Climate warming and deglaciation drive new peat formation in the Southern Alps, Aotearoa/New Zealand

R. E.  Fewster; G. T. Swindles; J. L. Carrivick; M. Gałka; T. P. Roland; M. McKeown; J. L. Sutherland; F.  Tweed; D. Mullan; C. Graham; A. Gallego-Sala; P. J. Morris

doi:10.1029/2024GL113786

Climate warming and deglaciation drive new peat formation in the Southern Alps, Aotearoa/New Zealand

R. E. Fewster^*, G. T. Swindles, J. L. Carrivick, M. Gałka, T. P. Roland, M. McKeown, J. L. Sutherland, F. Tweed, D. Mullan, C. Graham, A. Gallego-Sala, P. J. Morris

^*Corresponding author for this work

School of Natural and Built Environment

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Abstract

Nascent peatlands represent an emerging, nature-based carbon sink in the global climate system. A warming climate and changing precipitation regime could drive peat initiation beyond the current latitudinal and altitudinal boundaries of the peatland bioclimatic envelope, through increases in plant productivity and moisture availability, with potential implications for global radiative forcing. However, contemporaneous observations of new peat formation remain scarce. We investigate peat initiation within the deglaciating Rob Roy valley in the Southern Alps, Aotearoa/New Zealand. We find that montane peats have developed across the head of the valley since ∼1949 C.E., coinciding with regional climate warming and glacial retreat. Further, we identify a common ecological succession, characterized by a rise in brown mosses (mainly Bryum) beginning around ∼1963 C.E. Our findings indicate the potential for wider peat expansion in increasingly warm and wet montane landscapes. However, further bioclimatic modeling is required to elucidate where future peatland developments may occur.

Original language	English
Article number	e2024GL113786
Number of pages	11
Journal	Geophysical Research Letters
Volume	52
Issue number	4
Early online date	17 Feb 2025
DOIs	https://doi.org/10.1029/2024GL113786
Publication status	Published - 28 Feb 2025

Keywords

climate warming
deglaciation
new peat formation
Southern Alps
Aotearoa
New Zealand

UN SDGs

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

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Climate warming and deglaciation drive new peat formation in the Southern Alps, Aotearoa/New Zealand
Copyright 2025 The Authors. This is an open access article published under a Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
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Fewster, R. E., Swindles, G. T., Carrivick, J. L., Gałka, M., Roland, T. P., McKeown, M., Sutherland, J. L., Tweed, F., Mullan, D., Graham, C., Gallego-Sala, A., & Morris, P. J. (2025). Climate warming and deglaciation drive new peat formation in the Southern Alps, Aotearoa/New Zealand. Geophysical Research Letters, 52(4), Article e2024GL113786. https://doi.org/10.1029/2024GL113786

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title = "Climate warming and deglaciation drive new peat formation in the Southern Alps, Aotearoa/New Zealand",

abstract = "Nascent peatlands represent an emerging, nature-based carbon sink in the global climate system. A warming climate and changing precipitation regime could drive peat initiation beyond the current latitudinal and altitudinal boundaries of the peatland bioclimatic envelope, through increases in plant productivity and moisture availability, with potential implications for global radiative forcing. However, contemporaneous observations of new peat formation remain scarce. We investigate peat initiation within the deglaciating Rob Roy valley in the Southern Alps, Aotearoa/New Zealand. We find that montane peats have developed across the head of the valley since ∼1949 C.E., coinciding with regional climate warming and glacial retreat. Further, we identify a common ecological succession, characterized by a rise in brown mosses (mainly Bryum) beginning around ∼1963 C.E. Our findings indicate the potential for wider peat expansion in increasingly warm and wet montane landscapes. However, further bioclimatic modeling is required to elucidate where future peatland developments may occur.",

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AU - Fewster, R. E.

AU - Swindles, G. T.

AU - Carrivick, J. L.

AU - Gałka, M.

AU - Roland, T. P.

AU - McKeown, M.

AU - Sutherland, J. L.

AU - Tweed, F.

AU - Mullan, D.

AU - Graham, C.

AU - Gallego-Sala, A.

AU - Morris, P. J.

PY - 2025/2/28

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N2 - Nascent peatlands represent an emerging, nature-based carbon sink in the global climate system. A warming climate and changing precipitation regime could drive peat initiation beyond the current latitudinal and altitudinal boundaries of the peatland bioclimatic envelope, through increases in plant productivity and moisture availability, with potential implications for global radiative forcing. However, contemporaneous observations of new peat formation remain scarce. We investigate peat initiation within the deglaciating Rob Roy valley in the Southern Alps, Aotearoa/New Zealand. We find that montane peats have developed across the head of the valley since ∼1949 C.E., coinciding with regional climate warming and glacial retreat. Further, we identify a common ecological succession, characterized by a rise in brown mosses (mainly Bryum) beginning around ∼1963 C.E. Our findings indicate the potential for wider peat expansion in increasingly warm and wet montane landscapes. However, further bioclimatic modeling is required to elucidate where future peatland developments may occur.

AB - Nascent peatlands represent an emerging, nature-based carbon sink in the global climate system. A warming climate and changing precipitation regime could drive peat initiation beyond the current latitudinal and altitudinal boundaries of the peatland bioclimatic envelope, through increases in plant productivity and moisture availability, with potential implications for global radiative forcing. However, contemporaneous observations of new peat formation remain scarce. We investigate peat initiation within the deglaciating Rob Roy valley in the Southern Alps, Aotearoa/New Zealand. We find that montane peats have developed across the head of the valley since ∼1949 C.E., coinciding with regional climate warming and glacial retreat. Further, we identify a common ecological succession, characterized by a rise in brown mosses (mainly Bryum) beginning around ∼1963 C.E. Our findings indicate the potential for wider peat expansion in increasingly warm and wet montane landscapes. However, further bioclimatic modeling is required to elucidate where future peatland developments may occur.

KW - climate warming

KW - deglaciation

KW - new peat formation

KW - Southern Alps

KW - Aotearoa

KW - New Zealand

U2 - 10.1029/2024GL113786

DO - 10.1029/2024GL113786

M3 - Article

SN - 1944-8007

VL - 52

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 4

M1 - e2024GL113786

ER -

Climate warming and deglaciation drive new peat formation in the Southern Alps, Aotearoa/New Zealand

Abstract

Keywords

UN SDGs

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