Regional variability in peatland burning at mid-to high-latitudes during the Holocene

Thomas Sim; Graeme T Swindles; Paul J. Morris; Andy J Baird; A. V. Gallego-Sala; Yuwan Wang; Maarten Blaauw; Philip Camill; Michelle Garneau; Mark Hardiman; Julie Loisel; Minna Vӓliranta; Lysanna Anderson; Karina Apolinarska; Femke Augustijns; Liene Aunina; Joannie Beaulne; Přemysl  Bobek; Werner Borken; Nils Broothaerts; Qiao-Yu Cui; Marissa A Davies; Ana Ejarque; Michelle Farrell; Ingo Feeser; A. Feurdean; Richard E Fewster; Sarah A. Finkelstein; M-J Gaillard; Mariusz Gałka; Liam Heffernan; Renske Hoevers; Miriam Jones; Teemu  Juselius-Rajamäki; Edgar Karofeld; Klaus-Holger Knorr; A. Korhola; Dmitri Kupriyanov; Malin E Kylander; T. Lacourse; Mariusz Lamentowicz; M. Lavoie; Geoffrey Lemdahl; Dominika  Łuców; Gabriel Magnan; Alekss Maksims; C.A. Mansilla; Katarzyna Marcisz; E. Marinova; Paul J H Mathijssen; Dmitri Mauquoy; Yuri Mazei; Natalia Mazei; J. McCarroll; Robert D McCulloch; Alice Milner; Yannick Miras; Fraser J G Mitchell; Elena Novenko; Nicolas Pelletier; Matthew C Peros; S. Piilo; Louis-Martin Pilote; Guillaume Primeau; D. Rius; Vincent Robin; Mylène  Robitaille; Thomas P Roland; Eleonor Ryberg; A.B.K. Sannel; Karsten Schittek; Gabriel Servera-Vives; William Shotyk; Michał Słowiński; Normunds Stivrins; Ward Swinnen; Gareth Thompson; Alexei Tiunov; Andrey N Tsyganov; Eeva-Stiina Tuittila; Gert Verstraeten; Tuomo Wallenius; Julia Webb; Debra Willard; Zicheng Yu; Claudio Zaccone; Hui Zhang

doi:10.1016/j.quascirev.2023.108020

Regional variability in peatland burning at mid-to high-latitudes during the Holocene

Thomas Sim, Graeme T Swindles, Paul J. Morris, Andy J Baird, A. V. Gallego-Sala, Yuwan Wang, Maarten Blaauw, Philip Camill, Michelle Garneau, Mark Hardiman, Julie Loisel, Minna Vӓliranta, Lysanna Anderson, Karina Apolinarska, Femke Augustijns, Liene Aunina, Joannie Beaulne, Přemysl Bobek, Werner Borken, Nils BroothaertsQiao-Yu Cui, Marissa A Davies, Ana Ejarque, Michelle Farrell, Ingo Feeser, A. Feurdean, Richard E Fewster, Sarah A. Finkelstein, M-J Gaillard, Mariusz Gałka, Liam Heffernan, Renske Hoevers, Miriam Jones, Teemu Juselius-Rajamäki , Edgar Karofeld, Klaus-Holger Knorr, A. Korhola, Dmitri Kupriyanov, Malin E Kylander, T. Lacourse, Mariusz Lamentowicz, M. Lavoie, Geoffrey Lemdahl, Dominika Łuców, Gabriel Magnan, Alekss Maksims, C.A. Mansilla, Katarzyna Marcisz, E. Marinova, Paul J H Mathijssen, Dmitri Mauquoy, Yuri Mazei, Natalia Mazei, J. McCarroll, Robert D McCulloch, Alice Milner, Yannick Miras, Fraser J G Mitchell, Elena Novenko, Nicolas Pelletier, Matthew C Peros, S. Piilo, Louis-Martin Pilote, Guillaume Primeau, D. Rius, Vincent Robin, Mylène Robitaille, Thomas P Roland, Eleonor Ryberg, A.B.K. Sannel, Karsten Schittek, Gabriel Servera-Vives, William Shotyk, Michał Słowiński, Normunds Stivrins, Ward Swinnen, Gareth Thompson, Alexei Tiunov, Andrey N Tsyganov, Eeva-Stiina Tuittila, Gert Verstraeten, Tuomo Wallenius, Julia Webb, Debra Willard, Zicheng Yu, Claudio Zaccone, Hui Zhang

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

Abstract

Northern peatlands store globally-important amounts of carbon in the form of partly decomposed plant detritus. Drying associated with climate and land-use change may lead to increased fire frequency and severity in peatlands and the rapid loss of carbon to the atmosphere. However, our understanding of the patterns and drivers of peatland burning on an appropriate decadal to millennial timescale relies heavily on individual site-based reconstructions. For the first time, we synthesise peatland macrocharcoal records from across North America, Europe, and Patagonia to reveal regional variation in peatland burning during the Holocene. We used an existing database of proximal sedimentary charcoal to represent regional burning trends in the wider landscape for each region. Long-term trends in peatland burning appear to be largely climate driven, with human activities likely having an increasing influence in the late Holocene. Warmer conditions during the Holocene Thermal Maximum (∼9–6 cal. ka BP) were associated with greater peatland burning in North America's Atlantic coast, southern Scandinavia and the Baltics, and Patagonia. Since the Little Ice Age, peatland burning has declined across North America and in some areas of Europe. This decline is mirrored by a decrease in wider landscape burning in some, but not all sub-regions, linked to fire-suppression policies, and landscape fragmentation caused by agricultural expansion. Peatlands demonstrate lower susceptibility to burning than the wider landscape in several instances, probably because of autogenic processes that maintain high levels of near-surface wetness even during drought. Nonetheless, widespread drying and degradation of peatlands, particularly in Europe, has likely increased their vulnerability to burning in recent centuries. Consequently, peatland restoration efforts are important to mitigate the risk of peatland fire under a changing climate. Finally, we make recommendations for future research to improve our understanding of the controls on peatland fires.

Original language	English
Article number	108020
Journal	Quaternary Science Reviews
Volume	305
Early online date	11 Mar 2023
DOIs	https://doi.org/10.1016/j.quascirev.2023.108020
Publication status	Published - 1 Apr 2023

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10.1016/j.quascirev.2023.108020Licence: CC BY

Cite this

Sim, T., Swindles, G. T., Morris, P. J., Baird, A. J., Gallego-Sala, A. V., Wang, Y., Blaauw, M., Camill, P., Garneau, M., Hardiman, M., Loisel, J., Vӓliranta, M., Anderson, L., Apolinarska, K., Augustijns, F., Aunina, L., Beaulne, J., Bobek, P., Borken, W., ... Zhang, H. (2023). Regional variability in peatland burning at mid-to high-latitudes during the Holocene. Quaternary Science Reviews, 305, Article 108020. https://doi.org/10.1016/j.quascirev.2023.108020

@article{4dd2fa9e3512424492e6860dc0510453,

title = "Regional variability in peatland burning at mid-to high-latitudes during the Holocene",

abstract = "Northern peatlands store globally-important amounts of carbon in the form of partly decomposed plant detritus. Drying associated with climate and land-use change may lead to increased fire frequency and severity in peatlands and the rapid loss of carbon to the atmosphere. However, our understanding of the patterns and drivers of peatland burning on an appropriate decadal to millennial timescale relies heavily on individual site-based reconstructions. For the first time, we synthesise peatland macrocharcoal records from across North America, Europe, and Patagonia to reveal regional variation in peatland burning during the Holocene. We used an existing database of proximal sedimentary charcoal to represent regional burning trends in the wider landscape for each region. Long-term trends in peatland burning appear to be largely climate driven, with human activities likely having an increasing influence in the late Holocene. Warmer conditions during the Holocene Thermal Maximum (∼9–6 cal. ka BP) were associated with greater peatland burning in North America's Atlantic coast, southern Scandinavia and the Baltics, and Patagonia. Since the Little Ice Age, peatland burning has declined across North America and in some areas of Europe. This decline is mirrored by a decrease in wider landscape burning in some, but not all sub-regions, linked to fire-suppression policies, and landscape fragmentation caused by agricultural expansion. Peatlands demonstrate lower susceptibility to burning than the wider landscape in several instances, probably because of autogenic processes that maintain high levels of near-surface wetness even during drought. Nonetheless, widespread drying and degradation of peatlands, particularly in Europe, has likely increased their vulnerability to burning in recent centuries. Consequently, peatland restoration efforts are important to mitigate the risk of peatland fire under a changing climate. Finally, we make recommendations for future research to improve our understanding of the controls on peatland fires.",

author = "Thomas Sim and Swindles, {Graeme T} and Morris, {Paul J.} and Baird, {Andy J} and Gallego-Sala, {A. V.} and Yuwan Wang and Maarten Blaauw and Philip Camill and Michelle Garneau and Mark Hardiman and Julie Loisel and Minna Vӓliranta and Lysanna Anderson and Karina Apolinarska and Femke Augustijns and Liene Aunina and Joannie Beaulne and P{\v r}emysl Bobek and Werner Borken and Nils Broothaerts and Qiao-Yu Cui and Davies, {Marissa A} and Ana Ejarque and Michelle Farrell and Ingo Feeser and A. Feurdean and Fewster, {Richard E} and Finkelstein, {Sarah A.} and M-J Gaillard and Mariusz Ga{\l}ka and Liam Heffernan and Renske Hoevers and Miriam Jones and Teemu Juselius-Rajam{\"a}ki and Edgar Karofeld and Klaus-Holger Knorr and A. Korhola and Dmitri Kupriyanov and Kylander, {Malin E} and T. Lacourse and Mariusz Lamentowicz and M. Lavoie and Geoffrey Lemdahl and Dominika {\L}uc{\'o}w and Gabriel Magnan and Alekss Maksims and C.A. Mansilla and Katarzyna Marcisz and E. Marinova and Mathijssen, {Paul J H} and Dmitri Mauquoy and Yuri Mazei and Natalia Mazei and J. McCarroll and McCulloch, {Robert D} and Alice Milner and Yannick Miras and Mitchell, {Fraser J G} and Elena Novenko and Nicolas Pelletier and Peros, {Matthew C} and S. Piilo and Louis-Martin Pilote and Guillaume Primeau and D. Rius and Vincent Robin and Myl{\`e}ne Robitaille and Roland, {Thomas P} and Eleonor Ryberg and A.B.K. Sannel and Karsten Schittek and Gabriel Servera-Vives and William Shotyk and Micha{\l} S{\l}owi{\'n}ski and Normunds Stivrins and Ward Swinnen and Gareth Thompson and Alexei Tiunov and Tsyganov, {Andrey N} and Eeva-Stiina Tuittila and Gert Verstraeten and Tuomo Wallenius and Julia Webb and Debra Willard and Zicheng Yu and Claudio Zaccone and Hui Zhang",

year = "2023",

month = apr,

day = "1",

doi = "10.1016/j.quascirev.2023.108020",

language = "English",

volume = "305",

journal = "Quaternary Science Reviews",

issn = "0277-3791",

publisher = "Elsevier Limited",

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Sim, T, Swindles, GT, Morris, PJ, Baird, AJ, Gallego-Sala, AV, Wang, Y, Blaauw, M, Camill, P, Garneau, M, Hardiman, M, Loisel, J, Vӓliranta, M, Anderson, L, Apolinarska, K, Augustijns, F, Aunina, L, Beaulne, J, Bobek, P, Borken, W, Broothaerts, N, Cui, Q-Y, Davies, MA, Ejarque, A, Farrell, M, Feeser, I, Feurdean, A, Fewster, RE, Finkelstein, SA, Gaillard, M-J, Gałka, M, Heffernan, L, Hoevers, R, Jones, M, Juselius-Rajamäki , T, Karofeld, E, Knorr, K-H, Korhola, A, Kupriyanov, D, Kylander, ME, Lacourse, T, Lamentowicz, M, Lavoie, M, Lemdahl, G, Łuców, D, Magnan, G, Maksims, A, Mansilla, CA, Marcisz, K, Marinova, E, Mathijssen, PJH, Mauquoy, D, Mazei, Y, Mazei, N, McCarroll, J, McCulloch, RD, Milner, A, Miras, Y, Mitchell, FJG, Novenko, E, Pelletier, N, Peros, MC, Piilo, S, Pilote, L-M, Primeau, G, Rius, D, Robin, V, Robitaille, M, Roland, TP, Ryberg, E, Sannel, ABK, Schittek, K, Servera-Vives, G, Shotyk, W, Słowiński, M, Stivrins, N, Swinnen, W, Thompson, G, Tiunov, A, Tsyganov, AN, Tuittila, E-S, Verstraeten, G, Wallenius, T, Webb, J, Willard, D, Yu, Z, Zaccone, C & Zhang, H 2023, 'Regional variability in peatland burning at mid-to high-latitudes during the Holocene', Quaternary Science Reviews, vol. 305, 108020. https://doi.org/10.1016/j.quascirev.2023.108020

TY - JOUR

T1 - Regional variability in peatland burning at mid-to high-latitudes during the Holocene

AU - Sim, Thomas

AU - Swindles, Graeme T

AU - Morris, Paul J.

AU - Baird, Andy J

AU - Gallego-Sala, A. V.

AU - Wang, Yuwan

AU - Blaauw, Maarten

AU - Camill, Philip

AU - Garneau, Michelle

AU - Hardiman, Mark

AU - Loisel, Julie

AU - Vӓliranta, Minna

AU - Anderson, Lysanna

AU - Apolinarska, Karina

AU - Augustijns, Femke

AU - Aunina, Liene

AU - Beaulne, Joannie

AU - Bobek, Přemysl

AU - Borken, Werner

AU - Broothaerts, Nils

AU - Cui, Qiao-Yu

AU - Davies, Marissa A

AU - Ejarque, Ana

AU - Farrell, Michelle

AU - Feeser, Ingo

AU - Feurdean, A.

AU - Fewster, Richard E

AU - Finkelstein, Sarah A.

AU - Gaillard, M-J

AU - Gałka, Mariusz

AU - Heffernan, Liam

AU - Hoevers, Renske

AU - Jones, Miriam

AU - Juselius-Rajamäki , Teemu

AU - Karofeld, Edgar

AU - Knorr, Klaus-Holger

AU - Korhola, A.

AU - Kupriyanov, Dmitri

AU - Kylander, Malin E

AU - Lacourse, T.

AU - Lamentowicz, Mariusz

AU - Lavoie, M.

AU - Lemdahl, Geoffrey

AU - Łuców, Dominika

AU - Magnan, Gabriel

AU - Maksims, Alekss

AU - Mansilla, C.A.

AU - Marcisz, Katarzyna

AU - Marinova, E.

AU - Mathijssen, Paul J H

AU - Mauquoy, Dmitri

AU - Mazei, Yuri

AU - Mazei, Natalia

AU - McCarroll, J.

AU - McCulloch, Robert D

AU - Milner, Alice

AU - Miras, Yannick

AU - Mitchell, Fraser J G

AU - Novenko, Elena

AU - Pelletier, Nicolas

AU - Peros, Matthew C

AU - Piilo, S.

AU - Pilote, Louis-Martin

AU - Primeau, Guillaume

AU - Rius, D.

AU - Robin, Vincent

AU - Robitaille, Mylène

AU - Roland, Thomas P

AU - Ryberg, Eleonor

AU - Sannel, A.B.K.

AU - Schittek, Karsten

AU - Servera-Vives, Gabriel

AU - Shotyk, William

AU - Słowiński, Michał

AU - Stivrins, Normunds

AU - Swinnen, Ward

AU - Thompson, Gareth

AU - Tiunov, Alexei

AU - Tsyganov, Andrey N

AU - Tuittila, Eeva-Stiina

AU - Verstraeten, Gert

AU - Wallenius, Tuomo

AU - Webb, Julia

AU - Willard, Debra

AU - Yu, Zicheng

AU - Zaccone, Claudio

AU - Zhang, Hui

PY - 2023/4/1

Y1 - 2023/4/1

N2 - Northern peatlands store globally-important amounts of carbon in the form of partly decomposed plant detritus. Drying associated with climate and land-use change may lead to increased fire frequency and severity in peatlands and the rapid loss of carbon to the atmosphere. However, our understanding of the patterns and drivers of peatland burning on an appropriate decadal to millennial timescale relies heavily on individual site-based reconstructions. For the first time, we synthesise peatland macrocharcoal records from across North America, Europe, and Patagonia to reveal regional variation in peatland burning during the Holocene. We used an existing database of proximal sedimentary charcoal to represent regional burning trends in the wider landscape for each region. Long-term trends in peatland burning appear to be largely climate driven, with human activities likely having an increasing influence in the late Holocene. Warmer conditions during the Holocene Thermal Maximum (∼9–6 cal. ka BP) were associated with greater peatland burning in North America's Atlantic coast, southern Scandinavia and the Baltics, and Patagonia. Since the Little Ice Age, peatland burning has declined across North America and in some areas of Europe. This decline is mirrored by a decrease in wider landscape burning in some, but not all sub-regions, linked to fire-suppression policies, and landscape fragmentation caused by agricultural expansion. Peatlands demonstrate lower susceptibility to burning than the wider landscape in several instances, probably because of autogenic processes that maintain high levels of near-surface wetness even during drought. Nonetheless, widespread drying and degradation of peatlands, particularly in Europe, has likely increased their vulnerability to burning in recent centuries. Consequently, peatland restoration efforts are important to mitigate the risk of peatland fire under a changing climate. Finally, we make recommendations for future research to improve our understanding of the controls on peatland fires.

AB - Northern peatlands store globally-important amounts of carbon in the form of partly decomposed plant detritus. Drying associated with climate and land-use change may lead to increased fire frequency and severity in peatlands and the rapid loss of carbon to the atmosphere. However, our understanding of the patterns and drivers of peatland burning on an appropriate decadal to millennial timescale relies heavily on individual site-based reconstructions. For the first time, we synthesise peatland macrocharcoal records from across North America, Europe, and Patagonia to reveal regional variation in peatland burning during the Holocene. We used an existing database of proximal sedimentary charcoal to represent regional burning trends in the wider landscape for each region. Long-term trends in peatland burning appear to be largely climate driven, with human activities likely having an increasing influence in the late Holocene. Warmer conditions during the Holocene Thermal Maximum (∼9–6 cal. ka BP) were associated with greater peatland burning in North America's Atlantic coast, southern Scandinavia and the Baltics, and Patagonia. Since the Little Ice Age, peatland burning has declined across North America and in some areas of Europe. This decline is mirrored by a decrease in wider landscape burning in some, but not all sub-regions, linked to fire-suppression policies, and landscape fragmentation caused by agricultural expansion. Peatlands demonstrate lower susceptibility to burning than the wider landscape in several instances, probably because of autogenic processes that maintain high levels of near-surface wetness even during drought. Nonetheless, widespread drying and degradation of peatlands, particularly in Europe, has likely increased their vulnerability to burning in recent centuries. Consequently, peatland restoration efforts are important to mitigate the risk of peatland fire under a changing climate. Finally, we make recommendations for future research to improve our understanding of the controls on peatland fires.

U2 - 10.1016/j.quascirev.2023.108020

DO - 10.1016/j.quascirev.2023.108020

M3 - Article

SN - 0277-3791

VL - 305

JO - Quaternary Science Reviews

JF - Quaternary Science Reviews

M1 - 108020

ER -