Warming of northern peatlands increases the global temperature overshoot challenge

Biqing Zhu; Chunjing Qiu; Thomas Gasser; Philippe Ciais; Robin D. Lamboll; Ashley Ballantyne; Jinfeng Chang; Nitin Chaudhary; Angela V. Gallego-Sala; Bertrand Guenet; Joseph Holden; Fortunat Joos; Thomas Kleinen; Min Jung Kwon; Irina Melnikova; Jurek Müller; Susan Page; Elodie Salmon; Carl Friedrich Schleussner; Guy Schurgers; Gaurav P. Shrivastav; Narasinha J. Shurpali; Katsumasa Tanaka; David Wårlind; Sebastian Westermann; Yi Xi; Wenxin Zhang; Yuan Zhang; Dan Zhu

doi:10.1016/j.oneear.2025.101353

Warming of northern peatlands increases the global temperature overshoot challenge

Biqing Zhu^*
, Chunjing Qiu^*
, Thomas Gasser
, Philippe Ciais
, Robin D. Lamboll
, Ashley Ballantyne
, Jinfeng Chang
, Nitin Chaudhary
, Angela V. Gallego-Sala
, Bertrand Guenet
, Joseph Holden
, Fortunat Joos
, Thomas Kleinen
, Min Jung Kwon
, Irina Melnikova
, Jurek Müller
, Susan Page
, Elodie Salmon
, Carl Friedrich Schleussner
, Guy Schurgers

Gaurav P. Shrivastav, Narasinha J. Shurpali, Katsumasa Tanaka, David Wårlind, Sebastian Westermann, Yi Xi, Wenxin Zhang, Yuan Zhang, Dan Zhu

^*Corresponding author for this work

School of Ecology and Environmental Sciences

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

Abstract

Meeting the Paris Agreement's temperature goals requires limiting future carbon emissions, yet current policies make temporarily overshooting the 1.5°C target likely. The potential climate feedback from destabilizing peatlands, storing large amounts of carbon, remains poorly quantified. Using the reduced-complexity Earth System Model OSCAR with an integrated peat carbon module, we found that across various overshoot pathways that temporarily exceed 1.5°C–2.5°C, northern peatlands exhibit net positive feedback, amplifying the overshoot challenge. Warming increases peatlands’ net carbon uptake, but this is largely offset by higher methane emissions. We estimated that for each 1°C increase in peak warming, the positive feedback from peatlands decreases the remaining carbon budget by 37 GtCO₂ (22–48 GtCO₂). If the 1.5°C temperature target is exceeded, peatlands would increase carbon removal requirement by about 40 GtCO₂ (16–60 GtCO₂) (8.6%). Our findings highlight the importance of properly accounting for northern peatlands for estimating climate feedbacks, especially under overshoot scenarios.

Original language	English
Article number	101353
Journal	One Earth
Volume	8
Issue number	8
DOIs	https://doi.org/10.1016/j.oneear.2025.101353
State	Published - 15 Aug 2025

Keywords

carbon
climate change
greenhouse gases
land surface model
northern peatlands
overshoot
reduced-complexity earth system model
temperature feedback

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.oneear.2025.101353

Cite this

Zhu, B., Qiu, C., Gasser, T., Ciais, P., Lamboll, R. D., Ballantyne, A., Chang, J., Chaudhary, N., Gallego-Sala, A. V., Guenet, B., Holden, J., Joos, F., Kleinen, T., Kwon, M. J., Melnikova, I., Müller, J., Page, S., Salmon, E., Schleussner, C. F., ... Zhu, D. (2025). Warming of northern peatlands increases the global temperature overshoot challenge. One Earth, 8(8), Article 101353. https://doi.org/10.1016/j.oneear.2025.101353

@article{203cce88722b4e17913981400f586a92,

title = "Warming of northern peatlands increases the global temperature overshoot challenge",

abstract = "Meeting the Paris Agreement's temperature goals requires limiting future carbon emissions, yet current policies make temporarily overshooting the 1.5°C target likely. The potential climate feedback from destabilizing peatlands, storing large amounts of carbon, remains poorly quantified. Using the reduced-complexity Earth System Model OSCAR with an integrated peat carbon module, we found that across various overshoot pathways that temporarily exceed 1.5°C–2.5°C, northern peatlands exhibit net positive feedback, amplifying the overshoot challenge. Warming increases peatlands{\textquoteright} net carbon uptake, but this is largely offset by higher methane emissions. We estimated that for each 1°C increase in peak warming, the positive feedback from peatlands decreases the remaining carbon budget by 37 GtCO2 (22–48 GtCO2). If the 1.5°C temperature target is exceeded, peatlands would increase carbon removal requirement by about 40 GtCO2 (16–60 GtCO2) (8.6\%). Our findings highlight the importance of properly accounting for northern peatlands for estimating climate feedbacks, especially under overshoot scenarios.",

keywords = "carbon, climate change, greenhouse gases, land surface model, northern peatlands, overshoot, reduced-complexity earth system model, temperature feedback",

author = "Biqing Zhu and Chunjing Qiu and Thomas Gasser and Philippe Ciais and Lamboll, \{Robin D.\} and Ashley Ballantyne and Jinfeng Chang and Nitin Chaudhary and Gallego-Sala, \{Angela V.\} and Bertrand Guenet and Joseph Holden and Fortunat Joos and Thomas Kleinen and Kwon, \{Min Jung\} and Irina Melnikova and Jurek M{\"u}ller and Susan Page and Elodie Salmon and Schleussner, \{Carl Friedrich\} and Guy Schurgers and Shrivastav, \{Gaurav P.\} and Shurpali, \{Narasinha J.\} and Katsumasa Tanaka and David W{\aa}rlind and Sebastian Westermann and Yi Xi and Wenxin Zhang and Yuan Zhang and Dan Zhu",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = aug,

day = "15",

doi = "10.1016/j.oneear.2025.101353",

language = "英语",

volume = "8",

journal = "One Earth",

issn = "2590-3330",

publisher = "Cell Press",

number = "8",

}

Zhu, B, Qiu, C, Gasser, T, Ciais, P, Lamboll, RD, Ballantyne, A, Chang, J, Chaudhary, N, Gallego-Sala, AV, Guenet, B, Holden, J, Joos, F, Kleinen, T, Kwon, MJ, Melnikova, I, Müller, J, Page, S, Salmon, E, Schleussner, CF, Schurgers, G, Shrivastav, GP, Shurpali, NJ, Tanaka, K, Wårlind, D, Westermann, S, Xi, Y, Zhang, W, Zhang, Y & Zhu, D 2025, 'Warming of northern peatlands increases the global temperature overshoot challenge', One Earth, vol. 8, no. 8, 101353. https://doi.org/10.1016/j.oneear.2025.101353

TY - JOUR

T1 - Warming of northern peatlands increases the global temperature overshoot challenge

AU - Zhu, Biqing

AU - Qiu, Chunjing

AU - Gasser, Thomas

AU - Ciais, Philippe

AU - Lamboll, Robin D.

AU - Ballantyne, Ashley

AU - Chang, Jinfeng

AU - Chaudhary, Nitin

AU - Gallego-Sala, Angela V.

AU - Guenet, Bertrand

AU - Holden, Joseph

AU - Joos, Fortunat

AU - Kleinen, Thomas

AU - Kwon, Min Jung

AU - Melnikova, Irina

AU - Müller, Jurek

AU - Page, Susan

AU - Salmon, Elodie

AU - Schleussner, Carl Friedrich

AU - Schurgers, Guy

AU - Shrivastav, Gaurav P.

AU - Shurpali, Narasinha J.

AU - Tanaka, Katsumasa

AU - Wårlind, David

AU - Westermann, Sebastian

AU - Xi, Yi

AU - Zhang, Wenxin

AU - Zhang, Yuan

AU - Zhu, Dan

PY - 2025/8/15

Y1 - 2025/8/15

N2 - Meeting the Paris Agreement's temperature goals requires limiting future carbon emissions, yet current policies make temporarily overshooting the 1.5°C target likely. The potential climate feedback from destabilizing peatlands, storing large amounts of carbon, remains poorly quantified. Using the reduced-complexity Earth System Model OSCAR with an integrated peat carbon module, we found that across various overshoot pathways that temporarily exceed 1.5°C–2.5°C, northern peatlands exhibit net positive feedback, amplifying the overshoot challenge. Warming increases peatlands’ net carbon uptake, but this is largely offset by higher methane emissions. We estimated that for each 1°C increase in peak warming, the positive feedback from peatlands decreases the remaining carbon budget by 37 GtCO2 (22–48 GtCO2). If the 1.5°C temperature target is exceeded, peatlands would increase carbon removal requirement by about 40 GtCO2 (16–60 GtCO2) (8.6%). Our findings highlight the importance of properly accounting for northern peatlands for estimating climate feedbacks, especially under overshoot scenarios.

AB - Meeting the Paris Agreement's temperature goals requires limiting future carbon emissions, yet current policies make temporarily overshooting the 1.5°C target likely. The potential climate feedback from destabilizing peatlands, storing large amounts of carbon, remains poorly quantified. Using the reduced-complexity Earth System Model OSCAR with an integrated peat carbon module, we found that across various overshoot pathways that temporarily exceed 1.5°C–2.5°C, northern peatlands exhibit net positive feedback, amplifying the overshoot challenge. Warming increases peatlands’ net carbon uptake, but this is largely offset by higher methane emissions. We estimated that for each 1°C increase in peak warming, the positive feedback from peatlands decreases the remaining carbon budget by 37 GtCO2 (22–48 GtCO2). If the 1.5°C temperature target is exceeded, peatlands would increase carbon removal requirement by about 40 GtCO2 (16–60 GtCO2) (8.6%). Our findings highlight the importance of properly accounting for northern peatlands for estimating climate feedbacks, especially under overshoot scenarios.

KW - carbon

KW - climate change

KW - greenhouse gases

KW - land surface model

KW - northern peatlands

KW - overshoot

KW - reduced-complexity earth system model

KW - temperature feedback

UR - https://www.scopus.com/pages/publications/105009646126

U2 - 10.1016/j.oneear.2025.101353

DO - 10.1016/j.oneear.2025.101353

M3 - 文章

AN - SCOPUS:105009646126

SN - 2590-3330

VL - 8

JO - One Earth

JF - One Earth

IS - 8

M1 - 101353

ER -

Warming of northern peatlands increases the global temperature overshoot challenge

Abstract

Keywords

UN SDGs

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