The formation of modified zircons in F-rich highly-evolved granites: An example from the Shuangji granites in Eastern Tianshan, China

Two populations of zircons are present in the F-rich highly evolved 300 Ma Shuangji granites, Xinjiang, eastern Tianshan, China. Zircon I comprise a very small proportion of the population. They show characteristics of primary igneous zircons and yield an age of ca. 300 Ma. Zircon II are the dominant type and are weakly luminescent under cathodoluminescence (CL) but show a range of complex textures in back-scattered electron (BSE) images. Zircon II are characterized by Th-U-rich mineral inclusions not seen in zircon I and can be divided into zircon Ila and zircon IIb. Autometasomatism during the magmatic-hydrothermal phase of the highly evolved Shuangji granites, fluids rich in F interacted with zircon I through a coupled dissolution-reprecipitation process forming pores and cracks in the zircon grains. The simultaneous alteration of U-rich euxenite, released high amounts of U and Th into the fluids. Interaction of these fluids with porous zircon I resulted in the precipitation of U- and Th-rich inclusions in the zircon I grains. Radiation damage resulted in the formation of metamict zircons. Later hydrothermal alteration affected the metamict zircons, forming nanoscale baddeleyite in the amorphous zone. Subsequent radiation damage accumulated continuously resulting in the final textures of zircon II. Crown Copyright (C) 2018 Published by Elsevier B.V. All rights reserved.