Abstract
Until now, light-element isotopic anomalies have been confined to primitive chondritic meteorites. Bencubbin, an unusual breccia found in Australia, comprising 60–75% metal with silicate and chondritic clasts1–4 in a shock-welded matrix5,6, has been shown7–9 to contain an unprecedented enrichment (by a factor of 2) of 15N, presumably a nucleosynthetic product which escaped homogeniz-ation in the solar nebula. Here we show that virtually all the nitrogen in Bencubbin is enriched, with a maximum δ15N of +1,033‰. The nitrogen resides in two acid-resistant components, one more so than the other, which are present in different proportions in the metal and silicate. The more resistant component could be carbonaceous, with an unusually low C:N ratio and without an anomalous carbon isotopic composition (δ13C ≃ +25%‰). Another possible host is a chromium-rich sulphide, which would indicate processing in a supernova10.
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Franchi, I., Wright, I. & Pillinger, C. Heavy nitrogen in Bencubbin—a light-element isotopic anomaly in a stony-iron meteorite. Nature 323, 138–140 (1986). https://doi.org/10.1038/323138a0
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DOI: https://doi.org/10.1038/323138a0
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