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39Ar dating of cave ice combined with pollen, cryogenic calcite and radiocarbon analyses reveals late Little Ice Age origin (Leupa Ice Cave, Julian Alps)

by Edwards, Lawrence R , Hoffmann, Dirk L , Wachs, David , Colucci, Renato R , Oberthaler, Markus K , Schwikowski, Margit , Jenk, Theo Manuel , Eichler, Anja , Aeschbach, Werner , Manzan, Sonia , Securo, Andrea , Bohleber, Pascal , Luetscher, Marc , Moseley, Gina E , Festi, Daniela

in Accretion / Archives & records / Argon / Atmospheric variability / Calcite / Carbon 14 / Carbon dating / Carbonates / cave ice / Caves / Climatic conditions / Cores / Cryosphere / Dating / Dating techniques / Glaciation / Glaciers / Ground ice / High altitude / Ice ages / ice chronology/dating / ice core / Ice cores / Ice sheets / Little Ice Age / Massifs / Organic carbon / Permafrost / Pollen / Precipitation / Radiocarbon dating / Radiometric dating / Temperature

2026

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39Ar dating of cave ice combined with pollen, cryogenic calcite and radiocarbon analyses reveals late Little Ice Age origin (Leupa Ice Cave, Julian Alps)

2026

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39Ar dating of cave ice combined with pollen, cryogenic calcite and radiocarbon analyses reveals late Little Ice Age origin (Leupa Ice Cave, Julian Alps)

2026

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Journal Article

39Ar dating of cave ice combined with pollen, cryogenic calcite and radiocarbon analyses reveals late Little Ice Age origin (Leupa Ice Cave, Julian Alps)

Edwards, Lawrence R,

Hoffmann, Dirk L,

Wachs, David,

Colucci, Renato R,

Oberthaler, Markus K,

Schwikowski, Margit,

Jenk, Theo Manuel,

Eichler, Anja,

Aeschbach, Werner,

Manzan, Sonia,

Securo, Andrea,

Bohleber, Pascal,

Luetscher, Marc,

Moseley, Gina E,

Festi, Daniela

2026

Overview

High-latitude or high-altitude caves often preserve ice deposits that contain valuable signals of past climate conditions, sometimes even reflecting regional and local atmospheric variability. Phases of aggradation or degradation of underground ice can also provide insights into the temporal evolution of Alpine permafrost. Such data are typically obtained from ice cores, which require a well-constrained chronological framework to be meaningful. In recent years, several dating methods have been developed or refined for glacier and ice sheet cores. However, some of these techniques have not yet been applied to cave ice. In this study, the 39Ar dating technique using Argon Trap Trace Analysis is applied for the first time to an underground ice deposit in the southeastern Alps, specifically in the Canin-Kanin massif (Julian Alps). The results are compared with pollen markers extracted from the ice, with U-Th dating of cryogenic cave carbonates found in situ within the same ice block, and with radiocarbon (14C) dating of the water-insoluble organic carbon fraction embedded in the ice. This integrated approach enabled dating the ice deposit to the end of the Little Ice Age, at the onset of the subsequent warming phase.

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Publisher

Cambridge University Press

Subject

Accretion

/ Archives & records

/ Argon

/ Atmospheric variability

/ Calcite

/ Carbon 14

/ Carbon dating