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Atomic-scale Th and U segregation into dislocation cores and U-Pb age discordance in xenotime
- 1.0570948 - GLÚ 2024 RIV NL eng J - Journal Article
Budzyń, B. - Wirth, R. - Sláma, Jiří - Kozub-Budzyń, G. A. - Schreiber, A.
Atomic-scale Th and U segregation into dislocation cores and U-Pb age discordance in xenotime.
Lithos. 444-445, May (2023), č. článku 107105. ISSN 0024-4937. E-ISSN 1872-6143
Institutional support: RVO:67985831
Keywords : Line crystal defects * Dissolution-reprecipitation * U-Th-Pb geochronology * Age disturbance * Reverse discordance
OECD category: Mineralogy
Impact factor: 3.5, year: 2022
Method of publishing: Open access
https://www.sciencedirect.com/science/article/pii/S0024493723000890?via%3Dihub
The distribution of Th and U in a crystal of pegmatitic xenotime-(Y) (henceforth named xenotime) from Ås II feldspar quarry (Evje, S Norway) has been studied with transmission electron microscopy (TEM) to determine submicron- to nanoscale processes that might have affected U-(Th-)Pb age record. Xenotime contains high Th and U unaltered domains, and Th and U depleted altered domains, which contain numerous inclusions of (Th, U)- silicate and uraninite. A focused ion beam foil (FIB-foil) prepared from the unaltered xenotime, examined with transmission electron microscopy (TEM), revealed a network of ca. 15–20 nm-thick and up to several hundred nanometers-long dislocations. The dislocation cores contain U, Th and Si enriched material, and are surrounded on both sides by radiation-damaged xenotime. Rarely present “empty” dislocations are indicative of nanoscale-sized porosity in xenotime. The presence of a network of line defects in xenotime indicates plastic deformation of the xenotime crystal, which resulted in an initial stage of the formation of partially open phase boundaries. The dislocations network has been infiltrated by fluid, which mediated coupled dissolutionreprecipitation reactions. Segregation of U and Th into the dislocation cores, and selective transport of highly fluid-mobile U outside of the xenotime is suggested to be a source of Pb-excess and reverse discordance in the 207Pb/235U vs. 206Pb/238U concordia diagrams. The new finding of migration and finally segregation of U and Th into dislocation cores at the atomic-scale demonstrates the importance of nanoscale investigations for better understanding of the obtained age data and provides crucial implications for applications of xenotime geochronology.
Permanent Link: https://hdl.handle.net/11104/0342748
Number of the records: 1