Oxygen isotopic composition and U-Pb discordance in zircon

We have investigated U-Pb discordance and oxygen isotopic composition of zircon using high-spatial resolution δ¹⁸O measurement by ion microprobe. δ¹⁸O in both concordant and discordant zircon grains provides an indication of the relationship between fluid interaction and discordance. Our results suggest that three characteristics of zircon are interrelated: (1) U-Pb systematics and concomitant age discordance, (2) δ¹⁸O and the water-rock interactions implied therein, and (3) zircon texture, as revealed by cathodoluminescence and BSE imaging. A key observation is that U-Pb-disturbed zircons are often also variably depleted in ¹⁸O, but the relationship between discordance and δ¹⁸O is not systematic. δ¹⁸O values of discordant zircons are generally lighter but irregular in their distribution. Textural differences between zircon grains can be correlated with both U-Pb discordance and δ¹⁸O. Discordant grains exhibit either a recrystallized, fractured, or strongly zoned CL texture, and are characteristic of ¹⁸O depletion. We interpret this to be a result of metamictization, leading to destruction of the zircon lattice and an increased susceptibility to lead loss. Conversely, grains that are concordant have less-expressed zoning and a smoother CL texture and are enriched in ¹⁸O. From this it is apparent that various stages of water-rock interaction, as evidenced by systematic variations in δ¹⁸O, leave their imprint on both the texture and U-Pb systematics of zircon.