Spatiotemporal Synchrony of Climate and Fire Occurrence Across North American Forests (1750–1880)

Ellis Margolis; Andreas Wion; John Abatzoglou; Lori Daniels; Donald Falk; Chris Guiterman; James Johnston; Kurt Kipfmueller; Charles Lafon; Rachel Loehman; Maggie Lonergan; Cameron Naficy; Marc André Parisien; Sean Parks; Jeanne Portier; Michael Stambaugh; Ellen Whitman; A. Park Williams; Larissa Yocom

doi:10.1111/geb.13937

Spatiotemporal Synchrony of Climate and Fire Occurrence Across North American Forests (1750–1880)

Ellis Margolis, Andreas Wion, John Abatzoglou, Lori Daniels, Donald Falk, Chris Guiterman, James Johnston, Kurt Kipfmueller, Charles Lafon, Rachel Loehman, Maggie Lonergan, Cameron Naficy, Marc André Parisien, Sean Parks, Jeanne Portier, Michael Stambaugh, Ellen Whitman, A. Park Williams, Larissa Yocom

Geography, Environment and Society

Research output: Contribution to journal › Article › peer-review

Abstract

Aim: Increasing aridity has driven widespread synchronous fire occurrence in recent decades across North America. The lack of historical (pre-1880) fire records limits our ability to understand long-term continental fire-climate dynamics. The goal of this study is to use tree-ring reconstructions to determine the relationships between spatiotemporal patterns in historical climate and widespread fire occurrence in North American forests, and whether they are stable through time. This information will address a major knowledge gap required to inform projections of future fire. Location: North American Forests. Time Period: 1750–1880 CE. Major Taxa Studied: Trees. Methods: We applied regionalisation methods to tree-ring reconstructions of historical summer soil moisture and annual fire occurrence to independently identify broad- and fine-scale climate and fire regions based on common inter-annual variability. We then tested whether the regions were stable through time and for spatial correspondence between the climate and fire regions. Last, we used correlation analysis to quantify the strength of the fire-climate associations through time. Results: We found that broad-scale historical patterns in climate and fire have strong spatial coherence. Although climate and fire regions vary over time, large core areas of the regions were stable. The association between climate and fire varied through time and was strongest in western North America, likely due to a combination of factors, such as the magnitude of drought frequency and severity, as well as varying use of fire by human communities. Main Conclusions: The historical perspective gained through tree-ring reconstructions of climate and fire patterns and their association suggests that climate-driven synchrony of fire across large areas of the continent in recent decades is not unprecedented, will likely continue into the future, and may exhibit similar spatial patterns.

Original language	English (US)
Article number	e13937
Journal	Global Ecology and Biogeography
Volume	34
Issue number	1
DOIs	https://doi.org/10.1111/geb.13937
State	Published - Jan 2025

Bibliographical note

Publisher Copyright:
© 2025 His Majesty the King in Right of Canada and The Author(s). Global Ecology and Biogeography published by John Wiley & Sons Ltd. Reproduced with the permission of the Minister of Natural Resources Canada. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

Keywords

climate
fire
fire scar
regionalisation
synchrony
tree ring

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10.1111/geb.13937

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Margolis, E., Wion, A., Abatzoglou, J., Daniels, L., Falk, D., Guiterman, C., Johnston, J., Kipfmueller, K., Lafon, C., Loehman, R., Lonergan, M., Naficy, C., Parisien, M. A., Parks, S., Portier, J., Stambaugh, M., Whitman, E., Williams, A. P., & Yocom, L. (2025). Spatiotemporal Synchrony of Climate and Fire Occurrence Across North American Forests (1750–1880). Global Ecology and Biogeography, 34(1), Article e13937. https://doi.org/10.1111/geb.13937

Margolis, E, Wion, A, Abatzoglou, J, Daniels, L, Falk, D, Guiterman, C, Johnston, J, Kipfmueller, K, Lafon, C, Loehman, R, Lonergan, M, Naficy, C, Parisien, MA, Parks, S, Portier, J, Stambaugh, M, Whitman, E, Williams, AP & Yocom, L 2025, 'Spatiotemporal Synchrony of Climate and Fire Occurrence Across North American Forests (1750–1880)', Global Ecology and Biogeography, vol. 34, no. 1, e13937. https://doi.org/10.1111/geb.13937

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title = "Spatiotemporal Synchrony of Climate and Fire Occurrence Across North American Forests (1750–1880)",

abstract = "Aim: Increasing aridity has driven widespread synchronous fire occurrence in recent decades across North America. The lack of historical (pre-1880) fire records limits our ability to understand long-term continental fire-climate dynamics. The goal of this study is to use tree-ring reconstructions to determine the relationships between spatiotemporal patterns in historical climate and widespread fire occurrence in North American forests, and whether they are stable through time. This information will address a major knowledge gap required to inform projections of future fire. Location: North American Forests. Time Period: 1750–1880 CE. Major Taxa Studied: Trees. Methods: We applied regionalisation methods to tree-ring reconstructions of historical summer soil moisture and annual fire occurrence to independently identify broad- and fine-scale climate and fire regions based on common inter-annual variability. We then tested whether the regions were stable through time and for spatial correspondence between the climate and fire regions. Last, we used correlation analysis to quantify the strength of the fire-climate associations through time. Results: We found that broad-scale historical patterns in climate and fire have strong spatial coherence. Although climate and fire regions vary over time, large core areas of the regions were stable. The association between climate and fire varied through time and was strongest in western North America, likely due to a combination of factors, such as the magnitude of drought frequency and severity, as well as varying use of fire by human communities. Main Conclusions: The historical perspective gained through tree-ring reconstructions of climate and fire patterns and their association suggests that climate-driven synchrony of fire across large areas of the continent in recent decades is not unprecedented, will likely continue into the future, and may exhibit similar spatial patterns.",

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author = "Ellis Margolis and Andreas Wion and John Abatzoglou and Lori Daniels and Donald Falk and Chris Guiterman and James Johnston and Kurt Kipfmueller and Charles Lafon and Rachel Loehman and Maggie Lonergan and Cameron Naficy and Parisien, {Marc Andr{\'e}} and Sean Parks and Jeanne Portier and Michael Stambaugh and Ellen Whitman and Williams, {A. Park} and Larissa Yocom",

note = "Publisher Copyright: {\textcopyright} 2025 His Majesty the King in Right of Canada and The Author(s). Global Ecology and Biogeography published by John Wiley & Sons Ltd. Reproduced with the permission of the Minister of Natural Resources Canada. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.",

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T1 - Spatiotemporal Synchrony of Climate and Fire Occurrence Across North American Forests (1750–1880)

AU - Margolis, Ellis

AU - Wion, Andreas

AU - Abatzoglou, John

AU - Daniels, Lori

AU - Falk, Donald

AU - Guiterman, Chris

AU - Johnston, James

AU - Kipfmueller, Kurt

AU - Lafon, Charles

AU - Loehman, Rachel

AU - Lonergan, Maggie

AU - Naficy, Cameron

AU - Parisien, Marc André

AU - Parks, Sean

AU - Portier, Jeanne

AU - Stambaugh, Michael

AU - Whitman, Ellen

AU - Williams, A. Park

AU - Yocom, Larissa

N1 - Publisher Copyright: © 2025 His Majesty the King in Right of Canada and The Author(s). Global Ecology and Biogeography published by John Wiley & Sons Ltd. Reproduced with the permission of the Minister of Natural Resources Canada. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

PY - 2025/1

Y1 - 2025/1

N2 - Aim: Increasing aridity has driven widespread synchronous fire occurrence in recent decades across North America. The lack of historical (pre-1880) fire records limits our ability to understand long-term continental fire-climate dynamics. The goal of this study is to use tree-ring reconstructions to determine the relationships between spatiotemporal patterns in historical climate and widespread fire occurrence in North American forests, and whether they are stable through time. This information will address a major knowledge gap required to inform projections of future fire. Location: North American Forests. Time Period: 1750–1880 CE. Major Taxa Studied: Trees. Methods: We applied regionalisation methods to tree-ring reconstructions of historical summer soil moisture and annual fire occurrence to independently identify broad- and fine-scale climate and fire regions based on common inter-annual variability. We then tested whether the regions were stable through time and for spatial correspondence between the climate and fire regions. Last, we used correlation analysis to quantify the strength of the fire-climate associations through time. Results: We found that broad-scale historical patterns in climate and fire have strong spatial coherence. Although climate and fire regions vary over time, large core areas of the regions were stable. The association between climate and fire varied through time and was strongest in western North America, likely due to a combination of factors, such as the magnitude of drought frequency and severity, as well as varying use of fire by human communities. Main Conclusions: The historical perspective gained through tree-ring reconstructions of climate and fire patterns and their association suggests that climate-driven synchrony of fire across large areas of the continent in recent decades is not unprecedented, will likely continue into the future, and may exhibit similar spatial patterns.

AB - Aim: Increasing aridity has driven widespread synchronous fire occurrence in recent decades across North America. The lack of historical (pre-1880) fire records limits our ability to understand long-term continental fire-climate dynamics. The goal of this study is to use tree-ring reconstructions to determine the relationships between spatiotemporal patterns in historical climate and widespread fire occurrence in North American forests, and whether they are stable through time. This information will address a major knowledge gap required to inform projections of future fire. Location: North American Forests. Time Period: 1750–1880 CE. Major Taxa Studied: Trees. Methods: We applied regionalisation methods to tree-ring reconstructions of historical summer soil moisture and annual fire occurrence to independently identify broad- and fine-scale climate and fire regions based on common inter-annual variability. We then tested whether the regions were stable through time and for spatial correspondence between the climate and fire regions. Last, we used correlation analysis to quantify the strength of the fire-climate associations through time. Results: We found that broad-scale historical patterns in climate and fire have strong spatial coherence. Although climate and fire regions vary over time, large core areas of the regions were stable. The association between climate and fire varied through time and was strongest in western North America, likely due to a combination of factors, such as the magnitude of drought frequency and severity, as well as varying use of fire by human communities. Main Conclusions: The historical perspective gained through tree-ring reconstructions of climate and fire patterns and their association suggests that climate-driven synchrony of fire across large areas of the continent in recent decades is not unprecedented, will likely continue into the future, and may exhibit similar spatial patterns.

KW - climate

KW - fire

KW - fire scar

KW - regionalisation

KW - synchrony

KW - tree ring

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Spatiotemporal Synchrony of Climate and Fire Occurrence Across North American Forests (1750–1880)

Abstract

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Keywords

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