Disturbance of the re-os chronometer of molybdenites from the late-caledonian galway granite, ireland, by hydrothermal fluid circulation.
Suzuki, Katsuhiko ; Feely, Martin ; O'Reilly, Cian
Suzuki, Katsuhiko
Feely, Martin
O'Reilly, Cian
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Publication Date
2001-01-01
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Article
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Suzuki, Katsuhiko; Feely, Martin; O'Reilly, Cian (2001). Disturbance of the re-os chronometer of molybdenites from the late-caledonian galway granite, ireland, by hydrothermal fluid circulation.. GEOCHEMICAL JOURNAL 35 (1), 29-35
Abstract
Re-Os ages were determined for molybdenites from the late-Caledonian Galway Granite in the west of Ireland. Molybdenites from three localities within the batholith, Mace Head, Murvey, and Travore, yield respective Re-Os ages of 425.2 +/- 3.1 Ma, 383.2 +/- 8.1 and 426.1 +/- 5.5 Ma, and 338.9 +/- 5.6 and 464 +/- 28 Ma. The molybdenites from the three localities are believed to be contemporaneous. However, the Re-Os ages obtained for each locality are not only in disagreement with the ages of the samples from the other localities but also are inconsistent within a single locality. Replicate analyses of a molybdenite standard (HLP-5) characterized by AIRIE using our method (Suzuki ct al., 1992) yields reproducible Re-Os ages, which are in agreement with the results of Markey ef al. (1998). Therefore, the age discrepancies in Galway molybdenites in this study should not be attributed to analytical errors. Suzuki el al. (2000) revealed experimentally that the Re-Os system in molybdenite can behave as an open-system when immersed in warm aqueous NaCl or NaHCO3 bearing fluid. Detailed fluid inclusion studies of molybdenite vein quartz and granite quartz (Gallagher er al., 1992; O'Reilly et al., 1997) have shown that the Galway Granite was the locus for repeated fluid events, i.e., 1. Expulsion of aqueous carbonic magmatic fluids during the final stages of crystallization, 2. Meteoric fluid convection probably driven by waning magmatic heat and 3. Incursion of basinal brines associated with fluorite mineralization at least 100 Ma after granite consolidation. We suggest that younger hydrothermal fluids perhaps associated with fluorite mineralization may have perturbed the Re-Os systematics of molybdenites from the Galway Granite.
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Publisher
Geochemical Society of Japan
Publisher DOI
10.2343/geochemj.35.29
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Attribution-NonCommercial-NoDerivs 3.0 Ireland