Oxygen and hydrogen isotopic composition of Alpine and pre-Alpine minerals of the Swiss Central Alps

The rocks of the Swiss Central Alps consist of pre-Mesozoic and Mesozoic rocks which were metamorphosed during the Alpine orogeny. Eightysix samples from this area have been analyzed for their isotopic composition (310 mineral phases for their ¹⁸O values and 99 mineral phases for their D values).The mineral phases of pre-Mesozoic and Mesozoic rocks differ significantly in their stable isotope composition. The minerals in pre-Mesozoic rocks display a rather uniform oxygen and hydrogen isotope composition indicative of large-scale homogenization with magmatic fluids. The mineral phases of Mesozoic rocks, on the other hand, show a large variation in their isotopic composition, their ¹⁸O values are heavier, and their D values are isotopically lighter than the pre-Mesozoic phases. These data indicate the lack of a large-scale water supply to the gneissic cores of the Penninic nappes during Alpine metamorphism.Equilibrium conditions, as indicated by concordant oxygen isotope temperatures, are attained in several samples; disequilibrium, however, is more frequently observed, mainly in the central part of the Lepontin area. The pre-Mesozoic rocks recrystallized during Alpine metamorphism. This process was accompanied by partial reequilibration of the oxygen isotopes, and took place in a closed system. In the pre-Mesozoic rocks, the oxygen isotope fractionations, therefore, reflect the temperatures at the time of this recrystallization which, in many cases, is not the maximum temperature of Alpine metamorphism. There is strong evidence that oxygen isotope ratios are frozen during the progressive phase of a metamorphic event.Oxygen isotope fractionations indicate temperatures of Alpine metamorphism ranging from 500 ° C near Andermatt to 700 ° C near the Bergell granite.