1. Geology

2. Fossil content

3. See also

4. References
     Bibliography  

The Shackleton Limestone is a Cambrian limestone formation of the Byrd Group of Antarctica. The age of the formation is established to be Cambrian Stage 3, dated at ranging from 520 to 516 Ma. This period correlates with the End-Botomian mass extinction. Fossils of trilobites and Marocella mira and Dailyatia have been found in the formation, named after Ernest Shackleton, who led a failed expedition into Antarctica. At time of deposition, the Antarctic Plate has been established to be just south of the equator as part of the supercontinent Pannotia, contrasting with its present position at 82 degrees southern latitude.^[1]

Geology

The formation, named by Laird in 1963, crops out in the Churchill Mountains, part of the Transantarctic Mountains of southwestern Antarctica. The most complete exposures are in the Holyoake Range.^[2] Paleontological data and carbon isotope stratigraphy indicate that the Shackleton Limestone ranges from lower Atdabanian through upper Botomian. The formation is a thick carbonate deposit with a lower unit of unfossiliferous interbedded quartzite and limestone, overlies the Goldie Formation and underlies the Starshot Formation.^[2] Other lithologies noted in the Shackleton Limestone are marble with breccia, conglomerate, sandstone and shale.^[3] The abrupt transition from the Shackleton Limestone to a large-scale, upward coarsening siliciclastic succession records deepening of the outer platform and then deposition of an eastward-prograding molassic wedge. The various formations of the upper Byrd Group show general stratigraphic and age equivalence, such that coarse-grained alluvial fan deposits of the Douglas Conglomerate are proximal equivalents of the marginal-marine to shelf deposits of the Starshot Formation.^[4]

The sandstone-rich lower member of the Shackleton Limestone is exposed at Cotton Plateau beneath Panorama Point, where it consists of up to {{convert|133|m|ft}} of interbedded white- to cream-weathering, vitreous, quartz sandstone and brown-weathering, white, fine-grained dolomitic grainstone. These beds are in fault contact with the adjacent Goldie Formation.^[5] The formation postdates the Beardmore Orogeny of the Neoproterozoic,^[6] and was deformed by the Ross Orogeny.^[7]

Fossil content

The formation has provided fossils of trilobites such as Holyoakia granulosa, Pagetides (Discomesites) spinosus, Lemdadella antarcticae, Kingaspis (?) convexus, Yunnanocephalus longioccipitalis, and Onchocephalina (?) spinosa.^[8] Other fossils found are Marocella mira,^[1] and Dailyatia odyssei and D. braddocki.^[9]

See also

• List of fossiliferous stratigraphic units in Antarctica
• Geology of Antarctica
• Fremouw Formation

References

Bibliography

• {{cite LSA |last=Elliot |first=David H |year=1975 |title=Tectonics of Antarctica: A Review |url=http://earth.geology.yale.edu/~ajs/1975/ajs_275A_1.pdf/45.pdf |journal=American Journal of Science |volume=275-A |pages=45–106 |accessdate=2018-05-22}}
• {{cite LSA |last=Laird |first=M.G. |last2=Mansergh |first2=G.D. |last3=Chappell |first3=J.M.A. |year=1971 |title=Geology of the Central Nimrod Glacier area, Antarctica |url=https://www.tandfonline.com/doi/pdf/10.1080/00288306.1971.10421939 |journal=New Zealand Journal of Geology and Geophysics |volume=17 |pages=427–468 |accessdate=2018-05-22}}
• {{cite LSA |last=Myrow |first=Paul M. |last2=Pope |first2=Michael C. |last3=Goodge |first3=John W. |last4=Fischer |first4=Woodward |last5=Palmer |first5=Alison R. |year=2002 |title=Depositional history of pre-Devonian strata and timing of Ross orogenic tectonism in the central Transantarctic Mountains, Antarctica |url=https://pdfs.semanticscholar.org/011c/d1f83efcf3d1549056347f22d1e0c9a0657b.pdf |journal=GSA Bulletin |volume=114 |pages=1070–1088 |accessdate=2018-05-22}}
• {{cite LSA |last=Palmer |first=A.R. |last2=Rowell |first2=A.J. |year=1995 |title=Early Cambrian trilobites from the Shackleton Limestone of the Central Mountains |url=https://www.cambridge.org/core/journals/journal-of-paleontology/article/early-cambrian-trilobites-from-the-shackleton-limestone-of-the-central-transantarctic-mountains/458FD691DDC1E603ECEE32566EC4C3A2 |journal=Journal of Paleontology Memoir |volume=69 |pages=1–28 |accessdate=2018-05-22}}
• {{cite LSA |last=Skovsted |first=Christian B. |last2=Betts |first2=Marissa J. |last3=Topper |first3=Timothy P. |last4=Brock |first4=Glenn A. |year=2015 |title=The early Cambrian tommotiid genus Dailyatia from South Australia |url=https://www.researchgate.net/profile/Marissa_Betts/publication/282810172_The_early_Cambrian_tommotiid_genus_Dailyatia_from_South_Australia_Memoirs_of_the_Association_of_Australasian_Palaeontologists/links/5768bb4808aef9750b0fa3f4/The-early-Cambrian-tommotiid-genus-Dailyatia-from-South-Australia-Memoirs-of-the-Association-of-Australasian-Palaeontologists.pdf |journal=AAP Memoir |volume=48 |pages=1–117 |accessdate=2018-05-22}}
• {{cite LSA |last=Stump |first=Edmund |last1=Gootee |first1=Brian |last2=Talarico |first2=Franco |year=2006 |title=Tectonic Model for Development of the Byrd Glacier Discontinuity and Surrounding Regions of the Transantarctic Mountains during the Neoproterozoic – Early Paleozoic |url=https://epic.awi.de/17003/1/Stu2006d.pdf |publisher=Springer, Berlin, Heidelberg, New York |pages=45–54 |accessdate=2018-05-22}}

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