Iodine-xenon dating of chondrules from the Qingzhen and Kota Kota enstatite chondrites

J. A. Whitby; J. D. Gilmour; G. Turner; M. Prinz; R. D. Ash

doi:10.1016/S0016-7037(01)00783-9

Iodine-xenon dating of chondrules from the Qingzhen and Kota Kota enstatite chondrites

J. A. Whitby, J. D. Gilmour, G. Turner, M. Prinz, R. D. Ash

Research output: Contribution to journal › Article › peer-review

Abstract

Initial 129l/127I values (I-Xe ages) have been obtained for individual mineralogically characterized chondrules and interchondrule matrix from the enstatite chondrites Qingzhen (EH3) and Kota Kota (EH3). In view of the absence of aqueous alteration and the low-peak metamorphic temperatures experienced by these meteorites, we suggest that the I-Xe ages for the chondrules record the event in which they were formed. These ages are within the range recorded for chondrules from ordinary chondrites, demonstrating that chondrules formed during the same time interval in the source regions of both ordinary chondrites and enstatite chondrites. The timing of this chondrule-forming episode or episodes brackets the I-Xe closure age of planetesimal bodies such as the Shallowater aubrite parent body. Although chondrule formation need not have occured close to planetesimals, the existence of planetesimals at the same time as chondrule formation provides constraints on models of this process. Whichever mechanisms are proposed to form and transport chondrules, they must be compatible with models of the protosolar nebula which predict the formation of differentiated bodies on the same timescale at the same heliocentric distance. Copyright © 2001 Elsevier Science Ltd.

Original language	English
Pages (from-to)	347-359
Number of pages	12
Journal	Geochimica et Cosmochimica Acta
Volume	66
Issue number	2
DOIs	https://doi.org/10.1016/S0016-7037(01)00783-9
Publication status	Published - 2002

Keywords

Enstatite chondrites (Qingzhen (EH3) and Kota Kota (EH3); new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body); Asteroids; Aubrite meteorites (aubrite meteorite parent body; new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body); Geological age (iodine-xenon; new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body); Chondrules; Solar nebula (new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body)

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title = "Iodine-xenon dating of chondrules from the Qingzhen and Kota Kota enstatite chondrites",

abstract = "Initial 129l/127I values (I-Xe ages) have been obtained for individual mineralogically characterized chondrules and interchondrule matrix from the enstatite chondrites Qingzhen (EH3) and Kota Kota (EH3). In view of the absence of aqueous alteration and the low-peak metamorphic temperatures experienced by these meteorites, we suggest that the I-Xe ages for the chondrules record the event in which they were formed. These ages are within the range recorded for chondrules from ordinary chondrites, demonstrating that chondrules formed during the same time interval in the source regions of both ordinary chondrites and enstatite chondrites. The timing of this chondrule-forming episode or episodes brackets the I-Xe closure age of planetesimal bodies such as the Shallowater aubrite parent body. Although chondrule formation need not have occured close to planetesimals, the existence of planetesimals at the same time as chondrule formation provides constraints on models of this process. Whichever mechanisms are proposed to form and transport chondrules, they must be compatible with models of the protosolar nebula which predict the formation of differentiated bodies on the same timescale at the same heliocentric distance. Copyright {\textcopyright} 2001 Elsevier Science Ltd.",

keywords = "Enstatite chondrites (Qingzhen (EH3) and Kota Kota (EH3); new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body); Asteroids; Aubrite meteorites (aubrite meteorite parent body; new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body); Geological age (iodine-xenon; new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body); Chondrules; Solar nebula (new constraints on solar nebula evolution provided by I-Xe ages of enstatite chondrite chondrules that are contemporaneous with terminal differentiation of the Shallowater aubrite parent body)",

author = "Whitby, {J. A.} and Gilmour, {J. D.} and G. Turner and M. Prinz and Ash, {R. D.}",

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AU - Prinz, M.

AU - Ash, R. D.

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ER -

Iodine-xenon dating of chondrules from the Qingzhen and Kota Kota enstatite chondrites

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