Becker, Maike ORCID: 0000-0002-6732-5411, Hezel, Dominik C., Schulz, Toni ORCID: 0000-0003-1248-7832, Elfers, Bo-Magnus ORCID: 0000-0003-0548-772X and Muenker, Carsten (2015). Formation timescales of CV chondrites from component specific Hf-W systematics. Earth Planet. Sci. Lett., 432. S. 472 - 483. AMSTERDAM: ELSEVIER SCIENCE BV. ISSN 1385-013X

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Abstract

Carbonaceous chondrites are an important meteorite group that closely resembles the bulk composition of the solar system. We report the first elemental and isotope dataset for Hf-W in carbonaceous chondrites that includes chondrules, matrix, magnetic fractions as well as bulk compositions. Our study focuses on the three CV3 chondrites, Allende, Vigarano and Bali. Compared to bulk chondrites, matrix splits have low Hf/W ratios and epsilon W-182 compositions, whereas chondrule splits are characterized by high, but more variable, Hf/W ratios and epsilon W-182 compositions. Thus, Hf/W ratios behave complementary between chondrules and matrix in the analysed CV chondrites, supporting the view that both components formed from the same parental reservoir. Strong nucleosynthetic effects were observed in most of the analysed CV3 components, especially in matrices and chondrule splits that were found to have large epsilon W-183 anomalies of several epsilon-units. All separates define a rough correlation between initial W-182/W-184 and W-183/W-184 ratios, in agreement with theoretical model trends based on calculations for stellar nucleosynthesis. Our results, therefore, indicate a heterogeneous distribution of s- and r-process W isotopes among the different CV3 chondrite components, arguing for selective thermal processing of early solar system matter during chondrule formation. After correcting for nucleosynthetic anomalies, chondrules and matrix splits of reduced (Vigarano) as well as oxidised (Allende) CV3 chondrites define a linear correlation in epsilon W-182 vs. Hf-180/W-184 space, which is interpreted as an isochron, covering an age interval within the first similar to 2.6 Ma after solar system formation. As peak metamorphic temperatures for CV3 chondrites were well below the Hf-182-W-182 closure temperature, the resulting isochron within its error most likely defines a common formation interval for all components. The calculated age interval is for the first time based on a combined chondrule-matrix isochron, a marked difference compared to previous studies where only chondrules were analysed. Notably, our formation age interval covers previously reported chondrule formation ages determined using Al-26 and Pb-Pb chronometry, illustrating that chondrule and matrix formation started contemporaneously with CAI formation and lasted over a time interval of about 2-3 Ma. Our results also corroborate previous models from ordinary chondrites, in that chondrite parent bodies were not the first planetesimals to have formed in the early solar system. (C) 2015 Elsevier B.V. All rights reserved.

Item Type: Journal Article
Creators:
CreatorsEmailORCIDORCID Put Code
Becker, MaikeUNSPECIFIEDorcid.org/0000-0002-6732-5411UNSPECIFIED
Hezel, Dominik C.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Schulz, ToniUNSPECIFIEDorcid.org/0000-0003-1248-7832UNSPECIFIED
Elfers, Bo-MagnusUNSPECIFIEDorcid.org/0000-0003-0548-772XUNSPECIFIED
Muenker, CarstenUNSPECIFIEDUNSPECIFIEDUNSPECIFIED
URN: urn:nbn:de:hbz:38-383711
DOI: 10.1016/j.epsl.2015.09.049
Journal or Publication Title: Earth Planet. Sci. Lett.
Volume: 432
Page Range: S. 472 - 483
Date: 2015
Publisher: ELSEVIER SCIENCE BV
Place of Publication: AMSTERDAM
ISSN: 1385-013X
Language: English
Faculty: Unspecified
Divisions: Unspecified
Subjects: no entry
Uncontrolled Keywords:
KeywordsLanguage
PROTRACTED CORE FORMATION; SOLAR-SYSTEM; RAPID ACCRETION; IRON-METEORITES; CARBONACEOUS CHONDRITES; ISOTOPIC COMPOSITION; CHONDRULE FORMATION; NEUTRON-CAPTURE; COOLING HISTORY; PARENT BODIESMultiple languages
Geochemistry & GeophysicsMultiple languages
URI: http://kups.ub.uni-koeln.de/id/eprint/38371

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