Hydration, 18O enrichment and oxidation during ocean floor hydrothermal metamorphism of ophiolitic metabasic rocks from E. Liguria, Italy

During ocean-floor hydrothermal metamorphism of a 225 m thick allochthonous Jurassic sequence of ophiolitic pillow lavas and underlying material in E. Liguria, Italy, the rocks were hydrated, enriched in ¹⁸O and oxidised. H ₂O ⁺ contents increased from ~0.3 to 3.8 wt.%, δ¹⁸O values increased from ~ +6‰ to values as high as +13.2‰, and ( Fe ₂O ₃/FeO∗) increased from 0.18 to ratios as high as 1.0. Both δ¹⁸O values and oxidation ratios decrease in the original direction of increasing depth. Pillow margins are consistently more enriched in ¹⁸O and are more oxidised than cores. These observations are qualitatively interpreted in terms of a non-isothermal, heterogeneous reaction model of interaction of basalt with oxygen-bearing sea water during flow through the packed bed of pillows. Fluid flow approximated undirectional downward motion, and occurred in the recharge part of a cycle of single pass convection. Mass transfer through the pile was by flow (infiltration metasomatism), whereas intra-pillow mass transfer was diffusional. Oxygen isotope exchange and oxidation did not occur under conditions of perfect incremental equilibrium. An integrated bulk volumetric water/rock ratio of ~2 × 10 ³:1 is estimated from the oxidation profile.