Timing of geological events in the lunar highlands recorded in shocked zircon-bearing clasts from Apollo 16
Timing of geological events in the lunar highlands recorded in shocked zircon-bearing clasts from Apollo 16
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Date
2020
Authors
Joy, Katherine H.
https://orcid.org/0000-0003-4992-8750
Snape, J. F.
Nemchin, A. A.
Tartèse, Romain
Martin, D. M.
Whitehouse, M. J. (Martin J.)
Vishnyakov, V.
Pernet-Fisher, J. F.
Kring, David A. (David Allen)
Journal Title
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Volume Title
Publisher
Royal Society
Abstract
Apollo 16 soil-like regolith breccia 65745,7 contains two zircon-bearing clasts. One of these clasts is a thermally annealed silica-rich rock, which mineralogically has affinities with the High Alkali Suite (Clast 1), and yields zircon dates ranging from 4.08 to 3.38 Ga. The other clast is a KREEP-rich impact melt breccia (Clast 2) and yields zircon dates ranging from 3.97 to 3.91 Ga. The crystalline cores of both grains, which yield dates of ca 3.9 Ga, have undergone shock pressure modification at less than 20 GPa. We interpret that the U-Pb chronometer in these zircon grains has been partially reset by the Imbrium basin-forming event when the clasts were incorporated into the Cayley Plains ejecta blanket deposit. The zircon grains in Clast 1 have been partially decomposed, resulting in a breakdown polymineralic texture, with elevated U, Pb and Th abundances compared with those in the crystalline zircon. These decomposed areas exhibit younger dates around 3.4 Ga, suggesting a secondary high-pressure, high-temperature event, probably caused by an impact in the local Apollo 16 highlands area.
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Keywords
Zircon,
Regolith,
Lunar geology
Citation
Joy KH, Snape JF, Nemchin AA, Tartèse R, Martin DM, Whitehouse MJ, Vishnyakov V, Pernet-Fisher JF, Kring DA. 2020 Timing of geological events in the lunar highlands recorded in shocked zircon-bearing clasts from Apollo 16. R. Soc. Open Sci. 7: 200236. http://dx.doi.org/10.1098/rsos.200236