The Oxygen Isotope Composition of 3,800 M.Y. Old Metamorphosed Chert and Iron Formation from Isukasia, West Greenland
$\delta^{18}O$of metamorphosed chert from a thick sequence of chert and iron formation at Isukasia, west Greenland ranges from +12.9 to +20.4‰. Rocks at this locality satisfy three criteria suggesting that isotope exchange occurred only in a limited volume of material. It is our conclusion that the...
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Veröffentlicht in: | The Journal of geology 1978-03, Vol.86 (2), p.223-239 |
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Zusammenfassung: | $\delta^{18}O$of metamorphosed chert from a thick sequence of chert and iron formation at Isukasia, west Greenland ranges from +12.9 to +20.4‰. Rocks at this locality satisfy three criteria suggesting that isotope exchange occurred only in a limited volume of material. It is our conclusion that the maximum observed$\delta^{18}O$of metamorphosed chert of 20.4‰ may be close to the sedimentary or diagenetic oxygen isotope composition of this rock. Magnetite$\delta^{18}O$ranges from +1.1 to +7.6‰ and the mean quartz-magnetite oxygen isotope fractionation ($\Delta_{QM}$) is 11.6 indicating a mean temperature of metamorphism of about 390°C. Extrapolation of data assuming closed system metamorphic conditions suggests an initial$\delta^{18}O$for magnetite or its precursor oxide of -8.7‰ or lower. If this is so,$\Delta_{QM}$during diagenesis or sedimentation was 28.9 or more, and the corresponding temperature was about 100°C or less. A review of published isotope data on the Proterozoic Biwabik/Gunflint and Hamersley Iron Formations indicates probable primary$\delta^{18}O_{Q}$values of 24‰ for these rocks, and a primary quartz-magnetite oxygen isotope fractionation of about 39. The temperature of the oceans in which these 2,000 m.y. old iron formations were deposited thus is estimated to have been about 22°C. Evidence is strong that ancient cherts are depleted in 18O compared to modern cherts and that this phenomenon is not entirely the result of metamorphism. Whether caused by a surface temperature difference or differing$\delta^{18}O$of the ocean, the$\^{18}O$content of chert seems to have begun to increase significantly about 2,500-2,700 m.y. ago, a time at which$^{87}Sr/^{86}Sr$ratios in sedimentary rocks and$Na_{2}O/K_{2}O$ratios in crustal igneous rocks also changed. We suggest that$\delta^{18}O$of the early ocean was controlled by weathering and/or low temperature hydrothermal alteration of volcanic rocks and that recycling of these volcanic rocks as tonalitic gneisses may be primarily responsible for the increase in$\delta^{18}O$of crustal igneous rocks from about +6 to about +8.5‰. |
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ISSN: | 0022-1376 1537-5269 |
DOI: | 10.1086/649676 |