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First known EL5 chondrite—evidence for dual genetic sequence for enstatite chondrites

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Abstract

The enstatite chondrites form two compositionally distinct groups—the EH and EL chondrites—and four petrologic types (types 3–6), where each type represents increasing degrees of metamorphic alteration1,2. Prior to the recovery of the Antarctic meteorite Reckling Peak A80259, the subject of the present report, all known EL chondrites were petrologic type 6, whereas all known EH chondrites were types 3–5. It has long been appreciated that the variations in bulk composition preclude a simple conversion of EH4 material into EL6 material3–7. However, complex models involving simultaneous variations in bulk composition and petrologic type have been discussed1,5,8,9 and may be implied by other classification schemes in common use; that of Anders-Keil (type I–intermediate–type II) and that of Van Schmus and Wood (E3-E4-E5-E6). We report here the discovery of the first EL5 chondrite. An EL5 breaks the EH3,4-EH5-EL6 sequence, and indicates that the enstatite chondrites constitute two discrete, isochemical metamorphic sequences, EH3–5 and EL5–6.

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Author notes

  1. Alan E. Rubin

    Present address: Institute of Geophysics and Planetary Physics, University of California at Los Angeles, Los Angeles, California, 90024, USA

Authors and Affiliations

  1. Department of Chemistry, University of Arkansas, Fayetteville, Arkansas, 72701, USA

    Derek W. G. Sears & Karen S. Weeks

  2. Department of Mineral Sciences, National Museum of Natural History, Smithsonian Institution, Washington, DC, 20560, USA

    Alan E. Rubin

Authors
  1. Derek W. G. Sears
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  2. Karen S. Weeks
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  3. Alan E. Rubin
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Sears, D., Weeks, K. & Rubin, A. First known EL5 chondrite—evidence for dual genetic sequence for enstatite chondrites. Nature 308, 257–259 (1984). https://doi.org/10.1038/308257a0

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