High-resolution ice cores from US ITASE (West Antarctica): development and validation of chronologies and determination of precision and accuracy

Shallow ice cores were obtained from widely distributed sites across the West Antarctic ice sheet, as part of the United States portion of the International Trans-Antarctic Scientific Expedition (US ITASE) program. The US ITASE cores have been dated by annual-layer counting, primarily through the id...

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Bibliographic Details
Published inAnnals of glaciology Vol. 41; pp. 77 - 84
Main Authors Steig, Eric J., Mayewski, Paul A., Dixon, Daniel A., Kaspari, Susan D., Frey, Markus M., Schneider, David P., Arcone, Steven A., Hamilton, Gordon S., Blue Spikes, V., Mary Albert, Meese, Deb, Gow, Anthony J., Shuman, Christopher A., White, James W.C., Sneed, Sharon, Flaherty, Joseph, Wumkes, Mark
Format Journal Article
LanguageEnglish
Published Cambridge, UK Cambridge University Press 2005
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Summary:Shallow ice cores were obtained from widely distributed sites across the West Antarctic ice sheet, as part of the United States portion of the International Trans-Antarctic Scientific Expedition (US ITASE) program. The US ITASE cores have been dated by annual-layer counting, primarily through the identification of summer peaks in non-sea-salt sulfate (nssSO4 2–) concentration. Absolute dating accuracy of better than 2 years and relative dating accuracy better than 1 year is demonstrated by the identification of multiple volcanic marker horizons in each of the cores, Tambora, Indonesia (1815), being the most prominent. Independent validation is provided by the tracing of isochronal layers from site to site using high-frequency ice-penetrating radar observations, and by the timing of mid-winter warming events in stable-isotope ratios, which demonstrate significantly better than 1 year accuracy in the last 20 years. Dating precision to ±1 month is demonstrated by the occurrence of summer nitrate peaks and stable-isotope ratios in phase with nssSO4 2–, and winter-time sea-salt peaks out of phase, with phase variation of <1 month. Dating precision and accuracy are uniform with depth, for at least the last 100 years.
ISSN:0260-3055
1727-5644
DOI:10.3189/172756405781813311