Rare ice-base temperature measurements in Antarctica reveal a cold base in contrast with predictions

Rare ice-base temperature measurements in Antarctica reveal a cold base in contrast with predictions

Abstract The Antarctic bed demonstrates complex behaviour comprising alternating warm- and cold-based areas. However, the distribution of warm- and cold-based areas, basal melting rates, and the structure and age of the basal ice are not yet fully known. In the 2023–2024 season, we drilled an access...

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Main Authors: Pavel G. Talalay, German Leitchenkov, Vladimir Lipenkov, Youhong Sun, Nan Zhang, Da Gong, Yunchen Liu, Yazhou Li, Yuchen Sun, Ilnur Abdrakhmanov, Mstislav Vorobyev, Damir Khalimov, Xiaopeng Fan, Andrey Salamatin, Alexey A. Ekaykin, Bing Li
Format: Article
Language:English
Published: Nature Portfolio 2025-03-01
Series:Communications Earth & Environment
Online Access:https://doi.org/10.1038/s43247-025-02127-1
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Summary:Abstract The Antarctic bed demonstrates complex behaviour comprising alternating warm- and cold-based areas. However, the distribution of warm- and cold-based areas, basal melting rates, and the structure and age of the basal ice are not yet fully known. In the 2023–2024 season, we drilled an access borehole through 541 m thick ice at Princess Elizabeth Land, 28 km south of the coast. Temperature measurements at the bottom of the borehole revealed a cold underlying base despite a warm-based interface being predicted in advance as the most likely estimate. Our results imply that the Antarctic base can be locally colder than currently assumed, and that thermal models, especially basal boundary conditions, should be carefully specified and provided with the confirmed input data.
ISSN:2662-4435

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