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Mechanical twinning of monazite expels radiogenic lead

Denis Fougerouse, Steven M. Reddy, Anne‐Magali Seydoux‐Guillaume, Christopher L. Kirkland, Timmons M. Erickson, David W. Saxey, William D.A. Rickard, Damien Jacob, Hugues Leroux, Chris Clark

2020Geology30 citationsDOIOpen Access PDF

Abstract

Abstract Mechanical twins form by the simple shear of the crystal lattice during deformation. In order to test the potential of narrow twins in monazite to record the timing of their formation, we investigated a ca. 1700 Ma monazite grain (from the Sandmata Complex, Rajasthan, India) deformed at ca. 980 Ma, by electron backscattered diffraction (EBSD), transmission electron microscopy (TEM), and atom probe tomography (APT). APT 208Pb/232Th ages indicate that the twin was entirely reset by radiogenic Pb loss during its formation at conditions far below the monazite closure temperature. The results are consistent with a model where Pb is liberated during rupture of rare earth element–oxygen (REE-O) bonds in the large [REE]O9 polyhedra during twinning. Liberated Pb likely migrated along fast diffusion pathways such as crystal defects. The combination of a quantitative microstructural investigation and nanogeochronology provides a new approach for understanding the history of accessory phases.

Topics & Concepts

MonaziteCrystal twinningRadiogenic nuclideMetamorphic rockGeologyRare-earth elementElectron backscatter diffractionMaterials scienceCrystallographyMineralogyGeochemistryZirconMicrostructureMetallurgyChemistryRare earthMantle (geology)Geological and Geochemical AnalysisMetal Extraction and BioleachingHigh-pressure geophysics and materials