Primitive oxygen-isotope ratio recorded in magmatic zircon from the Mid-Atlantic Ridge

The oxygen-isotope composition of the Earth's upper mantle is an important reference for understanding mantle and crust geochemical cycles. Olivine is the most commonly used mineral for determining the influence of crustal processes on the oxygen-isotope ratio (delta O-18) of primitive rocks, however it is an uncommon mineral in continental crust and readily alters at or near Earth's surface. Here we report the first measurements of oxygen-isotope ratios in zircon from oceanic crust exposed at a mid-ocean ridge. Measurements of delta O-18 and trace elements were made by ion microprobe on zircon in polished rock chips of gabbro and veins in serpentinized peridotite drilled from the Mid-Atlantic Ridge. The zircon grains contain both oscillatory and sector growth zoning, features characteristic of magmatic zircon. Values of delta O-18 (zircon) = 5.3 +/- 0.8 parts per thousand (2 st. dev., n = 68) for the population are consistent with the interpretation that these grains are igneous in origin and formed in high-temperature isotopic equilibrium with mantle oxygen. The delta O-18 values demonstrate that zircon in oceanic crust preserves primitive delta O-18 in spite of sub-solidus alteration of the whole rock. The fact that the primitive delta O-18 (zircon) values fall in a narrow range (5.3 +/- 0.8 parts per thousand) strengthens the use of oxygen isotopes in zircon as a tracer to identify processes of exchange in a wide range of modem and ancient crustal environments, including subducted oceanic crust (eclogite), and also in the oldest known pieces of Earth, >3900 million-year-old detrital zircon grains from Western Australia.