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International Journal of Wildland Fire International Journal of Wildland Fire Society
Journal of the International Association of Wildland Fire
RESEARCH ARTICLE (Open Access)

Future expansion, seasonal lengthening and intensification of fire activity under climate change in southeastern France

François Pimont https://orcid.org/0000-0002-9842-6207 A * , Julien Ruffault https://orcid.org/0000-0003-3647-8172 A , Thomas Opitz B , Hélène Fargeon A , Renaud Barbero C , Jorge Castel-Clavera https://orcid.org/0000-0001-6451-1019 A , Nicolas Martin-StPaul A , Eric Rigolot A and Jean-Luc Dupuy A
+ Author Affiliations
- Author Affiliations

A URFM, INRAE, Domaine Saint Paul, Site Agroparc, 84000 Avignon, France.

B BioSP, INRAE, Avignon, France.

C RECOVER, INRAE, Aix-en-Provence, France.

* Correspondence to: francois.pimont@inrae.fr

International Journal of Wildland Fire 32(1) 4-14 https://doi.org/10.1071/WF22103
Submitted: 22 June 2022  Accepted: 11 November 2022   Published: 5 December 2022

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of IAWF. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Background: An increase in fire weather is expected in a warming climate, but its translation to fire activity (fire numbers and sizes) remains largely unknown. Additionally, disentangling the extent to which geographic and seasonal extensions as well as intensification contribute to future fire activity remain largely unknown.

Aims: We aimed to assess the impact of future climate change on fire activity in southeastern France and estimate changes in spatial and seasonal distributions.

Methods: We projected future fire activities using a Bayesian modelling framework combined with ensemble climate simulations. Changes in numbers of escaped fires (>1 ha), large fires (>100 ha) and burned area were studied for different emission scenarios or degrees of global warming.

Key results: Fire activity could increase by up to +180% for +4°C of global warming, with large expansions of fire-prone regions and long seasonal lengthenings. Overall, changes will be dominated by intensification within the historical fire niche, representing two-thirds of additional future fire activity, half of this occurring during the high fire season.

Conclusions: This study confirms that major changes in fire niches would be expected in Euro-Mediterranean regions.

Implications: Long-term strategic policies for adapting prevention and suppression resources and ecosystems are needed to account for such changes.

Keywords: climate change, expansion, extension, fire niche, fire risk severity, fire season length, Firelihood, Mediterranean, projections, risk assessement, seasonal, spatial.


References

Abadie J, Dupouey J-L, Avon C, Rochel X, Tatoni T, Bergès L (2018) Forest recovery since 1860 in a Mediterranean region: drivers and implications for land use and land cover spatial distribution. Landscape Ecology 33, 289–305.
Forest recovery since 1860 in a Mediterranean region: drivers and implications for land use and land cover spatial distribution.Crossref | GoogleScholarGoogle Scholar |

Abatzoglou JT, Juang CS, Williams AP, Kolden CA, Westerling AL (2021a) Increasing Synchronous Fire Danger in Forests of the Western United States. Geophysical Research Letters 48, e2020GL091377
Increasing Synchronous Fire Danger in Forests of the Western United States.Crossref | GoogleScholarGoogle Scholar |

Abatzoglou JT, Battisti DS, Williams AP, Hansen WD, Harvey BJ, Kolden CA (2021b) Projected increases in western US forest fire despite growing fuel constraints. Communications Earth & Environment 2, 227
Projected increases in western US forest fire despite growing fuel constraints.Crossref | GoogleScholarGoogle Scholar |

Amatulli G, Camia A, San-Miguel-Ayanz J (2013) Estimating future burned areas under changing climate in the EU-Mediterranean countries. Science of The Total Environment 450–451, 209–222.
Estimating future burned areas under changing climate in the EU-Mediterranean countries.Crossref | GoogleScholarGoogle Scholar |

Andela N, Morton DC, Giglio L, Chen Y, van der Werf GR, Kasibhatla PS, DeFries RS, Collatz GJ, Hantson S, Kloster S, Bachelet D, Forrest M, Lasslop G, Li F, Mangeon S, Melton JR, Yue C, Randerson JT (2017) A human-driven decline in global burned area. Science 356, 1356–1362.
A human-driven decline in global burned area.Crossref | GoogleScholarGoogle Scholar |

Balch JK, Bradley BA, Abatzoglou JT, Nagy RC, Fusco EJ, Mahood AL (2017) Human-started wildfires expand the fire niche across the United States. Proceedings of the National Academy of Sciences 114, 2946–2951.
Human-started wildfires expand the fire niche across the United States.Crossref | GoogleScholarGoogle Scholar |

Barbero R, Abatzoglou JT, Larkin NK, Kolden CA, Stocks B (2015) Climate change presents increased potential for very large fires in the contiguous United States. International Journal of Wildland Fire 24, 892–899.
Climate change presents increased potential for very large fires in the contiguous United States.Crossref | GoogleScholarGoogle Scholar |

Barbero R, Abatzoglou JT, Pimont F, Ruffault J, Curt T (2020) Attributing Increases in Fire Weather to Anthropogenic Climate Change Over France. Frontiers in Earth Science 8, 104
Attributing Increases in Fire Weather to Anthropogenic Climate Change Over France.Crossref | GoogleScholarGoogle Scholar |

Bedia J, Herrera S, Camia A, Moreno JM, Gutiérrez JM (2014) Forest fire danger projections in the Mediterranean using ENSEMBLES regional climate change scenarios. Climatic Change 122, 185–199.
Forest fire danger projections in the Mediterranean using ENSEMBLES regional climate change scenarios.Crossref | GoogleScholarGoogle Scholar |

Boulanger Y, Parisien M-A, Wang X (2018) Model-specification uncertainty in future area burned by wildfires in Canada. International Journal of Wildland Fire 27, 164–175.
Model-specification uncertainty in future area burned by wildfires in Canada.Crossref | GoogleScholarGoogle Scholar |

Brogli R, Kroner N, Sorland SL, Luthi D, Schar C (2019) The role of Hadley circulation and lapse‐rate changes for the future European summer climate. Journal of Climate 32, 385–404. https://www.jstor.org/stable/26663088.

Cannon AJ (2018) Multivariate quantile mapping bias correction: an N-dimensional probability density function transform for climate model simulations of multiple variables. Climate Dynamics 50, 31–49.
Multivariate quantile mapping bias correction: an N-dimensional probability density function transform for climate model simulations of multiple variables.Crossref | GoogleScholarGoogle Scholar |

Castel-Clavera J, Pimont F, Opitz T, Ruffault J, Dupuy J-L (2022) Disentangling the factors of spatio-temporal patterns of wildfire activity in south-eastern France. International Journal of Wildland Fire
Disentangling the factors of spatio-temporal patterns of wildfire activity in south-eastern France.Crossref | GoogleScholarGoogle Scholar | [In press]

Chatry C, Le Gallou J, Le Quentrec M, Lafitte J, Laurens D, Creuchet D, Grelu J (2010) Rapport de la mission interministérielle ‘Changements climatiques et extension des zones sensibles aux feux de forêts’. Rapport Min. Alimentation Agriculture Pêche no. 1796. (Paris) [In French] Available at https://www.vie‐publique.fr/sites/default/files/rapport/pdf/104000494.pdf

Cos J, Doblas-Reyes F, Jury M, Marcos R, Bretonnière P-A, Samsó M (2022) The Mediterranean climate change hotspot in the CMIP5 and CMIP6 projections. Earth System Dynamics 13, 321–340.
The Mediterranean climate change hotspot in the CMIP5 and CMIP6 projections.Crossref | GoogleScholarGoogle Scholar |

Dong C, Williams AP, Abatzoglou JT, Lin K, Okin GS, Gillespie TW, Long D, Lin Y-H, Hall A, MacDonald GM (2022) The season for large fires in southern California is projected to lengthen in a changing climate. Communications Earth & Environment 3, 22
The season for large fires in southern California is projected to lengthen in a changing climate.Crossref | GoogleScholarGoogle Scholar |

Drobinski P, Da Silva N, Bastin S, Mailler S, Muller C, Ahrens B, Christensen OB, Lionello P (2020) How warmer and drier will the Mediterranean region be at the end of the twenty-first century? Regional Environmental Change 20, 78
How warmer and drier will the Mediterranean region be at the end of the twenty-first century?Crossref | GoogleScholarGoogle Scholar |

Dupire S, Curt T, Bigot S, Fréjaville T (2019) Vulnerability of forest ecosystems to fire in the French Alps. European Journal of Forest Research 138, 813–830.
Vulnerability of forest ecosystems to fire in the French Alps.Crossref | GoogleScholarGoogle Scholar |

Dupuy J, Fargeon H, Martin-StPaul N, Pimont F, Ruffault J, Guijarro M, Hernando C, Madrigal J, Fernandes P (2020) Climate change impact on future wildfire danger and activity in southern Europe: a review. Annals of Forest Science 77, 35
Climate change impact on future wildfire danger and activity in southern Europe: a review.Crossref | GoogleScholarGoogle Scholar |

Evin G, Curt T, Eckert N (2018) Has fire policy decreased the return period of the largest wildfire events in France? A Bayesian assessment based on extreme value theory. Natural Hazards and Earth System Sciences 18, 2641–2651.
Has fire policy decreased the return period of the largest wildfire events in France? A Bayesian assessment based on extreme value theory.Crossref | GoogleScholarGoogle Scholar |

Fargeon H, Pimont F, Martin-StPaul N, De Caceres M, Ruffault J, Barbero R, Dupuy J-L (2020) Projections of fire danger under climate change over France: where do the greatest uncertainties lie? Climatic Change 160, 479–493.
Projections of fire danger under climate change over France: where do the greatest uncertainties lie?Crossref | GoogleScholarGoogle Scholar |

Flannigan M, Cantin AS, de Groot WJ, Wotton M, Newbery A, Gowman LM (2013) Global wildland fire season severity in the 21st century. Forest Ecology and Management 294, 54–61.
Global wildland fire season severity in the 21st century.Crossref | GoogleScholarGoogle Scholar |

Fréjaville T, Curt T (2015) Spatiotemporal patterns of changes in fire regime and climate: defining the pyroclimates of south-eastern France (Mediterranean Basin. Climatic Change 129, 239–251.
Spatiotemporal patterns of changes in fire regime and climate: defining the pyroclimates of south-eastern France (Mediterranean Basin.Crossref | GoogleScholarGoogle Scholar |

Ganteaume A, Barbero R (2019) Contrasting large fire activity in the French Mediterranean. Natural Hazards and Earth System Sciences 19, 1055–1066.
Contrasting large fire activity in the French Mediterranean.Crossref | GoogleScholarGoogle Scholar |

Jones MW, Abatzoglou JT, Veraverbeke S, Andela N, Lasslop G, Forkel M, Smith AJP, Burton C, Betts RA, van der Werf GR, Sitch S, Canadell JG, Santín C, Kolden C, Doerr SH, Le Quéré C (2022) Global and regional trends and drivers of fire under climate change. Reviews of Geophysics 60, e2020RG000726
Global and regional trends and drivers of fire under climate change.Crossref | GoogleScholarGoogle Scholar |

Koh J, Pimont F, Dupuy J-L, Opitz T (2023) Spatiotemporal wildfire modeling through point processes with moderate and extreme marks. Annals of Applied Statistics 17, 560–582.
Spatiotemporal wildfire modeling through point processes with moderate and extreme marks.Crossref | GoogleScholarGoogle Scholar |

Kotlarski S, Keuler K, Christensen OB, Colette A, Déqué M, Gobiet A, Goergen K, Jacob D, Lüthi D, van Meijgaard E, Nikulin G, Schär C, Teichmann C, Vautard R, Warrach-Sagi K, Wulfmeyer V (2014) Regional climate modeling on European scales: a joint standard evaluation of the EURO-CORDEX RCM ensemble. Geoscientific Model Development 7, 1297–1333.
Regional climate modeling on European scales: a joint standard evaluation of the EURO-CORDEX RCM ensemble.Crossref | GoogleScholarGoogle Scholar |

Mann ME (2004) On smoothing potentially non-stationary climate time series. Geophysical Research Letters 31, L07214
On smoothing potentially non-stationary climate time series.Crossref | GoogleScholarGoogle Scholar |

Mann ME (2008) Smoothing of climate time series revisited. Geophysical Research Letters 35, L16708
Smoothing of climate time series revisited.Crossref | GoogleScholarGoogle Scholar |

Pimont F, Fargeon H, Opitz T, Ruffault J, Barbero R, Martin-StPaul N, Rigolot E, Riviére M, Dupuy J-L (2021) Prediction of regional wildfire activity in the probabilistic Bayesian framework of Firelihood. Ecological Applications 31, e02316
Prediction of regional wildfire activity in the probabilistic Bayesian framework of Firelihood.Crossref | GoogleScholarGoogle Scholar |

Resco de Dios V, Hedo J, Cunill Camprubí À, Thapa P, Martínez del Castillo E, Martínez de Aragón J, Bonet JA, Balaguer-Romano R, Díaz-Sierra R, Yebra M, Boer MM (2021) Climate change induced declines in fuel moisture may turn currently fire-free Pyrenean mountain forests into fire-prone ecosystems. Science of The Total Environment 797, 149104
Climate change induced declines in fuel moisture may turn currently fire-free Pyrenean mountain forests into fire-prone ecosystems.Crossref | GoogleScholarGoogle Scholar |

Ruffault J, Mouillot F (2015) How a new fire-suppression policy can abruptly reshape the fire–weather relationship. Ecosphere 6, 199
How a new fire-suppression policy can abruptly reshape the fire–weather relationship.Crossref | GoogleScholarGoogle Scholar |

Ruffault J, Mouillot F (2017) Contribution of human and biophysical factors to the spatial distribution of forest fire ignitions and large wildfires in a French Mediterranean region. International Journal of Wildland Fire 26, 498–508.
Contribution of human and biophysical factors to the spatial distribution of forest fire ignitions and large wildfires in a French Mediterranean region.Crossref | GoogleScholarGoogle Scholar |

Ruffault J, Moron V, Trigo RM, Curt T (2017) Daily synoptic conditions associated with large fire occurrence in Mediterranean France: evidence for a wind-driven fire regime. International Journal of Climatology 37, 524–533.
Daily synoptic conditions associated with large fire occurrence in Mediterranean France: evidence for a wind-driven fire regime.Crossref | GoogleScholarGoogle Scholar |

Ruffault J, Curt T, Moron V, Trigo RM, Mouillot F, Koutsias N, Pimont F, Martin-StPaul N, Barbero R, Dupuy J-L, Russo A, Belhadj-Khedher C (2020) Increased likelihood of heat-induced large wildfires in the Mediterranean Basin. Scientific Reports 10, 13790
Increased likelihood of heat-induced large wildfires in the Mediterranean Basin.Crossref | GoogleScholarGoogle Scholar |

Senande-Rivera M, Insua-Costa D, Miguez-Macho G (2022) Spatial and temporal expansion of global wildland fire activity in response to climate change. Nature Communications 13, 1208
Spatial and temporal expansion of global wildland fire activity in response to climate change.Crossref | GoogleScholarGoogle Scholar |

Taylor SW (2020) Atmospheric Cascades Shape Wildfire Activity and Fire Management Decision Spaces Across Scales − A Conceptual Framework for Fire Prediction. Frontiers in Environmental Science 8, 527278
Atmospheric Cascades Shape Wildfire Activity and Fire Management Decision Spaces Across Scales − A Conceptual Framework for Fire Prediction.Crossref | GoogleScholarGoogle Scholar |

Turco M, Rosa-Cánovas JJ, Bedia J, Jerez S, Montávez JP, Llasat MC, Provenzale A (2018) Exacerbated fires in Mediterranean Europe due to anthropogenic warming projected with non-stationary climate-fire models. Nature Communications 9, 3821
Exacerbated fires in Mediterranean Europe due to anthropogenic warming projected with non-stationary climate-fire models.Crossref | GoogleScholarGoogle Scholar |

Van Wagner CE (1987) ‘Development and structure of the Canadian Forest Fire Weather Index System’. 35 p. (Canada Communication Group Publ: Ottawa)

Vidal J-P, Martin E, Franchistéguy L, Baillon M, Soubeyroux J-M (2010) A 50-year high-resolution atmospheric reanalysis over France with the Safran system. International Journal of Climatology 30, 1627–1644.
A 50-year high-resolution atmospheric reanalysis over France with the Safran system.Crossref | GoogleScholarGoogle Scholar |

Wang X, Wotton BM, Cantin AS, Parisien M-A, Anderson K, Moore B, Flannigan MD (2017) cffdrs: an R package for the Canadian Forest Fire Danger Rating System. Ecological Processes 6, 5
cffdrs: an R package for the Canadian Forest Fire Danger Rating System.Crossref | GoogleScholarGoogle Scholar |

Williams AP, Abatzoglou JT (2016) Recent Advances and Remaining Uncertainties in Resolving Past and Future Climate Effects on Global Fire Activity. Current Climate Change Reports 2, 1–14.
Recent Advances and Remaining Uncertainties in Resolving Past and Future Climate Effects on Global Fire Activity.Crossref | GoogleScholarGoogle Scholar |