Assessing changes in global fire regimes

Sayedeh Sara Sayedi; Benjamin W. Abbott; Boris Vannière; Bérangère Leys; Daniele Colombaroli; Graciela Gil Romera; Michał Słowiński; Julie C. Aleman; Olivier Blarquez; Angelica Feurdean; Kendrick Brown; Tuomas Aakala; Teija Alenius; Kathryn Allen; Maja Andric; Yves Bergeron; Siria Biagioni; Richard Bradshaw; Laurent Bremond; Elodie Brisset; Joseph Brooks; Sandra O. Brugger; Thomas Brussel; Haidee Cadd; Eleonora Cagliero; Christopher Carcaillet; Vachel Carter; Filipe X. Catry; Antoine Champreux; Emeline Chaste; Raphaël Daniel Chavardès; Melissa Chipman; Marco Conedera; Simon Connor; Mark Constantine; Colin Courtney Mustaphi; Abraham N. Dabengwa; William Daniels; Erik De Boer; Elisabeth Dietze; Joan Estrany; Paulo Fernandes; Walter Finsinger; Suzette G.A. Flantua; Paul Fox-Hughes; Dorian M. Gaboriau; Eugenia M.Gayo; Martin P. Girardin; Jeffrey Glenn; Ramesh Glückler; Catalina González-Arango; Mariangelica Groves; Douglas S. Hamilton; Rebecca Jenner Hamilton; Stijn Hantson; K. Anggi Hapsari; Mark Hardiman; Donna Hawthorne; Kira Hoffman; Jun Inoue; Allison T. Karp; Patrik Krebs; Charuta Kulkarni; Niina Kuosmanen; Terri Lacourse; Marie Pierre Ledru; Marion Lestienne; Colin Long; José Antonio López-Sáez; Nicholas Loughlin; Mats Niklasson; Javier Madrigal; S. Yoshi Maezumi; Katarzyna Marcisz; Michela Mariani; David McWethy; Grant Meyer; Chiara Molinari; Encarni Montoya; Scott Mooney; Cesar Morales-Molino; Jesse Morris; Patrick Moss; Imma Oliveras; José Miguel Pereira; Gianni Boris Pezzatti; Nadine Pickarski; Roberta Pini; Emma Rehn; Cécile C. Remy; Jordi Revelles; Damien Rius; Vincent Robin; Yanming Ruan; Natalia Rudaya; Jeremy Russell-Smith; Heikki Seppä; Lyudmila Shumilovskikh; William T.Sommers; Çağatay Tavşanoğlu; Charles Umbanhowar; Erickson Urquiaga; Dunia Urrego; Richard S. Vachula; Tuomo Wallenius; Chao You; Anne Laure Daniau

doi:10.1186/s42408-023-00237-9

Assessing changes in global fire regimes

Sayedeh Sara Sayedi, Benjamin W. Abbott, Boris Vannière, Bérangère Leys, Daniele Colombaroli, Graciela Gil Romera, Michał Słowiński, Julie C. Aleman, Olivier Blarquez, Angelica Feurdean, Kendrick Brown, Tuomas Aakala, Teija Alenius, Kathryn Allen, Maja Andric, Yves Bergeron, Siria Biagioni, Richard Bradshaw, Laurent Bremond, Elodie BrissetJoseph Brooks, Sandra O. Brugger, Thomas Brussel, Haidee Cadd, Eleonora Cagliero, Christopher Carcaillet, Vachel Carter, Filipe X. Catry, Antoine Champreux, Emeline Chaste, Raphaël Daniel Chavardès, Melissa Chipman, Marco Conedera, Simon Connor, Mark Constantine, Colin Courtney Mustaphi, Abraham N. Dabengwa, William Daniels, Erik De Boer, Elisabeth Dietze, Joan Estrany, Paulo Fernandes, Walter Finsinger, Suzette G.A. Flantua, Paul Fox-Hughes, Dorian M. Gaboriau, Eugenia M.Gayo, Martin P. Girardin, Jeffrey Glenn, Ramesh Glückler, Catalina González-Arango, Mariangelica Groves, Douglas S. Hamilton, Rebecca Jenner Hamilton, Stijn Hantson, K. Anggi Hapsari, Mark Hardiman, Donna Hawthorne, Kira Hoffman, Jun Inoue, Allison T. Karp, Patrik Krebs, Charuta Kulkarni, Niina Kuosmanen, Terri Lacourse, Marie Pierre Ledru, Marion Lestienne, Colin Long, José Antonio López-Sáez, Nicholas Loughlin, Mats Niklasson, Javier Madrigal, S. Yoshi Maezumi, Katarzyna Marcisz, Michela Mariani, David McWethy, Grant Meyer, Chiara Molinari, Encarni Montoya, Scott Mooney, Cesar Morales-Molino, Jesse Morris, Patrick Moss, Imma Oliveras, José Miguel Pereira, Gianni Boris Pezzatti, Nadine Pickarski, Roberta Pini, Emma Rehn, Cécile C. Remy, Jordi Revelles, Damien Rius, Vincent Robin, Yanming Ruan, Natalia Rudaya, Jeremy Russell-Smith, Heikki Seppä, Lyudmila Shumilovskikh, William T.Sommers, Çağatay Tavşanoğlu, Charles Umbanhowar, Erickson Urquiaga, Dunia Urrego, Richard S. Vachula, Tuomo Wallenius, Chao You, Anne Laure Daniau

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Abstract

Background: The global human footprint has fundamentally altered wildfire regimes, creating serious consequences for human health, biodiversity, and climate. However, it remains difficult to project how long-term interactions among land use, management, and climate change will affect fire behavior, representing a key knowledge gap for sustainable management. We used expert assessment to combine opinions about past and future fire regimes from 99 wildfire researchers. We asked for quantitative and qualitative assessments of the frequency, type, and implications of fire regime change from the beginning of the Holocene through the year 2300.

Results: Respondents indicated some direct human influence on wildfire since at least ~ 12,000 years BP, though natural climate variability remained the dominant driver of fire regime change until around 5,000 years BP, for most study regions. Responses suggested a ten-fold increase in the frequency of fire regime change during the last 250 years compared with the rest of the Holocene, corresponding first with the intensification and extensification of land use and later with anthropogenic climate change. Looking to the future, fire regimes were predicted to intensify, with increases in frequency, severity, and size in all biomes except grassland ecosystems. Fire regimes showed different climate sensitivities across biomes, but the likelihood of fire regime change increased with higher warming scenarios for all biomes. Biodiversity, carbon storage, and other ecosystem services were predicted to decrease for most biomes under higher emission scenarios. We present recommendations for adaptation and mitigation under emerging fire regimes, while recognizing that management options are constrained under higher emission scenarios.

Conclusion: The influence of humans on wildfire regimes has increased over the last two centuries. The perspective gained from past fires should be considered in land and fire management strategies, but novel fire behavior is likely given the unprecedented human disruption of plant communities, climate, and other factors. Future fire regimes are likely to degrade key ecosystem services, unless climate change is aggressively mitigated. Expert assessment complements empirical data and modeling, providing a broader perspective of fire science to inform decision making and future research priorities.

Original language	English
Article number	18
Pages (from-to)	1-22
Number of pages	22
Journal	Fire Ecology
Volume	20
Issue number	1
DOIs	https://doi.org/10.1186/s42408-023-00237-9
Publication status	Published - Dec 2024

Bibliographical note

Funding Information:
PAGES, Past Global Changes, is funded by the Swiss Academy of Sciences and the Chinese Academy of Sciences and supported in kind by the University of Bern, Switzerland. Financial support was provided by the U.S. National Science Foundation award numbers 1916565, EAR-2011439, and EAR-2012123. Additional support was provided by the Utah Department of Natural Resources Watershed Restoration Initiative. SSS was supported by Brigham Young University Graduate Studies. MS was supported by National Science Centre, Poland (grant no. 2018/31/B/ST10/02498 and 2021/41/B/ST10/00060). JCA was supported by the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement No 101026211. PF contributed within the framework of the FCT-funded project no. UIDB/04033/2020. SGAF acknowledges support from Trond Mohn Stiftelse (TMS) and University of Bergen for the startup grant ‘TMS2022STG03’. JMP participation in this research was supported by the Forest Research Centre, a research unit funded by Fundação para a Ciência e a Tecnologia I.P. (FCT), Portugal (UIDB/00239/2020). A.-LD acknowledge PAGES, PICS CNRS 06484 project, CNRS-INSU, Région Nouvelle-Aquitaine, University of Bordeaux DRI and INQUA for workshop support.

Funding Information:
This study emerged during the PAGES-supported Global Paleofire Working Group 2 workshop “Fire history baselines by biome” held in September 2016 at Château de la Tour, Beguey (Bordeaux, France) led by A.-L. D. and Tim Brücher. We thank Virginia Iglesias and Elizabeth Lynch for participating in this study. We thank Isabella Errigo for her assistance in generating Fig. 1a. We dedicate this manuscript to our late colleague Dr. Daniele Colombaroli.

Publisher Copyright:
© The Author(s) 2024.

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10.1186/s42408-023-00237-9

97324130-oaFinal published version, 3.42 MBLicence: CC BY

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Sayedi, S. S., Abbott, B. W., Vannière, B., Leys, B., Colombaroli, D., Romera, G. G., Słowiński, M., Aleman, J. C., Blarquez, O., Feurdean, A., Brown, K., Aakala, T., Alenius, T., Allen, K., Andric, M., Bergeron, Y., Biagioni, S., Bradshaw, R., Bremond, L., ... Daniau, A. L. (2024). Assessing changes in global fire regimes. Fire Ecology, 20(1), 1-22. Article 18. https://doi.org/10.1186/s42408-023-00237-9

@article{9258e6374e9943449889b6e927acef36,

title = "Assessing changes in global fire regimes",

abstract = "Background: The global human footprint has fundamentally altered wildfire regimes, creating serious consequences for human health, biodiversity, and climate. However, it remains difficult to project how long-term interactions among land use, management, and climate change will affect fire behavior, representing a key knowledge gap for sustainable management. We used expert assessment to combine opinions about past and future fire regimes from 99 wildfire researchers. We asked for quantitative and qualitative assessments of the frequency, type, and implications of fire regime change from the beginning of the Holocene through the year 2300. Results: Respondents indicated some direct human influence on wildfire since at least \textasciitilde{} 12,000 years BP, though natural climate variability remained the dominant driver of fire regime change until around 5,000 years BP, for most study regions. Responses suggested a ten-fold increase in the frequency of fire regime change during the last 250 years compared with the rest of the Holocene, corresponding first with the intensification and extensification of land use and later with anthropogenic climate change. Looking to the future, fire regimes were predicted to intensify, with increases in frequency, severity, and size in all biomes except grassland ecosystems. Fire regimes showed different climate sensitivities across biomes, but the likelihood of fire regime change increased with higher warming scenarios for all biomes. Biodiversity, carbon storage, and other ecosystem services were predicted to decrease for most biomes under higher emission scenarios. We present recommendations for adaptation and mitigation under emerging fire regimes, while recognizing that management options are constrained under higher emission scenarios.Conclusion: The influence of humans on wildfire regimes has increased over the last two centuries. The perspective gained from past fires should be considered in land and fire management strategies, but novel fire behavior is likely given the unprecedented human disruption of plant communities, climate, and other factors. Future fire regimes are likely to degrade key ecosystem services, unless climate change is aggressively mitigated. Expert assessment complements empirical data and modeling, providing a broader perspective of fire science to inform decision making and future research priorities.",

keywords = "Biome, Climate change, Ecosystem services, Expert assessment, Fire regime, Holocene, Management",

author = "Sayedi, \{Sayedeh Sara\} and Abbott, \{Benjamin W.\} and Boris Vanni{\`e}re and B{\'e}rang{\`e}re Leys and Daniele Colombaroli and Romera, \{Graciela Gil\} and Micha{\l} S{\l}owi{\'n}ski and Aleman, \{Julie C.\} and Olivier Blarquez and Angelica Feurdean and Kendrick Brown and Tuomas Aakala and Teija Alenius and Kathryn Allen and Maja Andric and Yves Bergeron and Siria Biagioni and Richard Bradshaw and Laurent Bremond and Elodie Brisset and Joseph Brooks and Brugger, \{Sandra O.\} and Thomas Brussel and Haidee Cadd and Eleonora Cagliero and Christopher Carcaillet and Vachel Carter and Catry, \{Filipe X.\} and Antoine Champreux and Emeline Chaste and Chavard{\`e}s, \{Rapha{\"e}l Daniel\} and Melissa Chipman and Marco Conedera and Simon Connor and Mark Constantine and \{Courtney Mustaphi\}, Colin and Dabengwa, \{Abraham N.\} and William Daniels and \{De Boer\}, Erik and Elisabeth Dietze and Joan Estrany and Paulo Fernandes and Walter Finsinger and Flantua, \{Suzette G.A.\} and Paul Fox-Hughes and Gaboriau, \{Dorian M.\} and Eugenia M.Gayo and Girardin, \{Martin P.\} and Jeffrey Glenn and Ramesh Gl{\"u}ckler and Catalina Gonz{\'a}lez-Arango and Mariangelica Groves and Hamilton, \{Douglas S.\} and Hamilton, \{Rebecca Jenner\} and Stijn Hantson and Hapsari, \{K. Anggi\} and Mark Hardiman and Donna Hawthorne and Kira Hoffman and Jun Inoue and Karp, \{Allison T.\} and Patrik Krebs and Charuta Kulkarni and Niina Kuosmanen and Terri Lacourse and Ledru, \{Marie Pierre\} and Marion Lestienne and Colin Long and L{\'o}pez-S{\'a}ez, \{Jos{\'e} Antonio\} and Nicholas Loughlin and Mats Niklasson and Javier Madrigal and Maezumi, \{S. Yoshi\} and Katarzyna Marcisz and Michela Mariani and David McWethy and Grant Meyer and Chiara Molinari and Encarni Montoya and Scott Mooney and Cesar Morales-Molino and Jesse Morris and Patrick Moss and Imma Oliveras and Pereira, \{Jos{\'e} Miguel\} and Pezzatti, \{Gianni Boris\} and Nadine Pickarski and Roberta Pini and Emma Rehn and Remy, \{C{\'e}cile C.\} and Jordi Revelles and Damien Rius and Vincent Robin and Yanming Ruan and Natalia Rudaya and Jeremy Russell-Smith and Heikki Sepp{\"a} and Lyudmila Shumilovskikh and William T.Sommers and {\c C}ağatay Tav{\c s}anoğlu and Charles Umbanhowar and Erickson Urquiaga and Dunia Urrego and Vachula, \{Richard S.\} and Tuomo Wallenius and Chao You and Daniau, \{Anne Laure\}",

note = "Funding Information: PAGES, Past Global Changes, is funded by the Swiss Academy of Sciences and the Chinese Academy of Sciences and supported in kind by the University of Bern, Switzerland. Financial support was provided by the U.S. National Science Foundation award numbers 1916565, EAR-2011439, and EAR-2012123. Additional support was provided by the Utah Department of Natural Resources Watershed Restoration Initiative. SSS was supported by Brigham Young University Graduate Studies. MS was supported by National Science Centre, Poland (grant no. 2018/31/B/ST10/02498 and 2021/41/B/ST10/00060). JCA was supported by the European Union{\textquoteright}s Horizon 2020 research and innovation program under the Marie Sk{\l}odowska-Curie grant agreement No 101026211. PF contributed within the framework of the FCT-funded project no. UIDB/04033/2020. SGAF acknowledges support from Trond Mohn Stiftelse (TMS) and University of Bergen for the startup grant {\textquoteleft}TMS2022STG03{\textquoteright}. JMP participation in this research was supported by the Forest Research Centre, a research unit funded by Funda{\c c}{\~a}o para a Ci{\^e}ncia e a Tecnologia I.P. (FCT), Portugal (UIDB/00239/2020). A.-LD acknowledge PAGES, PICS CNRS 06484 project, CNRS-INSU, R{\'e}gion Nouvelle-Aquitaine, University of Bordeaux DRI and INQUA for workshop support. Funding Information: This study emerged during the PAGES-supported Global Paleofire Working Group 2 workshop “Fire history baselines by biome” held in September 2016 at Ch{\^a}teau de la Tour, Beguey (Bordeaux, France) led by A.-L. D. and Tim Br{\"u}cher. We thank Virginia Iglesias and Elizabeth Lynch for participating in this study. We thank Isabella Errigo for her assistance in generating Fig. 1a. We dedicate this manuscript to our late colleague Dr. Daniele Colombaroli. Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1186/s42408-023-00237-9",

language = "English",

volume = "20",

pages = "1--22",

journal = "Fire Ecology",

issn = "1933-9747",

publisher = "Association for Fire Ecology",

number = "1",

}

Sayedi, SS, Abbott, BW, Vannière, B, Leys, B, Colombaroli, D, Romera, GG, Słowiński, M, Aleman, JC, Blarquez, O, Feurdean, A, Brown, K, Aakala, T, Alenius, T, Allen, K, Andric, M, Bergeron, Y, Biagioni, S, Bradshaw, R, Bremond, L, Brisset, E, Brooks, J, Brugger, SO, Brussel, T, Cadd, H, Cagliero, E, Carcaillet, C, Carter, V, Catry, FX, Champreux, A, Chaste, E, Chavardès, RD, Chipman, M, Conedera, M, Connor, S, Constantine, M, Courtney Mustaphi, C, Dabengwa, AN, Daniels, W, De Boer, E, Dietze, E, Estrany, J, Fernandes, P, Finsinger, W, Flantua, SGA, Fox-Hughes, P, Gaboriau, DM, M.Gayo, E, Girardin, MP, Glenn, J, Glückler, R, González-Arango, C, Groves, M, Hamilton, DS, Hamilton, RJ, Hantson, S, Hapsari, KA, Hardiman, M, Hawthorne, D, Hoffman, K, Inoue, J, Karp, AT, Krebs, P, Kulkarni, C, Kuosmanen, N, Lacourse, T, Ledru, MP, Lestienne, M, Long, C, López-Sáez, JA, Loughlin, N, Niklasson, M, Madrigal, J, Maezumi, SY, Marcisz, K, Mariani, M, McWethy, D, Meyer, G, Molinari, C, Montoya, E, Mooney, S, Morales-Molino, C, Morris, J, Moss, P, Oliveras, I, Pereira, JM, Pezzatti, GB, Pickarski, N, Pini, R, Rehn, E, Remy, CC, Revelles, J, Rius, D, Robin, V, Ruan, Y, Rudaya, N, Russell-Smith, J, Seppä, H, Shumilovskikh, L, T.Sommers, W, Tavşanoğlu, Ç, Umbanhowar, C, Urquiaga, E, Urrego, D, Vachula, RS, Wallenius, T, You, C & Daniau, AL 2024, 'Assessing changes in global fire regimes', Fire Ecology, vol. 20, no. 1, 18, pp. 1-22. https://doi.org/10.1186/s42408-023-00237-9

TY - JOUR

T1 - Assessing changes in global fire regimes

AU - Sayedi, Sayedeh Sara

AU - Abbott, Benjamin W.

AU - Vannière, Boris

AU - Leys, Bérangère

AU - Colombaroli, Daniele

AU - Romera, Graciela Gil

AU - Słowiński, Michał

AU - Aleman, Julie C.

AU - Blarquez, Olivier

AU - Feurdean, Angelica

AU - Brown, Kendrick

AU - Aakala, Tuomas

AU - Alenius, Teija

AU - Allen, Kathryn

AU - Andric, Maja

AU - Bergeron, Yves

AU - Biagioni, Siria

AU - Bradshaw, Richard

AU - Bremond, Laurent

AU - Brisset, Elodie

AU - Brooks, Joseph

AU - Brugger, Sandra O.

AU - Brussel, Thomas

AU - Cadd, Haidee

AU - Cagliero, Eleonora

AU - Carcaillet, Christopher

AU - Carter, Vachel

AU - Catry, Filipe X.

AU - Champreux, Antoine

AU - Chaste, Emeline

AU - Chavardès, Raphaël Daniel

AU - Chipman, Melissa

AU - Conedera, Marco

AU - Connor, Simon

AU - Constantine, Mark

AU - Courtney Mustaphi, Colin

AU - Dabengwa, Abraham N.

AU - Daniels, William

AU - De Boer, Erik

AU - Dietze, Elisabeth

AU - Estrany, Joan

AU - Fernandes, Paulo

AU - Finsinger, Walter

AU - Flantua, Suzette G.A.

AU - Fox-Hughes, Paul

AU - Gaboriau, Dorian M.

AU - M.Gayo, Eugenia

AU - Girardin, Martin P.

AU - Glenn, Jeffrey

AU - Glückler, Ramesh

AU - González-Arango, Catalina

AU - Groves, Mariangelica

AU - Hamilton, Douglas S.

AU - Hamilton, Rebecca Jenner

AU - Hantson, Stijn

AU - Hapsari, K. Anggi

AU - Hardiman, Mark

AU - Hawthorne, Donna

AU - Hoffman, Kira

AU - Inoue, Jun

AU - Karp, Allison T.

AU - Krebs, Patrik

AU - Kulkarni, Charuta

AU - Kuosmanen, Niina

AU - Lacourse, Terri

AU - Ledru, Marie Pierre

AU - Lestienne, Marion

AU - Long, Colin

AU - López-Sáez, José Antonio

AU - Loughlin, Nicholas

AU - Niklasson, Mats

AU - Madrigal, Javier

AU - Maezumi, S. Yoshi

AU - Marcisz, Katarzyna

AU - Mariani, Michela

AU - McWethy, David

AU - Meyer, Grant

AU - Molinari, Chiara

AU - Montoya, Encarni

AU - Mooney, Scott

AU - Morales-Molino, Cesar

AU - Morris, Jesse

AU - Moss, Patrick

AU - Oliveras, Imma

AU - Pereira, José Miguel

AU - Pezzatti, Gianni Boris

AU - Pickarski, Nadine

AU - Pini, Roberta

AU - Rehn, Emma

AU - Remy, Cécile C.

AU - Revelles, Jordi

AU - Rius, Damien

AU - Robin, Vincent

AU - Ruan, Yanming

AU - Rudaya, Natalia

AU - Russell-Smith, Jeremy

AU - Seppä, Heikki

AU - Shumilovskikh, Lyudmila

AU - T.Sommers, William

AU - Tavşanoğlu, Çağatay

AU - Umbanhowar, Charles

AU - Urquiaga, Erickson

AU - Urrego, Dunia

AU - Vachula, Richard S.

AU - Wallenius, Tuomo

AU - You, Chao

AU - Daniau, Anne Laure

N1 - Funding Information: PAGES, Past Global Changes, is funded by the Swiss Academy of Sciences and the Chinese Academy of Sciences and supported in kind by the University of Bern, Switzerland. Financial support was provided by the U.S. National Science Foundation award numbers 1916565, EAR-2011439, and EAR-2012123. Additional support was provided by the Utah Department of Natural Resources Watershed Restoration Initiative. SSS was supported by Brigham Young University Graduate Studies. MS was supported by National Science Centre, Poland (grant no. 2018/31/B/ST10/02498 and 2021/41/B/ST10/00060). JCA was supported by the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement No 101026211. PF contributed within the framework of the FCT-funded project no. UIDB/04033/2020. SGAF acknowledges support from Trond Mohn Stiftelse (TMS) and University of Bergen for the startup grant ‘TMS2022STG03’. JMP participation in this research was supported by the Forest Research Centre, a research unit funded by Fundação para a Ciência e a Tecnologia I.P. (FCT), Portugal (UIDB/00239/2020). A.-LD acknowledge PAGES, PICS CNRS 06484 project, CNRS-INSU, Région Nouvelle-Aquitaine, University of Bordeaux DRI and INQUA for workshop support. Funding Information: This study emerged during the PAGES-supported Global Paleofire Working Group 2 workshop “Fire history baselines by biome” held in September 2016 at Château de la Tour, Beguey (Bordeaux, France) led by A.-L. D. and Tim Brücher. We thank Virginia Iglesias and Elizabeth Lynch for participating in this study. We thank Isabella Errigo for her assistance in generating Fig. 1a. We dedicate this manuscript to our late colleague Dr. Daniele Colombaroli. Publisher Copyright: © The Author(s) 2024.

PY - 2024/12

Y1 - 2024/12

N2 - Background: The global human footprint has fundamentally altered wildfire regimes, creating serious consequences for human health, biodiversity, and climate. However, it remains difficult to project how long-term interactions among land use, management, and climate change will affect fire behavior, representing a key knowledge gap for sustainable management. We used expert assessment to combine opinions about past and future fire regimes from 99 wildfire researchers. We asked for quantitative and qualitative assessments of the frequency, type, and implications of fire regime change from the beginning of the Holocene through the year 2300. Results: Respondents indicated some direct human influence on wildfire since at least ~ 12,000 years BP, though natural climate variability remained the dominant driver of fire regime change until around 5,000 years BP, for most study regions. Responses suggested a ten-fold increase in the frequency of fire regime change during the last 250 years compared with the rest of the Holocene, corresponding first with the intensification and extensification of land use and later with anthropogenic climate change. Looking to the future, fire regimes were predicted to intensify, with increases in frequency, severity, and size in all biomes except grassland ecosystems. Fire regimes showed different climate sensitivities across biomes, but the likelihood of fire regime change increased with higher warming scenarios for all biomes. Biodiversity, carbon storage, and other ecosystem services were predicted to decrease for most biomes under higher emission scenarios. We present recommendations for adaptation and mitigation under emerging fire regimes, while recognizing that management options are constrained under higher emission scenarios.Conclusion: The influence of humans on wildfire regimes has increased over the last two centuries. The perspective gained from past fires should be considered in land and fire management strategies, but novel fire behavior is likely given the unprecedented human disruption of plant communities, climate, and other factors. Future fire regimes are likely to degrade key ecosystem services, unless climate change is aggressively mitigated. Expert assessment complements empirical data and modeling, providing a broader perspective of fire science to inform decision making and future research priorities.

AB - Background: The global human footprint has fundamentally altered wildfire regimes, creating serious consequences for human health, biodiversity, and climate. However, it remains difficult to project how long-term interactions among land use, management, and climate change will affect fire behavior, representing a key knowledge gap for sustainable management. We used expert assessment to combine opinions about past and future fire regimes from 99 wildfire researchers. We asked for quantitative and qualitative assessments of the frequency, type, and implications of fire regime change from the beginning of the Holocene through the year 2300. Results: Respondents indicated some direct human influence on wildfire since at least ~ 12,000 years BP, though natural climate variability remained the dominant driver of fire regime change until around 5,000 years BP, for most study regions. Responses suggested a ten-fold increase in the frequency of fire regime change during the last 250 years compared with the rest of the Holocene, corresponding first with the intensification and extensification of land use and later with anthropogenic climate change. Looking to the future, fire regimes were predicted to intensify, with increases in frequency, severity, and size in all biomes except grassland ecosystems. Fire regimes showed different climate sensitivities across biomes, but the likelihood of fire regime change increased with higher warming scenarios for all biomes. Biodiversity, carbon storage, and other ecosystem services were predicted to decrease for most biomes under higher emission scenarios. We present recommendations for adaptation and mitigation under emerging fire regimes, while recognizing that management options are constrained under higher emission scenarios.Conclusion: The influence of humans on wildfire regimes has increased over the last two centuries. The perspective gained from past fires should be considered in land and fire management strategies, but novel fire behavior is likely given the unprecedented human disruption of plant communities, climate, and other factors. Future fire regimes are likely to degrade key ecosystem services, unless climate change is aggressively mitigated. Expert assessment complements empirical data and modeling, providing a broader perspective of fire science to inform decision making and future research priorities.

KW - Biome

KW - Climate change

KW - Ecosystem services

KW - Expert assessment

KW - Fire regime

KW - Holocene

KW - Management

UR - https://www.scopus.com/pages/publications/85180260335

U2 - 10.1186/s42408-023-00237-9

DO - 10.1186/s42408-023-00237-9

M3 - Article

AN - SCOPUS:85180260335

SN - 1933-9747

VL - 20

SP - 1

EP - 22

JO - Fire Ecology

JF - Fire Ecology

IS - 1

M1 - 18

ER -

Assessing changes in global fire regimes

Abstract

Bibliographical note

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