and GIS Geospatial Technologies
Ma Cong,
Pu Ruiliang,
Downs Joni, Jin He
Geosciences. 2022 12(6). p.237
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
Spatial variability in wildfire probability across the western United States
Parisien Marc-André,
Snetsinger Susan,
Greenberg Jonathan A.,
Nelson Cara R.,
Schoennagel Tania,
Dobrowski Solomon Z., Moritz Max A.
International Journal of Wildland Fire. 2012 21(4). p.313
Performance of Fire Danger Indices and Their Utility in Predicting Future Wildfire Danger Over the Conterminous United States
Yu Guo,
Feng Yan,
Wang Jiali, Wright Daniel B.
Earth's Future. 2023 11(11).
The relationship between landscape patterns and human-caused fire occurrence in Spain
Costafreda-Aumedes S.,
Garcia-Martin A., Vega-Garcia C.
Forest Systems. 2013 22(1). p.71
Seasonal Differences in the Spatial Patterns of Wildfire Susceptibility and Drivers in Southwest Mountains, China
Wang Wenquan,
Zhao Fengjun,
Wang Yanxia,
Huang Xiaoyuan, Ye Jiangxia
SSRN Electronic Journal . 2022
Spatial bottom‐up controls on fire likelihood vary across western North America
Parks Sean A.,
Parisien Marc-André, Miller Carol
Ecosphere. 2012 3(1). p.1
Effects of Forest Fire Prevention Policies on Probability and Drivers of Forest Fires in the Boreal Forests of China during Different Periods
Zhou Qing,
Zhang Heng, Wu Zhiwei
Remote Sensing. 2022 14(22). p.5724
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
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
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
Analysis of the seasonal characteristics of forest fires in South Korea using the multivariate analysis approach
Seol Ara,
Lee Byungdoo, Chung Joosang
Journal of Forest Research. 2012 17(1). p.45
Patterns of mega-forest fires in east Siberia will become less predictable with climate warming
Natole Michael,
Ying Yiming,
Buyantuev Alexander,
Stessin Michael,
Buyantuev Victor, Lapenis Andrei
Environmental Advances. 2021 4 p.100041
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
Historical Drivers and Contemporary Perceptions of Wildfire in a Post-Industrial Rural Landscape
Saladyga Thomas, Standlee Alecea
Fire. 2018 1(2). p.33
Location, timing and extent of wildfire vary by cause of ignition
Syphard Alexandra D., Keeley Jon E.
International Journal of Wildland Fire. 2015 24(1). p.37
A review of recent advances in risk analysis for wildfire management
Miller Carol, Ager Alan A.
International Journal of Wildland Fire. 2013 22(1). p.1
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
The urban-rural interface as an area with characteristics of its own in urban planning: A review
López-Goyburu Patricia, García-Montero Luis Gonzaga
Sustainable Cities and Society. 2018 43 p.157
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
Comparing fire spread algorithms using equivalence testing and neutral landscape models
Miranda Brian R.,
Sturtevant Brian R.,
Yang Jian, Gustafson Eric J.
Landscape Ecology. 2009 24(5). p.587
Rebuilding and new housing development after wildfire
Alexandre Patricia M.,
Mockrin Miranda H.,
Stewart Susan I.,
Hammer Roger B., Radeloff Volker C.
International Journal of Wildland Fire. 2015 24(1). p.138
Forest Fires in Italy: An Econometric Analysis of Major Driving Factors
Michetti Melania, Pinar Mehmet
SSRN Electronic Journal. 2013
Wildfire Risk Transmission in the Colorado Front Range, USA
Haas Jessica R.,
Calkin David E., Thompson Matthew P.
Risk Analysis. 2015 35(2). p.226
Digital soil mapping for fire prediction and management in rangelands
Levi Matthew R., Bestelmeyer Brandon T.
Fire Ecology. 2018 14(2).
Comparative analysis of spatial variation in forest fire drivers between boreal and subtropical ecosystems in China
Su Zhangwen,
Tigabu Mulualem,
Cao Qianqian,
Wang Guangyu,
Hu Haiqing, Guo Futao
Forest Ecology and Management. 2019 454 p.117669
Focos de calor na América do Sul: evidências para o período de 2002 a 2018
Sousa Wesley Leitão de, Irffi Guilherme
Estudos Econômicos (São Paulo). 2024 54(2).
Mapping wildland-urban interfaces at large scales integrating housing density and vegetation aggregation for fire prevention in the South of France
Lampin-Maillet Corinne,
Jappiot Marielle,
Long Marlène,
Bouillon Christophe,
Morge Denis, Ferrier Jean-Paul
Journal of Environmental Management. 2010 91(3). p.732
The spatially varying influence of humans on fire probability in North America
Parisien Marc-André,
Miller Carol,
Parks Sean A,
DeLancey Evan R,
Robinne François-Nicolas, Flannigan Mike D
Environmental Research Letters. 2016 11(7). p.075005
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
Spatial accessibility of fire stations for enhancing operational response in Melbourne
Shahparvari Shahrooz,
Fadaki Masih, Chhetri Prem
Fire Safety Journal. 2020 117 p.103149
Wildland-urban interface typologies prone to high severity fires in Spain
Beltrán-Marcos David,
Calvo Leonor,
Fernández-Guisuraga José Manuel,
Fernández-García Víctor, Suárez-Seoane Susana
Science of The Total Environment. 2023 894 p.165000
Empirical Projections of Fire Probability and Ecosystem Vulnerability Under 21st Century Climate Across a Trans-Andean Productivity Gradient in Patagonia
Kitzberger Thomas,
Tiribelli Florencia,
Barberá Iván,
Gowda Juan,
Morales Juan,
Zalazar Laura, Partsis Juan
SSRN Electronic Journal . 2021
Modelling residential fire incident response times: A spatial analytic approach
KC Kiran, Corcoran Jonathan
Applied Geography. 2017 84 p.64
Modeling human transmissibility via nighttime light remote sensing for Hyphantria cunea propagation pattern prediction
Ye Jiangxia,
Quan Wenbin,
Zhou Ruliang,
Du Ting,
Shi Lei, Wei Xiaoyan
Ecological Informatics. 2024 80 p.102522
Seasonal differences in the spatial patterns of wildfire drivers and susceptibility in the southwest mountains of China
Wang Wenquan,
Zhao Fengjun,
Wang Yanxia,
Huang Xiaoyuan, Ye Jiangxia
Science of The Total Environment. 2023 869 p.161782
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
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
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
Environmental controls on the distribution of wildfire at multiple spatial scales
Parisien Marc-André, Moritz Max A.
Ecological Monographs. 2009 79(1). p.127
Fire occurrence and fire mitigation strategies in a grassland reforestation area in the Philippines
Ancog Rico C.,
Florece Leonardo M., Nicopior Ozzy Boy
Forest Policy and Economics. 2016 64 p.35
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 landscape model of variable social-ecological fire regimes
Scheller Robert,
Kretchun Alec,
Hawbaker Todd J., Henne Paul D.
Ecological Modelling. 2019 401 p.85
Century-Scale Fire Dynamics in a Savanna Ecosystem
Leys Bérangère A.,
Griffin Daniel,
Larson Evan R., McLauchlan Kendra K.
Fire. 2019 2(3). p.51
Wildfire risk in the wildland–urban interface: A simulation study in northwestern Wisconsin
Bar Massada Avi,
Radeloff Volker C.,
Stewart Susan I., Hawbaker Todd J.
Forest Ecology and Management. 2009 258(9). p.1990
Demography and socioeconomic vulnerability influence fire occurrence in Bariloche (Argentina)
Dondo Bühler Mariana,
de Torres Curth Mónica, Garibaldi Lucas Alejandro
Landscape and Urban Planning. 2013 110 p.64
