The Aarmassif or Aaremassif (German: Aarmassiv) is a geologic massif in the Swiss Alps. It contains a number of large mountain chains and parts of mountain chains.

Geology of the Alps
Tectonic subdivision

Helvetic Zone

Penninic nappes
Austroalpine nappes
Southern Alps
Formations & rocks

Bündner schist | flysch | molasse

Geological structures

Aarmassif | Dent Blanche klippe | Engadine window | Flysch zone | Giudicárie line | Greywacke zone | Hohe Tauern window | Molasse basin | Penninic thrustfront | Periadriatic Seam | Ivrea zone | Lepontin dome | Rechnitz window | Rhône-Simplon line | Sesia unit

Paleogeographic terminology

Valais Ocean

Briançonnais zone
Piemont-Liguria Ocean
Apulian or Adriatic plate


The massif is named after the Aar, a river that has its source in the Aarmassif.


The Aarmassif crops out in the eastern part of the Bernese Alps and the Lepontine Alps, roughly form Leukerbad in the west to the Tödi in the east. Further east the massif only appears in small windows like the Vättner window between Gigerwald and Vättis in Sankt Gallen and at the Limmerensee in the same canton.

Tectonics and lithology

The Aarmassif is part of the Helvetic zone of the Alps, which consists of material originally from the European tectonic plate. The Aarmassif has lithologies common for Paleozoic basement rocks all over Europe, deformed and metamorphosed during the Variscan orogeny. Younger Mesozoic sedimentary rocks were eroded from this basement as a thrust fault brought the basement to the surface in the Alpine orogeny. Other places, where the European basement crops out in the Helvetic zone, are the mountain chains of the Massif des Écrins and of Mont Blanc in the French and Italian Alps.

The lithologies of the basement rocks are mainly gneisses, schists and amphibolites. These were in some places intruded by Permian granites after the Variscan orogeny, called Aare granite. During a late phase in the Alpine orogeny in the Tertiary the Aarmassif was uplifted in the form of a large elongated dome structure. The overlying limestones of the Helvetic nappes now have a very high dip angle, forming a ridge that appears at the Eiger and south of the Jungfrau mountain.

See also

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