U-Pb isotope systematics in josephinites and associated rocks

Details U-Pb isotope systematics in josephinites and associated rocks U-Pb isotope systematics in josephinites and associated rocks

Feb 1990

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1990e%26psl..97...18g&link_type=abstract

Earth and Planetary Science Letters, Volume 97, Issue 1-2, p. 18-28.

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Scientific paper

Josephinite nodules are composed of metallic nickel iron alloy intergrown with andradite garnet. They are found in the peridotitic section of an obducted ophiolite in SW Oregon. The origin of josephinite is widely debated: for example, previous investigation have proposed it as a byproduct of low temperature synserpentinization processes linked to the intrusion of dikes or and its derivation from primitive mantle, conceivably from as deep as the core mantle boundary.
We report U-Pb data from josephinites, wyrdite (a rock associated with josephinite) consisting of rutile and ilmenite intergrown with silicates, and their surrounding rocks (hornblende diorites and harzburgites).
The measured Pb isotopic composition of all decontaminated, leached josephinite metal samples plots in the Pb-Pb diagram just above/in the MORB field, while the first leachates are characterized by higher 207Pb/204Pb ratios. The isotopic Pb composition measured in the leachates of the wyrdite defines a line whose slope corresponds to an age of 159 +/- 8 Myr. The harzburgites show a wide spread in Pb isotopic compositions; all samples lie above the MORB field and three samples plot to the left side of the 4.55 Æ geochron. The hornblende diorite dikes, characterized by the highest U and Pb concentrations of all studied rocks, plot in the MORB field.
None of these different rocks is characterized by a single or homogeneous Pb composition. All samples are affected by secondary alteration processes: the circulation of hydrothermal fluids disturbed the dikes and ultramafic rocks and serpentinization processes have affected harzburgites, josephinites, and wyrdites. Thus the Pb isotopic composition measured today represents a mixture of initial Pb, radiogenic Pb and inherited Pb in variable proportions.
Concerning the origin of josephinite these results show a close relationship between josephinite, wyrdite, and the dikes; e.g.: (1) the Pb-Pb age of wyrdite is identical to that of the dikes; (2) the Pb isotopic composition of the decontaminated josephinite metal is close to that of the dikes.

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