Distribution and Evolution of Uranium in the Oceanic Lithosphere
Induced fission track techniques permit us to determine quantitatively the microscopic distribution of uranium in rocks, in their constituent minerals, and in percolating fluids. Both primary magmatic variations and secondary mobilization of uranium can be discerned. Concentrations of uranium in phe...
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Veröffentlicht in: | Philosophical transactions of the Royal Society of London. Series A: Mathematical and physical sciences 1979-04, Vol.291 (1381), p.423-431 |
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Zusammenfassung: | Induced fission track techniques permit us to determine quantitatively the microscopic distribution of uranium in rocks, in
their constituent minerals, and in percolating fluids. Both primary magmatic variations and secondary mobilization of uranium
can be discerned. Concentrations of uranium in phenocrysts and fresh glasses of oceanic basalts and gabbros are very low (2-80
parts/10$^{9}$) and are comparable to concentrations in the same minerals of the associated ultramafic rocks. Variations with
depth in D.S.D.P. holes show several distinct cyclic variations of uranium, accompanied by parallel trends in some major and
trace elements. In Hole 332B (mid-Atlantic ridge, 36 degrees N), uranium and other elements can be shown to fall into two
distinct groupings, each group following its own characteristic fractionation trend, suggesting that two distinct magmas differentiated
independently beneath the median valley, the two magmas alternating in their contribution to the formation of oceanic layer
2. Earlier investigations of the uranium distribution in surface pillows and other dredged rocks exposed to sea water had
shown that, owing to halmyrolysis, the uranium concentration increases systematically with distance from the axis of a mid-oceanic
ridge. Subsequent investigations on rocks drilled from horizons deeper into oceanic layer 2 indicate that secondary enrichment
or redistribution of uranium is confined to specific zones of altered basalt, near fractures, pillow and flow margins, and
especially along horizontal planes of breccias and sediments in between massive flow where convective water circulation is
thought to occur. Ultramafic rocks from the base of layer 3 and top of layer 4 are also enriched in uranium when hydrated
by sea water during the process of serpentinization. A combination of these processes may double the uranium content of an
oceanic lithospheric plate between the time of its formation and its eventual subduction. |
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ISSN: | 1364-503X 0080-4614 1471-2962 2054-0272 |
DOI: | 10.1098/rsta.1979.0036 |