Abstract

Hydrothermally intergrown xenotime–monazite from an episyenite in the Bohus granite, southwest Sweden, has been analyzed in situ by ion microprobe. Although the analysed xenotime crystals are extremely small, sometimes less than the ion beam diameter (∼17 μm), they retain relatively undisturbed U–Pb systems, which yielded a 206Pb/ 238U age of 252±8 Ma. The evolution of this episyenite involved an initial stage of quartz dissolution accompanied by albitization, followed by a second stage of vug-infilling and replacement of igneous Fe–Ti phases. The obtained age shows that the second alteration stage, during which xenotime was precipitated, was coeval with the thermal anomaly associated with Permo-Carboniferous crustal thinning and the development of the nearby Oslo Rift. Moreover, the development of the permeable episyenite structure must be ascribed to a preceding high-temperature event, most likely the post-magmatic cooling of the host granite at 920 Ma. This study shows that U–Pb dating of young xenotimes may address geochronological problems, though further work is required to characterize possible matrix effects which presently limit the accuracy of the method.

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