Minaret Formation Stratigraphic range: Guzhangian-Cambrian Stage 10 (Merioneth-Dresbachian) ~500–488 Ma | |
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Type | Geological formation |
Unit of | Heritage Group |
Underlies | Crashsite Group Howard Nunataks Formation |
Overlies | Liberty Hills & Springer Peak Formations |
Thickness | Up to 600 m (2,000 ft) |
Lithology | |
Primary | Limestone |
Location | |
Coordinates | [ ⚑ ] : 79°24′S 84°48′W / 79.4°S 84.8°W |
Region | Ellsworth Land |
Country | Antarctica |
Extent | Ellsworth Mountains, Yochelson Ridge & Heritage Range |
Paleogeography of the Cambrian with the supercontinent Pannotia and Antarctica south of the paleo-equator |
The Minaret Formation is a Late Cambrian limestone formation of the Heritage Group of Antarctica. The age of the formation is established to be Guzhangian to Cambrian Stage 10 (or Merioneth to Dresbachian in the regional stratigraphy), dated at ranging from 500 to 488 Ma.[1]
The formation has provided the first known Late Cambrian archaeocyathid,[2] and Knightoconus antarcticus, an ancestor to the cephalopods.[3]
The Minaret Formation forms a discontinuous limestone unit exposed from Webers Peaks in the northern Heritage Range to the Independence Hills in Horseshoe Valley of the Ellsworth Mountains. At Mount Rosenthal, at the head of Horseshoe Valley, the Minaret Formation is formed predominantly of white to pale grey micritic limestone with thin, discrete interbeds of oolitic and oncolithic grainstones.[4]
The Minaret Formation is the uppermost formation of the Heritage Group, overlying the Liberty Hills and Springer Peak Formations. The formation is overlain by the Howard Nunataks Formation of the Crashsite Group.[5] The formation reaches a thickness of 600 metres (2,000 ft) in the south of its extent.[6] The formation ranges from shallow to deep marine.[7] The Minaret fauna contains the first known Late Cambrian archaeocyathid.[2] During the final stages of Gondwanian deformation, structureless and stratified post-cleavage breccia bodies formed in the carbonate lithologies of the Minaret Formation, due to cave-like dissolution processes and contemporaneous low temperature hydrothermal activity.[8]
The reefal limestones of the formation have provided fossils:[1]
Original source: https://en.wikipedia.org/wiki/Minaret Formation.
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