Reliability of Os model ages in pervasively metasomatized continental mantle lithosphere: a case study of Sidamo spinel peridotite xenoliths (East African Rift, Ethiopia)

Re–Os results are reported for a suite of spinel peridotite xenoliths from the Sidamo region of Ethiopia, near the southernmost tip of the Main Ethiopian Rift (MER). The sulfide petrography and platinum group element (PGE) characteristics, as well as the major and trace element geochemistry of these...

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Bibliographic Details
Published in:Chemical geology 2004-08, Vol.208 (1), p.119-140
Main Authors: Reisberg, Laurie, Lorand, Jean-Pierre, Bedini, Rosa Maria
Format: Article
Language:English
Subjects:
Earth Sciences
Ethiopia
Geochemistry
Mantle
Metasomatism
Osmium
Petrography
PGE
Rhenium
Sciences of the Universe
Sulfides
Volcanology
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Summary:Re–Os results are reported for a suite of spinel peridotite xenoliths from the Sidamo region of Ethiopia, near the southernmost tip of the Main Ethiopian Rift (MER). The sulfide petrography and platinum group element (PGE) characteristics, as well as the major and trace element geochemistry of these samples have been investigated in previous studies [Earth Planet. Sci. Lett. 153 (1997) 67; Chem. Geol. 196 (2003) 57], and shown to reflect the effects of melt percolation, probably related to the impingement of the mantle plume that initiated rifting. The Os isotopic ratios correlate roughly with indices of melt depletion in the peridotites, providing evidence for a long period of radiogenic ingrowth subsequent to an ancient melt extraction event. Nevertheless, this correlation has been perturbed, probably during the melt percolation process documented by the earlier studies. Consideration of the Os data in conjunction with the sulfide petrography, PGE spectra, and geochemical and textural variations of the rocks indicates that the mechanism of Os mobility changed as the melts migrated upwards through the percolation column. In the high porosity region near the bottom of the column, now represented by the peridotites with granular textures, Os from the passing melts was scavenged by monosulfide solid solution phases. The apparent modification of the Os isotopic ratios in these rocks suggests that large quantities of melt, perhaps 2 to 5 g per gram of rock, passed through the granular facies peridotites. In the shallower, low porosity region represented by peridotites with deformed textures, the melt was highly evolved and volatile rich. These volatiles may have served as the vector for Os mobility evident in the high 187Os/ 188Os ratios of the harzburgitic samples. Despite the effects of recent melt percolation, the main feature of the Os systematics is the general correlation of 187Os/ 188Os with indices of melt depletion. This demonstrates that Os isotopes may still provide useful chronological information, even in regions where the lithosphere has been strongly perturbed by the impingement of a mantle plume. Model ages obtained from this correlation, as well as the Re-depletion age of the most depleted sample, indicate that melt extraction occurred between 2.4 and 2.8 Ga. This is much older than the Pan-African age of the overlying crust [J. African Earth Sci. 26 (1998) 207], and could suggest a major decoupling between the crust and the lithospheric mantl
ISSN:0009-2541
1872-6836
DOI:10.1016/j.chemgeo.2004.04.008