Fractionation of O.sub.2/N.sub.2 and Ar/N.sub.2 in the Antarctic ice sheet during bubble formation and bubble-clathrate hydrate transition from precise gas measurements of the Dome Fuji ice core

The variations of [delta]O2/N2 and [delta]Ar/N2 in the Dome Fuji ice core were measured from 112 m (bubbly ice) to 2001 m (clathrate hydrate ice). Our method, combined with the low storage temperature of the samples (-50 .sup." C), successfully excludes post-coring gas-loss fractionation signal...

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Published in:The cryosphere 2021-12, Vol.15 (12), p.5529
Main Authors: Oyabu, Ikumi, Kawamura, Kenji, Uchida, Tsutomu, Fujita, Shuji, Kitamura, Kyotaro, Hirabayashi, Motohiro, Aoki, Shuji, Morimoto, Shinji, Nakazawa, Takakiyo, Severinghaus, Jeffrey P, Morgan, Jacob D
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Language:English
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Gas hydrates
Ice sheets
Measurement
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container_issue 12
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container_title The cryosphere
container_volume 15
creator Oyabu, Ikumi
Kawamura, Kenji
Uchida, Tsutomu
Fujita, Shuji
Kitamura, Kyotaro
Hirabayashi, Motohiro
Aoki, Shuji
Morimoto, Shinji
Nakazawa, Takakiyo
Severinghaus, Jeffrey P
Morgan, Jacob D
description The variations of [delta]O2/N2 and [delta]Ar/N2 in the Dome Fuji ice core were measured from 112 m (bubbly ice) to 2001 m (clathrate hydrate ice). Our method, combined with the low storage temperature of the samples (-50 .sup." C), successfully excludes post-coring gas-loss fractionation signals from our data. From the bubbly ice to the middle of the bubble-clathrate transition zone (BCTZ) (112-800 m) and below the BCTZ (1200 m), the [delta]O2/N2 and [delta]Ar/N2 data exhibit orbital-scale variations similar to local summer insolation. The data in the lower BCTZ (800-1200 m) have large scatter, which may be caused by millimeter-scale inhomogeneity of air composition combined with finite sample lengths. The insolation signal originally recorded at the bubble close-off remains through the BCTZ, and the insolation signal may be reconstructed by analyzing long ice samples (more than 50 cm for the Dome Fuji core). In the clathrate hydrate zone, the scatter around the orbital-scale variability decreases with depth, indicating diffusive smoothing of [delta]O2/N2 and [delta]Ar/N2. A simple gas diffusion model was used to reproduce the smoothing and thus constrain their permeation coefficients. The relationship between [delta]Ar/N2 and [delta]O2/N2 is markedly different for the datasets representing bubble close-off (slope â¼ 0.5), bubble-clathrate hydrate transformation (â¼1), and post-coring gas loss (â¼0.2), suggesting that the contributions of the mass-independent and mass-dependent fractionation processes are different for those cases. The method and data presented here may be useful for improving the orbital dating of deep ice cores over the multiple glacial cycles and further studying non-insolation-driven signals (e.g., atmospheric composition) of these gases.
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subjects Gas hydrates
Ice sheets
Measurement
title Fractionation of O.sub.2/N.sub.2 and Ar/N.sub.2 in the Antarctic ice sheet during bubble formation and bubble-clathrate hydrate transition from precise gas measurements of the Dome Fuji ice core
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