Articles citing this paper
Relative importance of weather and climate on wildfire growth in interior Alaska
John T. Abatzoglou A B and Crystal A. Kolden A
+ Author Affiliations
- Author Affiliations
A Department of Geography, University of Idaho, PO BOX 443021, Moscow, ID 83844-3021, USA.
B Corresponding author. Email: jabatzoglou@uidaho.edu
International Journal of Wildland Fire 20(4) 479-486 https://doi.org/10.1071/WF10046
Submitted: 27 April 2010 Accepted: 29 September 2010 Published: 20 June 2011
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Krawchuk Meg A.,
Little John M.,
Flannigan Mike D.,
Gowman Lynn M., Moritz Max A.
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Abatzoglou John T.,
Grenfell Isaac C.,
Klene Anna E., Heinsch Faith Ann
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Wang Xianli,
Parisien Marc‐André,
Flannigan Mike D.,
Parks Sean A.,
Anderson Kerry R.,
Little John M., Taylor Steve W.
Global Change Biology. 2014 20(8). p.2518
Human-related ignitions concurrent with high winds promote large wildfires across the USA
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Balch Jennifer K.,
Bradley Bethany A., Kolden Crystal A.
International Journal of Wildland Fire. 2018 27(6). p.377
Climate-induced fire regime amplification in Alberta, Canada
Whitman Ellen,
Parks Sean A,
Holsinger Lisa M, Parisien Marc-André
Environmental Research Letters. 2022 17(5). p.055003
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Abatzoglou John T.,
Lutz James A.,
Cansler C. Alina,
Kane Jonathan T.,
Wagtendonk Jan W. Van, Key Carl H.
Northwest Science. 2015 89(3). p.219
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International Journal of Wildland Fire. 2014 23(2). p.215
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Thompson Dan K.,
Sherwood James H., Price Jonathan S.
Natural Hazards and Earth System Sciences. 2018 18(1). p.157
How climate change and fire exclusion drive wildfire regimes at actionable scales
Hanan Erin J,
Ren Jianning,
Tague Christina L,
Kolden Crystal A,
Abatzoglou John T,
Bart Ryan R,
Kennedy Maureen C,
Liu Mingliang, Adam Jennifer C
Environmental Research Letters. 2021 16(2). p.024051
Designing ecological climate change impact assessments to reflect key climatic drivers
Sofaer Helen R.,
Barsugli Joseph J.,
Jarnevich Catherine S.,
Abatzoglou John T.,
Talbert Marian K.,
Miller Brian W., Morisette Jeffrey T.
Global Change Biology. 2017 23(7). p.2537
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Billmire Michael,
Loughner Christopher P.,
Bredder Allison,
French Nancy H.F.,
Kim Hyun Cheol, Loboda Tatiana V.
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Parks Sean A.,
Saperstein Lisa B.,
Loehman Rachel A.,
Whitman Ellen,
Barnes Jennifer,
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Ballinger Thomas J., Mote Thomas L.
International Journal of Climatology. 2018 38(1). p.351
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Fire Ecology. 2012 8(1). p.98
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Ecological Applications. 2018 28(6). p.1565
Static and dynamic controls on fire activity at moderate spatial and temporal scales in the Alaskan boreal forest
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Loboda Tatiana,
McGuire A. D.,
Genet Hélène,
Hoy Elizabeth, Kasischke Eric
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Wang Guangyu,
Su Zhangwen,
Liang Huiling,
Wang Wenhui,
Lin Fangfang, Liu Aiqin
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Ma Zilong,
Yeboah Daniel, Chen Han Y.H.
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Daily burned area and carbon emissions from boreal fires in Alaska
Veraverbeke S.,
Rogers B. M., Randerson J. T.
Biogeosciences. 2015 12(11). p.3579
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Wotton Mike,
Woolford Douglas G.,
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The Character and Changing Frequency of Extreme California Fire Weather
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Coen Janice, Jaye Abby
Journal of Geophysical Research: Atmospheres. 2022 127(9).
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Satellite-based assessment of climate controls on US burned area
Morton D. C.,
Collatz G. J.,
Wang D.,
Randerson J. T.,
Giglio L., Chen Y.
Biogeosciences. 2013 10(1). p.247
Analyzing spatiotemporal changes in wildfire regime and exposure across a Mediterranean fire-prone area
Salis Michele,
Ager Alan A.,
Finney Mark A.,
Arca Bachisio, Spano Donatella
Natural Hazards. 2014 71(3). p.1389
HESFIRE: a global fire model to explore the role of anthropogenic and weather drivers
Le Page Y.,
Morton D.,
Bond-Lamberty B.,
Pereira J. M. C., Hurtt G.
Biogeosciences. 2015 12(3). p.887
Wildland fire limits subsequent fire occurrence
Parks Sean A.,
Miller Carol,
Holsinger Lisa M.,
Baggett L. Scott, Bird Benjamin J.
International Journal of Wildland Fire. 2016 25(2). p.182
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Zheng Xinxin,
Zhou Jiahao,
Jiang Juncai,
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International Journal of Applied Earth Observation and Geoinformation. 2024 128 p.103750
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Moron Vincent,
Trigo Ricardo M.,
Mouillot Florent,
Koutsias Nikos,
Pimont François,
Martin-StPaul Nicolas,
Barbero Renaud,
Dupuy Jean-Luc,
Russo Ana, Belhadj-Khedher Chiraz
Scientific Reports. 2020 10(1).
Rare and Extreme Wildland Fire in Sakha in 2021
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Ji Shunping, Warner Timothy A.
Remote Sensing. 2022 14(24). p.6200
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Veraverbeke S.,
Henderson J. M.,
Karion A.,
Miller J. B.,
Lindaas J.,
Commane R.,
Sweeney C.,
Luus K. A.,
Tosca M. G.,
Dinardo S. J.,
Wofsy S.,
Miller C. E., Randerson J. T.
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Little John M, Parisien Marc-André
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Elhanan Gai,
Schnieder Brendan,
Schlauch Karen,
Joros Andrew,
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Environmental Health. 2020 19(1).
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Varvak Anna, McGuire A.
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International Journal of Climatology. 2012 32(5). p.772
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Ruffault J,
Moron V,
Trigo R M, Curt T
Environmental Research Letters. 2016 11(7). p.075006
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Pierson Frederick B.,
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Arseneault Dominique,
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Loehman Rachel A., Hardy Colin C.
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Barbero R,
Abatzoglou J T,
Steel E A, K Larkin Narasimhan
Environmental Research Letters. 2014 9(12). p.124009
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Potter Brian E., McEvoy Daniel
Earth Interactions. 2021 25(1). p.160
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Shi Wenwen,
Shi Weiyu,
Li Fang,
Alexeev Vladimir A,
Shiklomanov Alexander,
Yang Ruowen, Tan Shucheng
Environmental Research Letters. 2023 18(9). p.094049
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Alexeev Vladimir A.,
Euskirchen Eugénie S.,
Cherry Jessica E., Busey Robert C.
Polar Science. 2015 9(2). p.185
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Abatzoglou John,
Larkin Narasimhan K.,
McKenzie Donald, Steel E. Ashley
International Journal of Wildland Fire. 2014 23(7). p.899
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Gray Miranda E.,
Zachmann Luke J., Dickson Brett G.
Earth System Science Data. 2018 10(3). p.1715
A global view of observed changes in fire weather extremes: uncertainties and attribution to climate change
Liu Zhongwei,
Eden Jonathan M.,
Dieppois Bastien, Blackett Matthew
Climatic Change. 2022 173(1-2).
Computational modeling of extreme wildland fire events: A synthesis of scientific understanding with applications to forecasting, land management, and firefighter safety
Coen Janice L.,
Schroeder W.,
Conway S, Tarnay L
Journal of Computational Science. 2020 46 p.101226
Advanced Applications in Remote Sensing of Agricultural Crops and Natural Vegetation (2018)
Impacts of changing fire weather conditions on reconstructed trends in U.S. wildland fire activity from 1979 to 2014
Freeborn Patrick H.,
Jolly W. Matt, Cochrane Mark A.
Journal of Geophysical Research: Biogeosciences. 2016 121(11). p.2856
