Articles citing this paper
Multi-scale evaluation of the environmental controls on burn probability in a southern Sierra Nevada landscape
Sean A. Parks A C , Marc-André Parisien B C and Carol Miller A
+ Author Affiliations
- Author Affiliations
A USDA Forest Service, Rocky Mountain Research Station, Aldo Leopold Wilderness Research Institute, 790 E Beckwith Avenue, Missoula, MT 59801, USA.
B Natural Resources Canada, Canadian Forest Service, Northern Forestry Centre, 5320 122nd Street, Edmonton, AB, T5H 3S5, Canada.
C Corresponding authors. Emails: sean_parks@fs.fed.us; marc-andre.parisien@nrcan-rncan.gc.ca
International Journal of Wildland Fire 20(7) 815-828 https://doi.org/10.1071/WF10051
Submitted: 12 May 2010 Accepted: 9 March 2011 Published: 19 September 2011
40 articles found in Crossref database.
Bottom-Up Variables Govern Large-Fire Size in Portugal
Fernandes Paulo M.,
Monteiro-Henriques Tiago,
Guiomar Nuno,
Loureiro Carlos, Barros Ana M. G.
Ecosystems. 2016 19(8). p.1362
Balancing wildlife protection and wildfire threat mitigation using a network optimization approach
Yemshanov Denys,
Dawe Denyse A.,
Bakalarczyk Amanda,
Liu Ning,
Boulanger Yan,
Boucher Jonathan,
Beauchemin Alexandre,
Arseneault Dominique,
Leblond Mathieu, Parisien Marc-André
Frontiers in Forests and Global Change. 2023 6
An efficient, multi-scale neighbourhood index to quantify wildfire likelihood
Radford Douglas A. G.,
Maier Holger R.,
van Delden Hedwig,
Zecchin Aaron C., Jeanneau Amelie
International Journal of Wildland Fire. 2024 33(5).
Determining Relative Contributions of Vegetation and Topography to Burn Severity from LANDSAT Imagery
Wu Zhiwei,
He Hong S.,
Liang Yu,
Cai Longyan, Lewis Bernard J.
Environmental Management. 2013 52(4). p.821
Quantifying the Threat of Unsuppressed Wildfires Reaching the Adjacent Wildland-Urban Interface on the Bridger-Teton National Forest, Wyoming, USA
Scott Joe H.,
Helmbrecht Donald J.,
Parks Sean A., Miller Carol
Fire Ecology. 2012 8(2). p.125
Multi-scaled drivers of severity patterns vary across land ownerships for the 2013 Rim Fire, California
Povak Nicholas A.,
Kane Van R.,
Collins Brandon M.,
Lydersen Jamie M., Kane Jonathan T.
Landscape Ecology. 2020 35(2). p.293
Detecting critical nodes in forest landscape networks to reduce wildfire spread
Yemshanov Denys,
Liu Ning,
Thompson Daniel K.,
Parisien Marc-André,
Barber Quinn E.,
Koch Frank H.,
Reimer Jonathan, Pickell Paul
PLOS ONE. 2021 16(10). p.e0258060
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
Predicting Potential Fire Severity Using Vegetation, Topography and Surface Moisture Availability in a Eurasian Boreal Forest Landscape
Fang Lei,
Yang Jian,
White Megan, Liu Zhihua
Forests. 2018 9(3). p.130
Evidence of compounded disturbance effects on vegetation recovery following high-severity wildfire and spruce beetle outbreak
Carlson Amanda R.,
Sibold Jason S.,
Assal Timothy J.,
Negrón Jose F., Bond-Lamberty Ben
PLOS ONE. 2017 12(8). p.e0181778
Current and future patterns of forest fire occurrence in China
Wu Zhiwei,
He Hong S.,
Keane Robert E.,
Zhu Zhiliang,
Wang Yeqiao, Shan Yanlong
International Journal of Wildland Fire. 2020 29(2). p.104
Assessing the effect of a fuel break network to reduce burnt area and wildfire risk transmission
Oliveira Tiago M.,
Barros Ana M. G.,
Ager Alan A., Fernandes Paulo M.
International Journal of Wildland Fire. 2016 25(6). p.619
Natural Hazard Uncertainty Assessment (2016)
Severity of an uncharacteristically large wildfire, the Rim Fire, in forests with relatively restored frequent fire regimes
Lydersen Jamie M.,
North Malcolm P., Collins Brandon M.
Forest Ecology and Management. 2014 328 p.326
Integrating Pixel- and Polygon-Based Approaches to Wildfire Risk Assessment: Application to a High-Value Watershed on the Pike and San Isabel National Forests, Colorado, USA
Thompson Matthew P.,
Gilbertson-Day Julie W., Scott Joe H.
Environmental Modeling & Assessment. 2016 21(1). p.1
Forest fire monitoring using spatial-statistical and Geo-spatial analysis of factors determining forest fire in Margalla Hills, Islamabad, Pakistan
Tariq Aqil,
Shu Hong,
Siddiqui Saima,
Mousa B. G.,
Munir Iqra,
Nasri Adel,
Waqas Hassan,
Lu Linlin, Baqa Muhammad Fahad
Geomatics, Natural Hazards and Risk. 2021 12(1). p.1212
Mixed severity fire effects within the Rim fire: Relative importance of local climate, fire weather, topography, and forest structure
Kane Van R.,
Cansler C. Alina,
Povak Nicholas A.,
Kane Jonathan T.,
McGaughey Robert J.,
Lutz James A.,
Churchill Derek J., North Malcolm P.
Forest Ecology and Management. 2015 358 p.62
Applications of simulation-based burn probability modelling: a review
Parisien Marc-André,
Dawe Denyse A.,
Miller Carol,
Stockdale Christopher A., Armitage O. Bradley
International Journal of Wildland Fire. 2019 28(12). p.913
Wildland fire deficit and surplus in the western United States, 1984–2012
Parks Sean A.,
Miller Carol,
Parisien Marc-André,
Holsinger Lisa M.,
Dobrowski Solomon Z., Abatzoglou John
Ecosphere. 2015 6(12). p.1
Fire Activity and Severity in the Western US Vary along Proxy Gradients Representing Fuel Amount and Fuel Moisture
Parks Sean A.,
Parisien Marc-André,
Miller Carol,
Dobrowski Solomon Z., Germino Matthew
PLoS ONE. 2014 9(6). p.e99699
Climate–vegetation–fire interactions and feedbacks: trivial detail or major barrier to projecting the future of the Earth system?
Harris Rebecca M. B.,
Remenyi Tomas A.,
Williamson Grant J.,
Bindoff Nathaniel L., Bowman David M. J. S.
WIREs Climate Change. 2016 7(6). p.910
Rainwater harvesting for agriculture development using multi-influence factor and fuzzy overlay techniques
Zheng Xiangtian,
Sarwar Abid,
Islam Fakhrul,
Majid Abdul,
Tariq Aqil,
Ali Muhammad,
Gulzar Shazia,
Khan Muhammad Ismail,
Sardar Ali Muhammad Akmal,
Israr Muhammad,
Jamil Ahsan,
Aslam Muhammad, Soufan Walid
Environmental Research. 2023 238 p.117189
Wildfire Selectivity for Land Cover Type: Does Size Matter?
Barros Ana M. G.,
Pereira José M. C., Bohrer Gil
PLoS ONE. 2014 9(1). p.e84760
Mapping day-of-burning with coarse-resolution satellite fire-detection data
Parks Sean A.
International Journal of Wildland Fire. 2014 23(2). p.215
Spatial planning of fire-agency stations as a function of wildfire likelihood in Thasos, Greece
Sakellariou Stavros,
Parisien Marc-André,
Flannigan Mike,
Wang Xianli,
de Groot Bill,
Tampekis Stergios,
Samara Fani,
Sfougaris Athanasios, Christopoulou Olga
Science of The Total Environment. 2020 729 p.139004
Comparing fuel reduction treatments for reducing wildfire size and intensity in a boreal forest landscape of northeastern China
Wu Zhiwei,
He Hong S.,
Liu Zhihua, Liang Yu
Science of The Total Environment. 2013 454-455 p.30
Scale effects of vegetation and topography on burn severity under prevailing fire weather conditions in boreal forest landscapes of Northeastern China
Wu Zhiwei,
He Hong S.,
Bobryk Christopher W., Liang Yu
Scandinavian Journal of Forest Research. 2014 29(1). p.60
Beyond Fuel Treatment Effectiveness: Characterizing Interactions between Fire and Treatments in the US
Barnett Kevin,
Parks Sean,
Miller Carol, Naughton Helen
Forests. 2016 7(10). p.237
Factor contribution to fire occurrence, size, and burn probability in a subtropical coniferous forest in East China
Ye Tao,
Wang Yao,
Guo Zhixing,
Li Yijia, Añel Juan A.
PLOS ONE. 2017 12(2). p.e0172110
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
Identifying the Threshold of Dominant Controls on Fire Spread in a Boreal Forest Landscape of Northeast China
Liu Zhihua,
Yang Jian,
He Hong S., Bond-Lamberty Ben
PLoS ONE. 2013 8(1). p.e55618
Characterization of biophysical contexts leading to severe wildfires in Portugal and their environmental controls
Fernández-Guisuraga José Manuel,
Martins Samuel, Fernandes Paulo M.
Science of The Total Environment. 2023 875 p.162575
Determination of optimal set of spatio-temporal features for predicting burn probability in the state of California, USA
Proceedings of the ACM Southeast Conference (2022)
Previous Fires Moderate Burn Severity of Subsequent Wildland Fires in Two Large Western US Wilderness Areas
Parks Sean A.,
Miller Carol,
Nelson Cara R., Holden Zachary A.
Ecosystems. 2014 17(1). p.29
Optimized stratification approach enhances the weight-of-evidence method: Transparently uncovering wildfire probability and drivers-wildfire relationships in the southwest mountains of China
Wang Wenquan,
Fang Xiangyang,
Wei Xiaoyan, Ye Jiangxia
Ecological Indicators. 2024 158 p.111500
Biophysical and lightning characteristics drive lightning-induced fire occurrence in the central plateau of the Iberian Peninsula
Vecín-Arias Daniel,
Castedo-Dorado Fernando,
Ordóñez Celestino, Rodríguez-Pérez José Ramón
Agricultural and Forest Meteorology. 2016 225 p.36
Vegetation and topography interact with weather to drive the spatial distribution of wildfires in the eastern boreal forest of Canada
Cavard Xavier,
Boucher Jean-François, Bergeron Yves
International Journal of Wildland Fire. 2015 24(3). p.391
Land cover influences boreal-forest fire responses to climate change: geospatial analysis of historical records from Alaska
Dash Carolyn Barrett,
Fraterrigo Jennifer M., Hu Feng Sheng
Landscape Ecology. 2016 31(8). p.1781
Effect of Topography on Persistent Fire Refugia of the Canadian Rocky Mountains
Rogeau Marie-Pierre,
Barber Quinn E., Parisien Marc-André
Forests. 2018 9(6). p.285
An analysis of controls on fire activity in boreal Canada: comparing models built with different temporal resolutions
Parisien Marc-André,
Parks Sean A.,
Krawchuk Meg A.,
Little John M.,
Flannigan Mike D.,
Gowman Lynn M., Moritz Max A.
Ecological Applications. 2014 24(6). p.1341
