The age and origin of the “Younger Dryas climate event” in Greenland ice cores
1990; American Geophysical Union; Volume: 5; Issue: 6 Linguagem: Inglês
10.1029/pa005i006p00937
ISSN1944-9186
Autores Tópico(s)Climate change and permafrost
Resumo230 Th/ 234 U and 14 C dating of Barbados corals has extended the calibration of 14 C years B.P. to calendar years B.P. beyond the 9200 year tree ring series (Bard et al., 1990). This now permits the conversion of 14 C chronozones, which delimit major climate shifts in western Europe, to calendar years. The Younger Dryas chronozone, defined as 11,000 to 10,000 14 C years B.P., corresponds to 13,000 to 11,700 calendar years B.P. This calibration affects the interpretation of an intensely studied example of the “Younger Dryas climate event,” the δ 18 O anomaly between 1785 and 1793 m in Dye 3 ice core. The end of the δ 18 O anomaly in Dye 3 ice core has been dated by measurements of 14 C in air bubbles (Andree et al., 1984, 1986) and by annual layer counting (Hammer et al., 1986). The older 14 C dates fall out of the range of the tree ring calibration series but can now be calibrated to calendar years using the Barbados 230 Th/ 234 U calibration. The 14 C corrected age for the end of the δ 18 O event is 10,300 ± 400 calendar years B.P. compared to the annual layer counting age of 10,720 ± 150 years B.P. Thus, the “Younger Dryas” event in the Dye 3 ice core ends in the Preboreal chronozone (11,700 to 10,000 calendar years B.P.) and is not correlative with the end of the Younger Dryas event identified in pollen records marking European vegetation changes. The end of the Dye 3 δ 18 O event is, however, correlative with the end of meltwater pulse IB (Fairbanks, 1989), marking a period of intense deglaciation with meltwater discharge rates exceeding 13,000 km³/yr.
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