Gaussberg; volcanology and petrology
Gaussberg; volcanology and petrology (in Volcanism in Antarctica; 200 million years of subduction, rifting and continental break-up, John L. Smellie (editor), Kurt Samuel Panter (editor) and A. Geyer (editor))
Memoirs of the Geological Society of London (2021) 55: 615-628
- Antarctica
- Cenozoic
- clastic sediments
- correlation
- crust
- East Antarctica
- erratics
- eruptions
- glacial features
- igneous rocks
- inclusions
- Kerguelen Plateau
- lamproite
- lava
- lithofacies
- magmas
- mantle
- nunataks
- pillow lava
- plutonic rocks
- Quaternary
- sediments
- ultrapotassic composition
- volcanic centers
- volcanic features
- volcanoes
- xenoliths
- Gaussberg
Gaussberg is a nunatak composed of lamproite pillow lava situated on the coast of East Antarctica. It is the most isolated Quaternary volcanic centre in Antarctica but it is important paleoenvironmentally and petrologically out of all proportion to its small size. The edifice has a likely low, shield-like, morphology c. 1200 m high and possibly up to 10 km wide, which is unusually large for a lamproite construct. Gaussberg was erupted subglacially at 56 + or - 5 ka, which places it late in the last glacial, close to the peak of marine isotope stage 3. The coeval ice sheet was c. 1300 m thick, and c. 420 m has been removed from the ice surface since Gaussberg erupted. Lamproite is a rare ultrapotassic mantle-derived magma, and Gaussberg is one of two type examples worldwide. Although traditionally considered as related in some way to the Kerguelen plume, it is more likely that the Gaussberg magma is a product of a separate magmatic event. It is ascribed to the storage and long-term (Gy) isolation of sediment emplaced by subduction in the Transition Zone of the deep mantle, followed by entrainment and subsequent melting in a plume.
