Metamorphism disturbs the Re-Os signatures of platinum-group minerals in ophiolite chromitites

The Os-isotope compositions of platinum-group minerals (PGMs) in ophiolite chromitites are commonly regarded as resistant to fluid-related processes, and have been used to track the evolution of Earth's convecting mantle. However, we have found significant differences in 187Os/188Os between pri...

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Bibliographic Details
Published in:Geology (Boulder) 2012-07, Vol.40 (7), p.659-662
Main Authors: González-Jiménez, José M, Griffin, William L, Gervilla, Fernando, Kerestedjian, Thomas N, O'Reilly, Suzanne Y, Proenza, Joaquín A, Pearson, Norman J, Sergeeva, Ivanina
Format: Article
Language:English
Subjects:
absolute age
Bulgaria
Bulgarian Rhodope Mountains
Cenozoic
chromitite
dates
Dobromirtsi Massif
Europe
experimental studies
geochemical indicators
geochemistry
Geochronology
Geology
histograms
ICP mass spectra
igneous and metamorphic rocks
igneous rocks
isotope ratios
Isotopes
laser ablation
laser methods
Magma
magmas
mantle
mass spectra
metals
metamorphic core complexes
Metamorphic rocks
metamorphism
multicollector methods
ophiolite
Os-188/Os-187
osmium
overprinting
Petrology
Platinum
platinum group
plutonic rocks
Polymorphism
Precambrian
Proterozoic
Re/Os
Rhodope Mountains
Southern Europe
spectra
stable isotopes
statistical analysis
Tertiary
ultramafics
upper mantle
upper Precambrian
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Summary:The Os-isotope compositions of platinum-group minerals (PGMs) in ophiolite chromitites are commonly regarded as resistant to fluid-related processes, and have been used to track the evolution of Earth's convecting mantle. However, we have found significant differences in 187Os/188Os between primary and secondary PGMs from metamorphosed ophiolite chromitites of the Dobromirtsi Ultramafic Massif, in the Central Rhodope Metamorphic Core Complex of southeastern Bulgaria. Primary (magmatic) PGMs hosted in unaltered chromite cores have 187Os/188Os from 0.1231 to 0.1270, and 187Re/188Os ≤ 0.002.TMA and TRD model ages, calculated relative to the Enstatite Chondrite Reservoir, cluster around three main peaks: ca. 0.3, 0.4, and 0.6 Ga. Secondary PGMs, produced by alteration of magmatic PGMs, have a wider range of variation (187Os/188Os = 0.1124-0.1398, 187Re/188Os ≤ 0.024); these grains yield TMA and TRD model ages from -1.7 Ga up to 2.2 Ga. The larger range in 187Os/188Os in the secondary PGMs is interpreted as due to reactions between the primary PGMs and infiltrating metamorphic-hydrothermal fluids with a range of Os-isotope compositions. This redistribution of Os in PGMs during metamorphism has significant implications for the interpretation of both whole-rock and in situ Os-isotope data in mantle-derived rocks.
ISSN:0091-7613
1943-2682
DOI:10.1130/G33064.1