Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet

Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet

Vertical profiles of oxygen isotopic contents in deposited snow were obtained in the region where katabatic winds prevail (Mizuho Station : 70.7°S, 44.3°E, 2230m), the inland dome-like plateau (Dome Camp : 77.0°S, 35.0°E, 3761m) and the transitional zone between them (Advance Camp : 74.2°S, 35.0°E,...

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Main Authors: Yutaka Ageta, Kokichi Kamiyama, Hideki Narita, Kazuhide Satow
Format: Article
Language:English
Published: National Institute of Polar Research 1991-03-01
Series:Antarctic Record
Online Access:http://doi.org/10.15094/00008710
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spelling doaj-43c2d6d861474b309cc6b211d078ce1f2020-11-24T21:33:27ZengNational Institute of Polar ResearchAntarctic Record0085-72892432-079X1991-03-01351394610.15094/00008710Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheetYutaka Ageta0Kokichi Kamiyama1Hideki Narita2Kazuhide Satow3Water Research Institute, Nagoya UniversityGeophysical Research Station, Faculty of Science, Kyoto UniversityInstitute of Low Temperature Science, Hokkaido UniversityNagaoka College of Technology Vertical profiles of oxygen isotopic contents in deposited snow were obtained in the region where katabatic winds prevail (Mizuho Station : 70.7°S, 44.3°E, 2230m), the inland dome-like plateau (Dome Camp : 77.0°S, 35.0°E, 3761m) and the transitional zone between them (Advance Camp : 74.2°S, 35.0°E, 3198m). At Mizuho Station, the δ^<18>O contents have high values around the hiatus layers. However, synchronous relations cannot be found between the neighboring profiles, since snow was exchanged due to deposition and erosion by strong winds. Inter-annual variations of oxygen isotopic contents in snow have been preserved better in the inner parts of the ice sheet between the three zones observed in this study. The profile at Dome Camp has good correlation with the inter-annual variation of summer temperature at 5000gpm above the South Pole. This result suggests that the temperature at this level above the South Pole is representable for air temperature condition over the inland ice sheet, and the meteorological conditions in summer have a strong effect on the transition of the oxygen isotopic content of snow after deposition due to evaporation-sublimation. http://doi.org/10.15094/00008710
collection DOAJ
language English
format Article
sources DOAJ
author Yutaka Ageta
Kokichi Kamiyama
Hideki Narita
Kazuhide Satow
spellingShingle Yutaka Ageta
Kokichi Kamiyama
Hideki Narita
Kazuhide Satow
Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet
Antarctic Record
author_facet Yutaka Ageta
Kokichi Kamiyama
Hideki Narita
Kazuhide Satow
author_sort Yutaka Ageta
title Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet
title_short Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet
title_full Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet
title_fullStr Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet
title_full_unstemmed Oxygen isotope profiles of deposited snow in different depositional environments of the Antarctic ice sheet
title_sort oxygen isotope profiles of deposited snow in different depositional environments of the antarctic ice sheet
publisher National Institute of Polar Research
series Antarctic Record
issn 0085-7289
2432-079X
publishDate 1991-03-01
description Vertical profiles of oxygen isotopic contents in deposited snow were obtained in the region where katabatic winds prevail (Mizuho Station : 70.7°S, 44.3°E, 2230m), the inland dome-like plateau (Dome Camp : 77.0°S, 35.0°E, 3761m) and the transitional zone between them (Advance Camp : 74.2°S, 35.0°E, 3198m). At Mizuho Station, the δ^<18>O contents have high values around the hiatus layers. However, synchronous relations cannot be found between the neighboring profiles, since snow was exchanged due to deposition and erosion by strong winds. Inter-annual variations of oxygen isotopic contents in snow have been preserved better in the inner parts of the ice sheet between the three zones observed in this study. The profile at Dome Camp has good correlation with the inter-annual variation of summer temperature at 5000gpm above the South Pole. This result suggests that the temperature at this level above the South Pole is representable for air temperature condition over the inland ice sheet, and the meteorological conditions in summer have a strong effect on the transition of the oxygen isotopic content of snow after deposition due to evaporation-sublimation.
url http://doi.org/10.15094/00008710
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AT kokichikamiyama oxygenisotopeprofilesofdepositedsnowindifferentdepositionalenvironmentsoftheantarcticicesheet
AT hidekinarita oxygenisotopeprofilesofdepositedsnowindifferentdepositionalenvironmentsoftheantarcticicesheet
AT kazuhidesatow oxygenisotopeprofilesofdepositedsnowindifferentdepositionalenvironmentsoftheantarcticicesheet
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