S. Cloudt scite author profile

We have measured the 13C/12C and 14C/12C ratios in CO2 released by acid etching of the meteorites Zagami and Allan Hills 84001. We use the 14C as a label to identify extraterrestrial carbonate phases, as they will have a low 14C/12C ratio (<∼4% modern terrestrial ratio) compared to recent terrestrial material. The new studies on Allan Hills 84001 confirm previous conclusions that the Fe, Mg‐rich carbonate grains in this meteorite contain carbon with δ13C as high as +45‰. In contrast, the carbon released from Zagami is depleted in 13C with δ13C as low as ∼20‰. We conclude that the isotopic composition of the carbon as carbonate released from acid etching of Zagami is different from the carbonates observed in both Allan Hills 84001 and Nakhla. With the assumption that all of these meteorites sample the surface of Mars, we propose that the Zagami carbonate samples a different carbon reservoir on this planet, such as a magmatic source. With this interpretation, the high δ13C values of carbonate observed in Allan Hills 84001 and Nakhla can be ascribed to a fractionated source compared with the originally light carbon. A likely origin for this 13C‐enriched component is an isotopically heavy Martian atmosphere; however, given the possibility of biological activity involving Allan Hills carbonates, we cannot exclude this as a source of the isotopic fractionation.

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¹⁴ C terrestrial ages of meteorites from Victoria Land, Antarctica, and the infall rates of meteorites

Jull

Cloudt

Cielaszyk

1998

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The results of 14C measurements of 95 meteorites from the Allan Hills region in Antarctica are reported, and terrestrial residence ages calculated. This includes meteorites from the different icefields at Allan Hills and the adjacent Elephant Moraine meteorite stranding area. We determined that terrestrial ages of these Antarctic meteorites can range from recent falls to >40 ka, which is the practical limit for these 14C measurements. The terrestrial age determinations on meteorites from these sites can vary dramatically; the differences between the ages observed from these sites and some of the factors influencing them are discussed. Weathering products found on these meteorites show ~4C ages younger than the terrestrial age of the meteorites studied. Calculation of infall rates based on meteorites recovered and their age distributions suggests a minimum infall rate of 40-60 meteorites (>10g) per 106km 2 per year, in reasonable agreement with the infaU rates estimated by Halliday's group based on meteoroid fluxes.

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14C depth profiles in Apollo 15 and 17 cores and lunar rock 68815

Jull

Cloudt

Donahue

et al. 1998

Geochimica et Cosmochimica Acta

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Studies of weathering and terrestrial ages of desert meteorites using AMS14C and10Be

et al. 1998

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S. Cloudt

The flux of meteorites to the Earth over the last 50 000 years

Isotopic composition of carbonates in the SNC meteorites, Allan Hills 84001 and Zagami

¹⁴ C terrestrial ages of meteorites from Victoria Land, Antarctica, and the infall rates of meteorites

14C depth profiles in Apollo 15 and 17 cores and lunar rock 68815

Studies of weathering and terrestrial ages of desert meteorites using AMS14C and10Be

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S. Cloudt

The flux of meteorites to the Earth over the last 50 000 years

Isotopic composition of carbonates in the SNC meteorites, Allan Hills 84001 and Zagami

14 C terrestrial ages of meteorites from Victoria Land, Antarctica, and the infall rates of meteorites

14C depth profiles in Apollo 15 and 17 cores and lunar rock 68815

Studies of weathering and terrestrial ages of desert meteorites using AMS14C and10Be

Contact Info

Product

Resources

About

¹⁴ C terrestrial ages of meteorites from Victoria Land, Antarctica, and the infall rates of meteorites