Aztec Mountain Explained

Aztec Mountain is a small pyramidal mountain over high, just southwest of Maya Mountain and west of Beacon Valley in Victoria Land. It was so named by the New Zealand Geological Survey Antarctic Expedition (1958 - 59) because its shape resembles the pyramidal ceremonial platforms used by the Aztec and Maya civilizations.[1] [2]

Geology

As shown in McPherson's 1975 Figure 2.1, approximately 85m (279feet) of sedimentary strata of the Beacon Supergroup are exposed on the eastern flank of Aztec Mountain. Its summit consists of the Weller Coal Measures. These coal measures is underlain by the Metschel Tillite, which overlies the Aztec Siltstone. The Aztec Siltstone overlies the Beacon Heights Orthoguartzite, which forms the base of Mount Aztec.[3] [4]

The Permian Weller Coal Measures consists largely of fine to medium-grained, graded sandstone beds interstratified with laminated siltstone and carbonaceous mudstone. The sandstone consists mainly of sheet-like, graded beds. these beds are NaNm (-2,147,483,648feet) thick and internally horizontally laminated to crosslaminated. The horizontally laminated beds exhibit primary current lineations. Unique to Aztec Mountain is a 5m (16feet) thick medium-grained sandstone. It contains NaNm (-2,147,483,648feet) thick sigmoid shaped cross-beds that form well-developed topset, foreset, and bottomset beds. These cross-beds, which are interpreted to be the foresets of a Gilbert delta, grade downward into and interfinger with very fine-grained beds of lacustrine sandstones, siltstones and mudstones.[5]

The Permian Metschel Tillite unconformably underlies the Weller Coal Measures, separated by the Pyramid erosion surface, and uncomfortably overlies the Aztec Siltstone, separated by the Maya erosion surface. It consists of glacial diamictites containing striated clasts.[4] [5]

The Devonian Aztec Siltstone underlies Metschel Tillite at Aztec Mountain. The Maya erosion surface, a significant regional unconformity, separates it from the overlying Metschel Tillite. Aztec Mountain is the type locality of the Aztec Siltstone. At its type locality, the Aztec Siltstone consists of 56m (184feet) of coarse-grained, quartzose, braided river and stream and Gilbert delta deposited sandstone. They directly overlie and grade into red and green silty lacustrine deposits. The lacustrine deposits conformably overlie the Beacon Heights Orthoguartzite. The Aztec Siltstone contains unstratified paleosols with vertical veins networks and calcareous nodules, which are called glaebules by soil scientists.[4] [6] [7] [8]

Fossils

Fragmented stems of plants occur within the siltstones and mudstones of the Weller Coal Measures exposed at Aztec Mountain.[5]

Helby and McEIroy exstracted an important palynomorph microflora from the Aztec Siltstone at Aztec Mountain. This assemblage is dominated by Geminospora lemurata, which is similar to palynomrophs of Frasnian age from Western Australia. These palynomorphs from Aztec Mountain provide a rare and important biostratigraphic datum for correlation of the Aztec Siltstone with strata in Australia and paleoenvironmental reconstruction.[6] [9]

-77.8°N 191°W

See also

Notes and References

  1. antarid . 800 . Aztec Mountain . 2023-08-19.
  2. Stewart, J., 2011. Antarctica: An Encyclopedia, 2nd ed. Jefferson, North Carolina and London, McFarland & Company, Inc. 1771 pp.
  3. McPherson, J.G., 1975. The Aztec Siltstone: an Upper Devonian Alluvial Plain Red Bed Sequence, Southern Victoria Land, Antarctica. Doctoral dissertation. Wellington, New Zealand, Waka-Victoria University of Wellington 289 pp.
  4. McKelvey, B.C., Webb, P.N., Gorton, M.P., and Kohn, B.P., 1970. Stratigraphy of the Beacon Supergroup between the Olympus and Boomerang Ranges, South Victoria Land, Antarctica. Nature. 227, 1126-1128.
  5. Isbell, J.L. and Cúneo, N.R., 1996. Depositional framework of Permian coal-bearing strata, southern Victoria Land, Antarctica. Palaeogeography, Palaeoclimatology, Palaeoecology, 125(1-4), pp.217-238.
  6. Bradshaw, M.A., 2013. The Taylor Group (Beacon Supergroup): the Devonian sediments of Antarctica. In: Hambrey, M.J., Barker, P.F., Barrett, P. J., Bowman, V., Davies, B., Smellie, J.L., and Tranter, M., eds., pp. 67-97, Antarctic Palaeoenvironments and Earth-Surface Processes. Geological Society, London, Special Publications, 381. London, Geological Society, 506 pp.
  7. McPherson, J.G., 1979. Calcrete (caliche) palaeosols in fluvial redbeds of the Aztec Siltstone (Upper Devonian), southern Victoria Land, Antarctica. Sedimentary Geology, 22(3-4), pp.267-285.
  8. Webb, P.N., 1963. Geological investigations in southern Victoria land, Antarctica. New Zealand Journal of Geology and Geophysics, 6(3), pp.361-387.
  9. Helby, R.J. and McElroy, C.T., 1969. Microfloras from the Devonian and Triassic of the Beacon group, Antarctica. New Zealand Journal of Geology and Geophysics, 12(2-3), pp.376-382.