Absence of Elevation-Dependent Warming in Antarctica Inferred From Blue Ice Paleoclimate Records

Etienne Legrain; Veronica Tollenaar; Steven Goderis; Lisa Ardoin; Pierre Henri Blard; Philippe Claeys; Raúl R. Cordero; Vinciane Debaille; François Fripiat; Philippe Huybrechts; Naoya Imae; Maaike Izeboud; Frank Pattyn; Hamed Pourkhorsandi; Julien Seguinot; Naoki Shirai; Marijke Vancappellen; Matthias Van Ginneken; Sarah Wauthy; Akira Yamaguchi; Mehmet Yesiltas; Harry Zekollari

doi:10.1029/2024GL113165

Absence of Elevation-Dependent Warming in Antarctica Inferred From Blue Ice Paleoclimate Records

Etienne Legrain, Veronica Tollenaar, Steven Goderis, Lisa Ardoin, Pierre Henri Blard, Philippe Claeys, Raúl R. Cordero, Vinciane Debaille, François Fripiat, Philippe Huybrechts, Naoya Imae, Maaike Izeboud, Frank Pattyn, Hamed Pourkhorsandi, Julien Seguinot, Naoki Shirai, Marijke Vancappellen, Matthias Van Ginneken, Sarah Wauthy, Akira YamaguchiMehmet Yesiltas, Harry Zekollari

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

Abstract

Reconstructing the past Antarctic climate commonly involves deep drilling of ice cores. However, the ∼1% of the Antarctic ice sheet surface covered with blue ice also provides unique, yet largely unexploited paleoclimatic opportunities. Here, we analyze 444 ice samples collected in blue ice surfaces located around the Sør Rondane Mountains. Isotope measurements (δ¹⁸O) on these samples enable us to estimate surface paleotemperatures for both the current interglacial period and the Last Glacial Maximum. Combining these paleotemperatures with the spatially varying source elevation of the sampled blue ice provides new insights on the (lack of) lapse rate evolution (i.e., changes in the elevation-temperature relationship) outside the 40°N–40°S latitudinal band. This result contrasts with low-latitude areas that have experienced elevation-dependent warming (EDW) during this period. Our results hint at a future (lack of) EDW in Antarctica, thereby highlighting the potential of blue ice area paleoclimatic archives to better predict future climatic changes.

Original language	English
Article number	e2024GL113165
Pages (from-to)	1-11
Number of pages	12
Journal	Geophysical Research Letters
Volume	52
Issue number	9
DOIs	https://doi.org/10.1029/2024GL113165
Publication status	Published - 16 May 2025

Bibliographical note

Publisher Copyright:
© 2025. The Author(s).

Keywords

Antarctica
blue ice
elevation-dependant warming
ice isotopes
lapse rate
last glacial maximum

Access to Document

10.1029/2024GL113165Licence: CC BY-ND

Cite this

Legrain, E., Tollenaar, V., Goderis, S., Ardoin, L., Blard, P. H., Claeys, P., Cordero, R. R., Debaille, V., Fripiat, F., Huybrechts, P., Imae, N., Izeboud, M., Pattyn, F., Pourkhorsandi, H., Seguinot, J., Shirai, N., Vancappellen, M., Van Ginneken, M., Wauthy, S., ... Zekollari, H. (2025). Absence of Elevation-Dependent Warming in Antarctica Inferred From Blue Ice Paleoclimate Records. Geophysical Research Letters, 52(9), 1-11. Article e2024GL113165. https://doi.org/10.1029/2024GL113165

@article{edc6a0c909294ec7bf9ab6616a133a92,

title = "Absence of Elevation-Dependent Warming in Antarctica Inferred From Blue Ice Paleoclimate Records",

abstract = "Reconstructing the past Antarctic climate commonly involves deep drilling of ice cores. However, the ∼1% of the Antarctic ice sheet surface covered with blue ice also provides unique, yet largely unexploited paleoclimatic opportunities. Here, we analyze 444 ice samples collected in blue ice surfaces located around the S{\o}r Rondane Mountains. Isotope measurements (δ18O) on these samples enable us to estimate surface paleotemperatures for both the current interglacial period and the Last Glacial Maximum. Combining these paleotemperatures with the spatially varying source elevation of the sampled blue ice provides new insights on the (lack of) lapse rate evolution (i.e., changes in the elevation-temperature relationship) outside the 40°N–40°S latitudinal band. This result contrasts with low-latitude areas that have experienced elevation-dependent warming (EDW) during this period. Our results hint at a future (lack of) EDW in Antarctica, thereby highlighting the potential of blue ice area paleoclimatic archives to better predict future climatic changes.",

keywords = "Antarctica, blue ice, elevation-dependant warming, ice isotopes, lapse rate, last glacial maximum",

author = "Etienne Legrain and Veronica Tollenaar and Steven Goderis and Lisa Ardoin and Blard, {Pierre Henri} and Philippe Claeys and Cordero, {Ra{\'u}l R.} and Vinciane Debaille and Fran{\c c}ois Fripiat and Philippe Huybrechts and Naoya Imae and Maaike Izeboud and Frank Pattyn and Hamed Pourkhorsandi and Julien Seguinot and Naoki Shirai and Marijke Vancappellen and {Van Ginneken}, Matthias and Sarah Wauthy and Akira Yamaguchi and Mehmet Yesiltas and Harry Zekollari",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s).",

year = "2025",

month = may,

day = "16",

doi = "10.1029/2024GL113165",

language = "English",

volume = "52",

pages = "1--11",

journal = "Geophysical Research Letters",

issn = "0094-8276",

publisher = "American Geophysical Union",

number = "9",

}

Legrain, E , Tollenaar, V , Goderis, S, Ardoin, L, Blard, PH, Claeys, P, Cordero, RR, Debaille, V, Fripiat, F, Huybrechts, P, Imae, N, Izeboud, M, Pattyn, F, Pourkhorsandi, H, Seguinot, J, Shirai, N, Vancappellen, M, Van Ginneken, M, Wauthy, S, Yamaguchi, A, Yesiltas, M & Zekollari, H 2025, 'Absence of Elevation-Dependent Warming in Antarctica Inferred From Blue Ice Paleoclimate Records', Geophysical Research Letters, vol. 52, no. 9, e2024GL113165, pp. 1-11. https://doi.org/10.1029/2024GL113165

TY - JOUR

T1 - Absence of Elevation-Dependent Warming in Antarctica Inferred From Blue Ice Paleoclimate Records

AU - Legrain, Etienne

AU - Tollenaar, Veronica

AU - Goderis, Steven

AU - Ardoin, Lisa

AU - Blard, Pierre Henri

AU - Claeys, Philippe

AU - Cordero, Raúl R.

AU - Debaille, Vinciane

AU - Fripiat, François

AU - Huybrechts, Philippe

AU - Imae, Naoya

AU - Izeboud, Maaike

AU - Pattyn, Frank

AU - Pourkhorsandi, Hamed

AU - Seguinot, Julien

AU - Shirai, Naoki

AU - Vancappellen, Marijke

AU - Van Ginneken, Matthias

AU - Wauthy, Sarah

AU - Yamaguchi, Akira

AU - Yesiltas, Mehmet

AU - Zekollari, Harry

PY - 2025/5/16

Y1 - 2025/5/16

N2 - Reconstructing the past Antarctic climate commonly involves deep drilling of ice cores. However, the ∼1% of the Antarctic ice sheet surface covered with blue ice also provides unique, yet largely unexploited paleoclimatic opportunities. Here, we analyze 444 ice samples collected in blue ice surfaces located around the Sør Rondane Mountains. Isotope measurements (δ18O) on these samples enable us to estimate surface paleotemperatures for both the current interglacial period and the Last Glacial Maximum. Combining these paleotemperatures with the spatially varying source elevation of the sampled blue ice provides new insights on the (lack of) lapse rate evolution (i.e., changes in the elevation-temperature relationship) outside the 40°N–40°S latitudinal band. This result contrasts with low-latitude areas that have experienced elevation-dependent warming (EDW) during this period. Our results hint at a future (lack of) EDW in Antarctica, thereby highlighting the potential of blue ice area paleoclimatic archives to better predict future climatic changes.

AB - Reconstructing the past Antarctic climate commonly involves deep drilling of ice cores. However, the ∼1% of the Antarctic ice sheet surface covered with blue ice also provides unique, yet largely unexploited paleoclimatic opportunities. Here, we analyze 444 ice samples collected in blue ice surfaces located around the Sør Rondane Mountains. Isotope measurements (δ18O) on these samples enable us to estimate surface paleotemperatures for both the current interglacial period and the Last Glacial Maximum. Combining these paleotemperatures with the spatially varying source elevation of the sampled blue ice provides new insights on the (lack of) lapse rate evolution (i.e., changes in the elevation-temperature relationship) outside the 40°N–40°S latitudinal band. This result contrasts with low-latitude areas that have experienced elevation-dependent warming (EDW) during this period. Our results hint at a future (lack of) EDW in Antarctica, thereby highlighting the potential of blue ice area paleoclimatic archives to better predict future climatic changes.

KW - Antarctica

KW - blue ice

KW - elevation-dependant warming

KW - ice isotopes

KW - lapse rate

KW - last glacial maximum

UR - http://www.scopus.com/inward/record.url?scp=105005168899&partnerID=8YFLogxK

U2 - 10.1029/2024GL113165

DO - 10.1029/2024GL113165

M3 - Article

AN - SCOPUS:105005168899

SN - 0094-8276

VL - 52

SP - 1

EP - 11

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 9

M1 - e2024GL113165

ER -

Absence of Elevation-Dependent Warming in Antarctica Inferred From Blue Ice Paleoclimate Records

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Cite this