Penetration of deformation‐driven meteoric water into ductile rocks: Isotopic and model observations from the Southern Alps, New Zealand

Abstract A stable isotope laser fluorination probe was used to examine oxygen isotope zoning within foliation‐parallel quartz veins of two Alpine Fault mylonite samples and two Alpine Schist samples, all of amphibolite facies. The technique used has a spatial resolution of c. 1 mm, and we found variation of a18O values within individual samples and between schist and mylonites. a18O values from individual mylonite quartz veins showed a slight variation of up to 1‰. By contrast, there was up to 2.4‰ variation within veins from outside the fault zone. Equilibrium fluid a18O values were calculated for aqueous fluids from which the quartz precipitated. The calculated values range from 5 to 13‰. They suggest the involvement of a near‐surface fluid just beneath the brittle‐ductile transition which is depleted in 18O relative to the fluid calculated to be in equilibrium with the local meta‐morphic assemblage. The geochemical evidence of penetration of fluids depleted in 18O into ductile rocks constrains models o...

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