Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica

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Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica. / Sinisalo, A; Grinsted, Aslak; Moore, J; Meijer, H A J; Martma, T; van De Wal, R S W.

In: Journal of Glaciology, Vol. 53, No. 182, 2007, p. 427-434.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Sinisalo, A, Grinsted, A, Moore, J, Meijer, HAJ, Martma, T & van De Wal, RSW 2007, 'Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica', Journal of Glaciology, vol. 53, no. 182, pp. 427-434.

APA

Sinisalo, A., Grinsted, A., Moore, J., Meijer, H. A. J., Martma, T., & van De Wal, R. S. W. (2007). Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica. Journal of Glaciology, 53(182), 427-434.

Vancouver

Sinisalo A, Grinsted A, Moore J, Meijer HAJ, Martma T, van De Wal RSW. Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica. Journal of Glaciology. 2007;53(182):427-434.

Author

Sinisalo, A ; Grinsted, Aslak ; Moore, J ; Meijer, H A J ; Martma, T ; van De Wal, R S W. / Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica. In: Journal of Glaciology. 2007 ; Vol. 53, No. 182. pp. 427-434.

Bibtex

@article{55b72850e62811ddbf70000ea68e967b,
title = "Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica",
abstract = "We show that it is possible to extract a high-resolution (annual) paleoclimate record from the surface of a blue-ice area (BIA). The variability of the surface stable-isotope values suggests that almost all the surface ice in Scharffenbergbotnen BIA, East Antarctica, is of Holocene age. The isotopic changes across the BIA show that the modern climate there is warmer than the climate in the early Holocene optimum (11 kyr BP). A volume-conserving ice flow model for the BIA constrained by isotopic variability and layer thicknesses, and a series of14C ages indicate both that the BIA has been smaller than now, and that the surface velocities were considerably smaller during the Last Glacial Maximum. Changes in ice-sheet thickness drive the BIA towards present-day conditions. The relatively young age of the majority of the BIA also explains the lack of meteorite finds in this area, and may be typical for many BIAs in low-elevation nunatak areas.",
author = "A Sinisalo and Aslak Grinsted and J Moore and Meijer, {H A J} and T Martma and {van De Wal}, {R S W}",
note = "Paper id:: 10.3189/002214307783258495",
year = "2007",
language = "English",
volume = "53",
pages = "427--434",
journal = "Journal of Glaciology",
issn = "0022-1430",
publisher = "International Glaciological Society",
number = "182",

}

RIS

TY - JOUR

T1 - Inferences from stable water isotopes on the Holocene evolution of Scharffenbergbotnen blue ice area, East Antarctica

AU - Sinisalo, A

AU - Grinsted, Aslak

AU - Moore, J

AU - Meijer, H A J

AU - Martma, T

AU - van De Wal, R S W

N1 - Paper id:: 10.3189/002214307783258495

PY - 2007

Y1 - 2007

N2 - We show that it is possible to extract a high-resolution (annual) paleoclimate record from the surface of a blue-ice area (BIA). The variability of the surface stable-isotope values suggests that almost all the surface ice in Scharffenbergbotnen BIA, East Antarctica, is of Holocene age. The isotopic changes across the BIA show that the modern climate there is warmer than the climate in the early Holocene optimum (11 kyr BP). A volume-conserving ice flow model for the BIA constrained by isotopic variability and layer thicknesses, and a series of14C ages indicate both that the BIA has been smaller than now, and that the surface velocities were considerably smaller during the Last Glacial Maximum. Changes in ice-sheet thickness drive the BIA towards present-day conditions. The relatively young age of the majority of the BIA also explains the lack of meteorite finds in this area, and may be typical for many BIAs in low-elevation nunatak areas.

AB - We show that it is possible to extract a high-resolution (annual) paleoclimate record from the surface of a blue-ice area (BIA). The variability of the surface stable-isotope values suggests that almost all the surface ice in Scharffenbergbotnen BIA, East Antarctica, is of Holocene age. The isotopic changes across the BIA show that the modern climate there is warmer than the climate in the early Holocene optimum (11 kyr BP). A volume-conserving ice flow model for the BIA constrained by isotopic variability and layer thicknesses, and a series of14C ages indicate both that the BIA has been smaller than now, and that the surface velocities were considerably smaller during the Last Glacial Maximum. Changes in ice-sheet thickness drive the BIA towards present-day conditions. The relatively young age of the majority of the BIA also explains the lack of meteorite finds in this area, and may be typical for many BIAs in low-elevation nunatak areas.

M3 - Journal article

VL - 53

SP - 427

EP - 434

JO - Journal of Glaciology

JF - Journal of Glaciology

SN - 0022-1430

IS - 182

ER -

ID: 9832186