Arctic speleothems reveal nearly permafrost-free Northern Hemisphere in the late Miocene

Anton Vaks; Andrew Mason; Sebastian F. M. Breitenbach; Alena Giesche; Alexander V. Osinzev; Irina Adrian; Aleksandr Kononov; Stuart Umbo; Franziska A. Lechleitner; Marcelo Rosensaft; Gideon M. Henderson

doi:10.1038/s41467-025-60381-5

Arctic speleothems reveal nearly permafrost-free Northern Hemisphere in the late Miocene

Anton Vaks, Andrew Mason, Sebastian F. M. Breitenbach^*, Alena Giesche, Alexander V. Osinzev, Irina Adrian, Aleksandr Kononov, Stuart Umbo, Franziska A. Lechleitner, Marcelo Rosensaft, Gideon M. Henderson

^*Corresponding author for this work

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

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Abstract

Arctic warming is happening at nearly four times the global average rate. Long-term trends of permafrost dynamics cannot be estimated directly from monitoring of present-day thaw processes, requiring paleoclimate-proxy information. Here we use cave carbonates (speleothems) from a northern Siberian cave to determine when the Northern Hemisphere was mostly permafrost-free. At present, thick continuous permafrost in this region prevents speleothem growth. In a series of partially eroded caves, speleothems grew during the late Tortonian stage (8.68 ± 0.09 Ma), a time when the geographic position of this site was already similar to today. Paleotemperatures reconstructed from speleothems show that mean annual air temperatures (MAAT) in the region were + 6.6°C to + 11.1°C, when contemporary global MAAT were ~ 4.5 °C higher than modern. Our findings provide direct evidence that warming to Tortonian-like temperatures would leave most of the Northern Hemisphere permafrost-free. This may release up to ~ 130 petagrams of carbon, enhancing further warming.

Original language	English
Article number	5483
Number of pages	13
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-60381-5
Publication status	Published - 1 Jul 2025

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Vaks_et_al_Manuscript_acceptedAccepted author manuscript, 3.96 MBLicence: CC BY
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title = "Arctic speleothems reveal nearly permafrost-free Northern Hemisphere in the late Miocene",

abstract = "Arctic warming is happening at nearly four times the global average rate. Long-term trends of permafrost dynamics cannot be estimated directly from monitoring of present-day thaw processes, requiring paleoclimate-proxy information. Here we use cave carbonates (speleothems) from a northern Siberian cave to determine when the Northern Hemisphere was mostly permafrost-free. At present, thick continuous permafrost in this region prevents speleothem growth. In a series of partially eroded caves, speleothems grew during the late Tortonian stage (8.68 ± 0.09 Ma), a time when the geographic position of this site was already similar to today. Paleotemperatures reconstructed from speleothems show that mean annual air temperatures (MAAT) in the region were + 6.6°C to + 11.1°C, when contemporary global MAAT were \textasciitilde{} 4.5 °C higher than modern. Our findings provide direct evidence that warming to Tortonian-like temperatures would leave most of the Northern Hemisphere permafrost-free. This may release up to \textasciitilde{} 130 petagrams of carbon, enhancing further warming.",

author = "Anton Vaks and Andrew Mason and Breitenbach, \{Sebastian F. M.\} and Alena Giesche and Osinzev, \{Alexander V.\} and Irina Adrian and Aleksandr Kononov and Stuart Umbo and Lechleitner, \{Franziska A.\} and Marcelo Rosensaft and Henderson, \{Gideon M.\}",

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T1 - Arctic speleothems reveal nearly permafrost-free Northern Hemisphere in the late Miocene

AU - Vaks, Anton

AU - Mason, Andrew

AU - Breitenbach, Sebastian F. M.

AU - Giesche, Alena

AU - Osinzev, Alexander V.

AU - Adrian, Irina

AU - Kononov, Aleksandr

AU - Umbo, Stuart

AU - Lechleitner, Franziska A.

AU - Rosensaft, Marcelo

AU - Henderson, Gideon M.

PY - 2025/7/1

Y1 - 2025/7/1

N2 - Arctic warming is happening at nearly four times the global average rate. Long-term trends of permafrost dynamics cannot be estimated directly from monitoring of present-day thaw processes, requiring paleoclimate-proxy information. Here we use cave carbonates (speleothems) from a northern Siberian cave to determine when the Northern Hemisphere was mostly permafrost-free. At present, thick continuous permafrost in this region prevents speleothem growth. In a series of partially eroded caves, speleothems grew during the late Tortonian stage (8.68 ± 0.09 Ma), a time when the geographic position of this site was already similar to today. Paleotemperatures reconstructed from speleothems show that mean annual air temperatures (MAAT) in the region were + 6.6°C to + 11.1°C, when contemporary global MAAT were ~ 4.5 °C higher than modern. Our findings provide direct evidence that warming to Tortonian-like temperatures would leave most of the Northern Hemisphere permafrost-free. This may release up to ~ 130 petagrams of carbon, enhancing further warming.

AB - Arctic warming is happening at nearly four times the global average rate. Long-term trends of permafrost dynamics cannot be estimated directly from monitoring of present-day thaw processes, requiring paleoclimate-proxy information. Here we use cave carbonates (speleothems) from a northern Siberian cave to determine when the Northern Hemisphere was mostly permafrost-free. At present, thick continuous permafrost in this region prevents speleothem growth. In a series of partially eroded caves, speleothems grew during the late Tortonian stage (8.68 ± 0.09 Ma), a time when the geographic position of this site was already similar to today. Paleotemperatures reconstructed from speleothems show that mean annual air temperatures (MAAT) in the region were + 6.6°C to + 11.1°C, when contemporary global MAAT were ~ 4.5 °C higher than modern. Our findings provide direct evidence that warming to Tortonian-like temperatures would leave most of the Northern Hemisphere permafrost-free. This may release up to ~ 130 petagrams of carbon, enhancing further warming.

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DO - 10.1038/s41467-025-60381-5

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VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

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ER -

Arctic speleothems reveal nearly permafrost-free Northern Hemisphere in the late Miocene

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