Computer Science
Scientific paper
Jun 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004e%26psl.222..729k&link_type=abstract
Earth and Planetary Science Letters, Volume 222, Issue 3-4, p. 729-740.
Computer Science
12
Re-Os Absolute-Age Dating, Black Shales, Old Fort Point Formation, Neoproterozoic, Marinoan
Scientific paper
New Re-Os isotopic data were obtained from chlorite-grade black shales from the upper Old Fort Point Formation (Windermere Supergroup), a post-glacial Neoproterozoic marker horizon in western Canada. A Re-Os isochron date of 634+/-57 Ma (MSWD=65, n=5) was determined using the conventional inverse aqua regia digestion medium. However, dissolution of the same samples with a new CrO3-H2SO4 dissolution technique [Chem. Geol. 200 (2003) 225] yielded a much more precise date of 607.8+/-4.7 Ma (MSWD=1.2). Both dates are in agreement with existing U-Pb age constraints that bracket the Old Fort Point Formation between ~685 and ~570 Ma. The distinctive Re-Os systematics recorded by the two analytical protocols is explained by dissolution of a variably radiogenic, detrital Os component by the aqua regia method. In contrast, the CrO3-H2SO4 technique minimizes this detrital component by selectively dissolving organic matter that is dominated by hydrogenous (seawater) Re and Os. The date of 607.8+/-4.7 Ma is thus interpreted as the depositional age for the upper Old Fort Point Formation providing a minimum age constraint for the timing of the second Windermere glaciation in western Canada. This ice age is correlative with the Marinoan (~620-600 Ma) ice age and older than the ~580-Ma Gaskiers glaciation of northeastern North America. The new Re-Os age determined from the CrO3-H2SO4 digestion technique thus provides further support to a growing body of evidence for a global Marinoan glacial episode. Such an interpretation would not be discernable from the imprecise Re-Os date obtained with the aqua regia protocol. These results also indicate the potential for Re-Os radiometric dating of black shales that was not previously recognized. Importantly, neither chlorite-grade metamorphism nor the low organic content (TOC <1%) of the Old Fort Point Formation precluded the determination of a precise Re-Os depositional age using the CrO3-H2SO4 analytical protocol.
Creaser Robert A.
Kendall Brian S.
Ross Gerald M.
Selby David
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