Shelly fossils from the lower Cambrian White Point Conglomerate, Kangaroo Island, South Australia

Marissa J. Betts; Thomas M. Claybourn; Glenn A. Brock; James B. Jago; Christian B. Skovsted; John R. Paterson

doi:10.4202/app.00586.2018

Acta Palaeontologica Polonica (Sep 2019)

Shelly fossils from the lower Cambrian White Point Conglomerate, Kangaroo Island, South Australia

Marissa J. Betts,
Thomas M. Claybourn,
Glenn A. Brock,
James B. Jago,
Christian B. Skovsted,
John R. Paterson

Affiliations

Marissa J. Betts: Palaeoscience Research Centre, School of Environmental and Rural Science, University of New England, Armidale, NSW, Australia, 2351; Early Life Institute and Department of Geology, State Key Laboratory for Continental Dynamics, Northwest University, Xi’an 710069, China
Thomas M. Claybourn: Department of Biological Sciences, Macquarie University, North Ryde, Sydney, NSW, Australia, 2109; Department of Earth Sciences, Palaeobiology, Uppsala University, Villav. 16, SE-75236, Uppsala, Sweden
Glenn A. Brock: Department of Biological Sciences, Macquarie University, North Ryde, Sydney, NSW, Australia, 2109
James B. Jago: School of Natural and Built Environments, University of South Australia, Mawson Lakes, Adelaide, SA, Australia, 5005
Christian B. Skovsted: Department of Palaeobiology, Swedish Museum of Natural History, Box 50007, SE 104 05 Stockholm, Sweden
John R. Paterson: Palaeoscience Research Centre, School of Environmental and Rural Science, University of New England, Armidale, NSW, Australia, 2351

DOI: https://doi.org/10.4202/app.00586.2018
Journal volume & issue: Vol. 64, no. 3
pp. 489 – 522

Abstract

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The lower Cambrian (Series 2) White Point Conglomerate (WPC) on Kangaroo Island, South Australia contains exotic clasts representing a diverse array of lithologies, including metamorphics, chert, sandstone, and abundant carbonates, notably archaeocyath-rich bioclastic limestone. Acetic acid digestion of the WPC bioclastic limestone clasts reveals a diverse shelly fauna. This assemblage includes abundant organophosphatic brachiopods such as Cordatia erinae Brock and Claybourn gen. et sp. nov., Curdus pararaensis, Eodicellomus elkaniformiis, Eohadrotreta sp. cf. E. zhenbaensis, Eoobolus sp., Kyrshabaktella davidii, and Schizopholis yorkensis. Additional shelly taxa include the solenopleurid trilobite Trachoparia? sp., the tommotiids Dailyatia odyssei, Dailyatia decobruta Betts sp. nov., Kelanella sp., and Lapworthella fasciculata, spines of the bradoriid arthropod Mongolitubulus squamifer, and several problematica, such as Stoibostrombus crenulatus and a variety of tubular forms. The upper age limit for the WPC is constrained by biostratigraphic data from the overlying Marsden Sandstone and Emu Bay Shale, which are no younger than the Pararaia janeae Trilobite Zone (Cambrian Series 2, Stage 4). The shelly fossil assemblage from the WPC limestone clasts indicates an upper Dailyatia odyssei Zone (= Pararaia tatei to lower P. janeae trilobite zones), equivalent to the Atdabanian–early Botoman of the Siberian scheme. This contrasts with the previously suggested late Botoman age for the limestone clasts, based on the diverse archaeocyath assemblage. The minor age difference between the WPC and its fossiliferous limestone clasts suggests relatively rapid reworking of biohermal buildups during tectonically-active phases of deposition in the Stansbury Basin.

Published in Acta Palaeontologica Polonica

ISSN: 0567-7920 (Print); 1732-2421 (Online)
Publisher: Institute of Paleobiology PAS
Country of publisher: Poland
LCC subjects: Geography. Anthropology. Recreation: Anthropology: Physical anthropology. Somatology: Human evolution: Fossil man. Human paleontology; Science: Geology: Paleontology
Website: http://www.app.pan.pl/

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