Isotopic Heterogeneities in the Granitic Intrusion of Monte Capanne (Elba Island, Italy) and Dating Concepts

The Monte Capanne granodiorite-rhyolite-aplite association exhibits K-Ar ages which cluster around 7.9 m.y. Rb-Sr mineral ages and U-Pb dating on zircons, however, give 6.2 m.y. which is the preferred age of emplacement. Evidence of subsequent events related to either dyke emplacement, or conductive...

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Bibliographic Details
Published in:Journal of petrology 1984, Vol.25 (2), p.532-545
Main Authors: JUTEAU, MARTINE, MICHARD, ANNIE, ZIMMERMANN, JEAN-LOUIS, ALBAREDE, FRANCIS
Format: Article
Language:English
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Summary:The Monte Capanne granodiorite-rhyolite-aplite association exhibits K-Ar ages which cluster around 7.9 m.y. Rb-Sr mineral ages and U-Pb dating on zircons, however, give 6.2 m.y. which is the preferred age of emplacement. Evidence of subsequent events related to either dyke emplacement, or conductive/convective cooling is provided by ages as young as 5.4 m.y. A significant heterogeneity of the whole-rock 87Sr/86Sr initial ratios, which fall in the range 0.711–0.715, is interpreted as being due in part to exchanges with the low 87Sr86Sr country rocks at the deuteric stage via fluid interaction, and in part to possible different magma sources. In the geological future, these heterogeneities should be progressively smeared out by the radioactive decay of 87Rb, but even if the system remains perfectly closed, a residual bias in excess of 100 m.y. should permanently affect the theoretical isochron ages. It is inferred that Rb-Sr isochron ages determined on samples of Precambrian age must be regarded with caution: a residual bias may somewhat alter the information obtained even from statistically acceptable isochrons. In this respect, when great accuracy is needed for plutonic emplacement ages (to within few m.y.), U-Pb dating appears to be less sensitive to inherited components and provides more reliable chronometric information.
ISSN:0022-3530
1460-2415
DOI:10.1093/petrology/25.2.532