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Increasing frequency of extreme fire weather in Canada with climate change

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Listed:
  • Xianli Wang
  • Dan Thompson
  • Ginny Marshall
  • Cordy Tymstra
  • Richard Carr
  • Mike Flannigan

Abstract

In Canadian forests, the majority of burned area occurs on a small number of days of extreme fire weather. These days lie within the tail end of the distribution of fire weather, and are often the periods when fire suppression capacity is most challenged. We examined the historic and future frequency of such extreme fire weather events across 16 fire regime zones in the forested regions of Canada from 1970 to the year 2090. Two measurements are used to measure the extreme fire weather events, the 95th percentile of Fire Weather Index (FWI 95 ) and the number of spread days. The annual frequency of fire spread days is modelled to increase 35–400 % by 2050 with the greatest absolute increases occurring in the Boreal Plains of Alberta and Saskatchewan. The largest proportional increase in the number of spread days is modelled to occur in coastal and temperate forests. This large increase in spread days was found despite a modest average increase in FWI 95 . Our findings suggest that the impact of future climate change in Canadian forests is sufficient to increase the number of days with active fire spread. Fire management agencies in coastal and temperate regions may need to adapt their planning and capacity to deal with proportionally larger changes to their fire weather regime compared to the already high fire management capacity found in drier continental regions. Copyright Springer Science+Business Media Dordrecht 2015

Suggested Citation

  • Xianli Wang & Dan Thompson & Ginny Marshall & Cordy Tymstra & Richard Carr & Mike Flannigan, 2015. "Increasing frequency of extreme fire weather in Canada with climate change," Climatic Change, Springer, vol. 130(4), pages 573-586, June.
    • Handle: RePEc:spr:climat:v:130:y:2015:i:4:p:573-586
    DOI: 10.1007/s10584-015-1375-5
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    References listed on IDEAS

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    1. J. Bedia & S. Herrera & D. Martín & N. Koutsias & J. Gutiérrez, 2013. "Robust projections of Fire Weather Index in the Mediterranean using statistical downscaling," Climatic Change, Springer, vol. 120(1), pages 229-247, September.
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    1. Megan C. Kirchmeier-Young & Francis W. Zwiers & Nathan P. Gillett & Alex J. Cannon, 2017. "Attributing extreme fire risk in Western Canada to human emissions," Climatic Change, Springer, vol. 144(2), pages 365-379, September.
    2. Bruno A. Aparício & João A. Santos & Teresa R. Freitas & Ana C. L. Sá & José M. C. Pereira & Paulo M. Fernandes, 2022. "Unravelling the effect of climate change on fire danger and fire behaviour in the Transboundary Biosphere Reserve of Meseta Ibérica (Portugal-Spain)," Climatic Change, Springer, vol. 173(1), pages 1-20, July.
    3. Vassiliki Kotroni & Constantinos Cartalis & Silas Michaelides & Julia Stoyanova & Fillipos Tymvios & Antonis Bezes & Theodoros Christoudias & Stavros Dafis & Christos Giannakopoulos & Theodore M. Gian, 2020. "DISARM Early Warning System for Wildfires in the Eastern Mediterranean," Sustainability, MDPI, vol. 12(16), pages 1-30, August.
    4. Chun Hua Julia Liu & Francesco Pomponi & Bernardino D’Amico, 2023. "The Extent to Which Hemp Insulation Materials Can Be Used in Canadian Residential Buildings," Sustainability, MDPI, vol. 15(19), pages 1-31, October.
    5. M. Flannigan & B. Wotton & G. Marshall & W. de Groot & J. Johnston & N. Jurko & A. Cantin, 2016. "Fuel moisture sensitivity to temperature and precipitation: climate change implications," Climatic Change, Springer, vol. 134(1), pages 59-71, January.
    6. Piyush Jain & Mari R. Tye & Debasish Paimazumder & Mike Flannigan, 2020. "Downscaling fire weather extremes from historical and projected climate models," Climatic Change, Springer, vol. 163(1), pages 189-216, November.
    7. Vassiliki Varela & Diamando Vlachogiannis & Athanasios Sfetsos & Stelios Karozis & Nadia Politi & Frédérique Giroud, 2019. "Projection of Forest Fire Danger due to Climate Change in the French Mediterranean Region," Sustainability, MDPI, vol. 11(16), pages 1-13, August.
    8. Zhenbo Wang & Xiaorui Zhang & Bo Xu, 2015. "Spatio-Temporal Features of China’s Urban Fires: An Investigation with Reference to Gross Domestic Product and Humidity," Sustainability, MDPI, vol. 7(7), pages 1-19, July.
    9. M. D. Flannigan & B. M. Wotton & G. A. Marshall & W. J. de Groot & J. Johnston & N. Jurko & A. S. Cantin, 2016. "Fuel moisture sensitivity to temperature and precipitation: climate change implications," Climatic Change, Springer, vol. 134(1), pages 59-71, January.
    10. Nikolaos Ntinopoulos & Stavros Sakellariou & Olga Christopoulou & Athanasios Sfougaris, 2023. "Fusion of Remotely-Sensed Fire-Related Indices for Wildfire Prediction through the Contribution of Artificial Intelligence," Sustainability, MDPI, vol. 15(15), pages 1-24, July.

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