Local Origin of High Pressure Vein Material in Eclogite Facies Rocks of the Zermatt-Saas Zone, Switzerland

doi:10.2475/ajs.301.7.627

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Local Origin of High Pressure Vein Material in Eclogite Facies Rocks of the Zermatt-Saas Zone, Switzerland

Timo Widmer and Alan Bruce Thompson^*

Department of Earthsciences, ETH Zürich, CH-8092, Switzerland

Prograde dehydration reactions within metabasalts at the blueschisteclogitefacies transition produce kyanite veins, usually with quartz,sometimes with omphacite or chloritoid, of up to several meterslength and 20 cm width. Bulk rock analyses show clear depletionhaloes for Al₂O₃ and SiO₂ near the veins. Mass balance calculationssupport the suggestion that the vein material must have beenderived from the immediate surroundings. These veins are interpretedas local segregation phenomena and not as fluid dehydrationchannels of the eo-Alpine subduction zone. Calculations havebeen performed for a stagnant vein formation model that considersthe rate of the dehydration reactions (k) responsible for providingthe H₂O for Al and Si transport and the rate of diffusion (D)of these from wall rock to growing vein. The model is satisfiedfor quite a wide range of values for k/D and upper limits onthe duration of diffusional vein formation of about 1 Ma areindicated.

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