Calcium isotopic ratios and rare earth element abundances in refractory inclusions from the Allende CV3 chondrite

Refractory inclusions in primitive meteorites are the oldest objects formed in the Solar System. They exhibit large mass-dependent isotopic effects in many elements, including Si, Mg and Ca, indicative of their complex origin. We report data for both mass-dependent (δ) and mass-independent (ε) Ca is...

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Bibliographic Details
Published in:Geochimica et cosmochimica acta 2012-01, Vol.77 (15), p.252-265
Main Authors: Huang, Shichun, Farkaš, Juraj, Yu, Gang, Petaev, Michail I., Jacobsen, Stein B.
Format: Article
Language:English
Subjects:
calcium
evaporation
isotopes
magnesium
rare earth elements
silicon
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Summary:Refractory inclusions in primitive meteorites are the oldest objects formed in the Solar System. They exhibit large mass-dependent isotopic effects in many elements, including Si, Mg and Ca, indicative of their complex origin. We report data for both mass-dependent (δ) and mass-independent (ε) Ca isotopic effects, and rare earth element (REE) abundances in six refractory inclusions from the Allende CV3 meteorite. Our data reveal large mass-dependent Ca isotopic effects in these refractory inclusions, with δ44/40Ca ranging from −5.60 to +0.35 (relative to NIST SRM 915a), which are significantly lower than that of the bulk silicate Earth (δ44/40Ca=1.05±0.04). Importantly, δ44/40Ca is correlated with REE patterns: refractory inclusions with Group II REE patterns have lighter Ca isotope compositions compared to those with Group I REE patterns. Specifically, the studied refractory inclusions form negative 44Ca/40Ca–Tm/Er and 44Ca/40Ca–Nd/Er trends, implying segregation of up to 3% of an ultrarefractory evaporation residue from a chondritic reservoir prior to the formation of refractory inclusions. This residue would have to be characterized by high 44Ca/40Ca and low Tm/Er and Nd/Er. At 2σ levels of ±0.5 and ±1.5 for ε40/44Ca and ε43/44Ca, respectively, the six refractory inclusions studied show no detectable 40Ca or 43Ca anomalies relative to the terrestrial standards. However, five out of the six refractory inclusions do show a 48Ca excess of several ε-units, clearly resolvable from the terrestrial standards.
ISSN:0016-7037
1872-9533
DOI:10.1016/j.gca.2011.11.002