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W2006362122 abstract "We have investigated the distribution and isotopic composition of nitrogen and noble gases, and the Ar–Ar chronology of the Bencubbin meteorite. Gases were extracted from different lithologies by both stepwise heating and vacuum crushing. Significant amounts of gases were found to be trapped within vesicles present in silicate clasts. Results indicate a global redistribution of volatile elements during a shock event caused by an impactor that collided with a planetary regolith. A transient atmosphere was created that interacted with partially or totally melted silicates and metal clasts. This atmosphere contained 15N-rich nitrogen with a pressure ⩾3 × 105 hPa, noble gases, and probably, although not analyzed here, other volatile species. Nitrogen and noble gases were re-distributed among bubbles, metal, and partly or totally melted silicates, according to their partition coefficients among these different phases. The occurrence of N2 trapped in vesicles and dissolved in silicates indicates that the oxygen fugacity (fO2) was greater than the iron–wüstite buffer during the shock event. Ar–Ar dating of Bencubbin glass gives an age of 4.20 ± 0.05 Ga, which probably dates this impact event. The cosmic-ray exposure age is estimated at ∼40 Ma with two different methods. Noble gases present isotopic signatures similar to those of “phase Q” (the major host of noble gases trapped in chondrites) but elemental patterns enriched in light noble gases (He, Ne and Ar) relative to Kr and Xe, normalized to the phase Q composition. Nitrogen isotopic data together with 40Ar/36Ar ratios indicate mixing between a 15N-rich component (δ15N = +1000‰), terrestrial N, and an isotopically normal, chondritic N. Bencubbin and related 15N-rich meteorites of the CR clan do not show stable isotope (H and C) anomalies, precluding contribution of a nucleosynthetic component as the source of 15N enrichments. This leaves two possibilities, trapping of an ancient, highly fractionated atmosphere, or degassing of a primitive, isotopically unequilibrated, nitrogen component. Although the first possibility cannot be excluded, we favor the contribution of primitive material in the light of the recent finding of extremely 15N-rich anhydrous clasts in the CB/CH Isheyevo meteorite. This unequilibrated material, probably carried by the impactor, could have been insoluble organic matter extremely rich in 15N and hosting isotopically Q-like noble gases, possibly from the outer solar system." @default.
W2006362122 created "2016-06-24" @default.
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W2006362122 date "2010-11-01" @default.
W2006362122 modified "2023-09-25" @default.
W2006362122 title "Chronology and shock history of the Bencubbin meteorite: A nitrogen, noble gas, and Ar–Ar investigation of silicates, metal and fluid inclusions" @default.
W2006362122 cites W1590339450 @default.
W2006362122 cites W190781849 @default.
W2006362122 cites W1968816420 @default.
W2006362122 cites W1974075852 @default.
W2006362122 cites W1974415092 @default.
W2006362122 cites W1982124339 @default.
W2006362122 cites W1984189326 @default.
W2006362122 cites W1987311435 @default.
W2006362122 cites W1990603248 @default.
W2006362122 cites W1991048626 @default.
W2006362122 cites W1991303069 @default.
W2006362122 cites W1993451446 @default.
W2006362122 cites W1994908984 @default.
W2006362122 cites W1997019418 @default.
W2006362122 cites W1998350691 @default.
W2006362122 cites W1999250757 @default.
W2006362122 cites W2002000619 @default.
W2006362122 cites W2003264621 @default.
W2006362122 cites W2004730650 @default.
W2006362122 cites W2006287789 @default.
W2006362122 cites W2006708499 @default.
W2006362122 cites W2007444934 @default.
W2006362122 cites W2010650692 @default.
W2006362122 cites W2011944280 @default.
W2006362122 cites W2015189938 @default.
W2006362122 cites W2015214440 @default.
W2006362122 cites W2016721154 @default.
W2006362122 cites W2017171309 @default.
W2006362122 cites W2018828056 @default.
W2006362122 cites W2021269286 @default.
W2006362122 cites W2024430005 @default.
W2006362122 cites W2025242466 @default.
W2006362122 cites W2026774609 @default.
W2006362122 cites W2038315335 @default.
W2006362122 cites W2040832209 @default.
W2006362122 cites W2044038930 @default.
W2006362122 cites W2045823546 @default.
W2006362122 cites W2046981988 @default.
W2006362122 cites W2053911535 @default.
W2006362122 cites W2060462572 @default.
W2006362122 cites W2060815913 @default.
W2006362122 cites W2062790251 @default.
W2006362122 cites W2063945684 @default.
W2006362122 cites W2064875755 @default.
W2006362122 cites W2067274448 @default.
W2006362122 cites W2082665233 @default.
W2006362122 cites W2084878778 @default.
W2006362122 cites W2091767388 @default.
W2006362122 cites W2091840766 @default.
W2006362122 cites W2116170272 @default.
W2006362122 cites W2123531734 @default.
W2006362122 cites W2123604226 @default.
W2006362122 cites W2145598654 @default.
W2006362122 cites W2154582052 @default.
W2006362122 cites W2156253060 @default.
W2006362122 cites W2166129234 @default.
W2006362122 cites W2170824326 @default.
W2006362122 cites W2172176411 @default.
W2006362122 cites W4231381747 @default.
W2006362122 doi "https://doi.org/10.1016/j.gca.2010.05.035" @default.
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