Browsing by Author "Manoj Kumar Ozha"
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PublicationArticle Geochemical evolution of uranium mineralization in the Mohuldih deposit, Singhbhum Shear Zone, India: constraints from uraninite and brannerite chemistry(Springer, 2025) Sarita Patel; Manoj Kumar OzhaThe study reports textures and compositions of uraninite and brannerite from the Mohuldih uranium deposit of the Singhbhum Shear Zone. Three types of texturally varied uraninite are identified: (i) pre-tectonic (UG−1), (ii) syn to post-tectonic (UG−2), and (iii) inclusions (UG−3). Based on UO2 and PbO composition, these are further divided into five subgroups (UG−1a, UG−2a, UG−1b, UG−2b, and UG−3). The negative correlation between the rare-earth elements including Y (ΣREE2O3 + Y2O3) and UO2 of UG−1a and UG−2a uraninite indicates substitution of REE and Y for U4+ in the structure of these grains during primary crystallization, whereas UG−1b and UG−2b resulted from REE + Y + U-enrichment during secondary fluid-induced alteration. Compositional trends further reveal post-crystallization incorporation of Na, Si, K, Ca, Ti, and Fe, replacing radiogenic Pb in the structure of uraninite. The U-Th-PbTotal dating of uraninite yields two clusters: older (~ 1.71−1.64 Ga; preserved by UG−1a and UG−2a) and younger (~ 0.93 Ga; UG−1b and UG−2b). Additionally, the extrapolated best-fit linear trend for uraninite in UG−3 population preserves chemical dates ranging from ~ 1.71 to ~ 1.64 Ga. The ~ 1.64 Ga represents a U + Y + HREE + Ca + Fe hydrothermal event, resulting in the precipitation of uraninite, followed by dissolution-reprecipitation of the mineral along the grain boundary and fractures at ~ 0.93 Ga. The oldest mesured date (~ 1.71 Ga) is attributed to partial Pb-loss by older uraninite during the ~ 1.64 Ga hydrothermal event, with no evident geological significance in the area. The dissolution-reprecipitation of the early-formed uraninite also resulted in the formation of brannerite and ilmenite during the ~ 0.93 Ga event. © The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature 2025.