1. Radiometric 81Kr dating identifies 120,000-year-old ice at Taylor Glacier, Antarctica.
- Author
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Buizert C, Baggenstos D, Jiang W, Purtschert R, Petrenko VV, Lu ZT, Müller P, Kuhl T, Lee J, Severinghaus JP, and Brook EJ
- Subjects
- Antarctic Regions, Gases analysis, Radiometric Dating standards, Reproducibility of Results, Climate Change, Ice analysis, Ice Cover chemistry, Krypton Radioisotopes, Radiometric Dating methods
- Abstract
We present successful (81)Kr-Kr radiometric dating of ancient polar ice. Krypton was extracted from the air bubbles in four ∼350-kg polar ice samples from Taylor Glacier in the McMurdo Dry Valleys, Antarctica, and dated using Atom Trap Trace Analysis (ATTA). The (81)Kr radiometric ages agree with independent age estimates obtained from stratigraphic dating techniques with a mean absolute age offset of 6 ± 2.5 ka. Our experimental methods and sampling strategy are validated by (i) (85)Kr and (39)Ar analyses that show the samples to be free of modern air contamination and (ii) air content measurements that show the ice did not experience gas loss. We estimate the error in the (81)Kr ages due to past geomagnetic variability to be below 3 ka. We show that ice from the previous interglacial period (Marine Isotope Stage 5e, 130-115 ka before present) can be found in abundance near the surface of Taylor Glacier. Our study paves the way for reliable radiometric dating of ancient ice in blue ice areas and margin sites where large samples are available, greatly enhancing their scientific value as archives of old ice and meteorites. At present, ATTA (81)Kr analysis requires a 40-80-kg ice sample; as sample requirements continue to decrease, (81)Kr dating of ice cores is a future possibility.
- Published
- 2014
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