2010
DOI: 10.1007/s00531-010-0619-x
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Provenance and reconnaissance study of detrital zircons of the Palaeozoic Cape Supergroup in South Africa: revealing the interaction of the Kalahari and Río de la Plata cratons

Abstract: In order to facilitate the understanding of the geological evolution of the Kalahari Craton and its relation to South America, the provenance of the first large-scale cratonic cover sequence of the craton,

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Cited by 34 publications
(12 citation statements)
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“…The Ordovician age peaks between ca. 462 and 475 Ma found in the Rio do Rasto Formation can be chronocorrelated with the frequency peaks of 469 Ma found in the pre-Carboniferous rocks of the Cape Fold Belt (South Africa) (Fourie et al, 2011), the 478 Ma peak in the Balcarce Formation (Tandilia System) (Rapela et al, 2011) and the 475 Ma peak obtained for the Lol en Formation in the Ventania System, Argentina (Ramos et al, 2013). Recent U-Pb detrital zircon ages from the Devonian Durazno Group (Cerrezuelo and La Paloma formations) in the southern Paran a Basin of Uruguay (Uriz et al, 2016), indicating that the main source areas are Neoproterozoic, with minor contributions derived from Mesoproterozoic and Archean-Paleoproterozoic rocks.…”
Section: Paleozoic Sources: Magmatism and Sedimentary Recyclingsupporting
confidence: 54%
“…The Ordovician age peaks between ca. 462 and 475 Ma found in the Rio do Rasto Formation can be chronocorrelated with the frequency peaks of 469 Ma found in the pre-Carboniferous rocks of the Cape Fold Belt (South Africa) (Fourie et al, 2011), the 478 Ma peak in the Balcarce Formation (Tandilia System) (Rapela et al, 2011) and the 475 Ma peak obtained for the Lol en Formation in the Ventania System, Argentina (Ramos et al, 2013). Recent U-Pb detrital zircon ages from the Devonian Durazno Group (Cerrezuelo and La Paloma formations) in the southern Paran a Basin of Uruguay (Uriz et al, 2016), indicating that the main source areas are Neoproterozoic, with minor contributions derived from Mesoproterozoic and Archean-Paleoproterozoic rocks.…”
Section: Paleozoic Sources: Magmatism and Sedimentary Recyclingsupporting
confidence: 54%
“…Cape margin sediments originate from Palaeozoic sedimentary sequences of the Cape Supergroup (quartz arenites, subgreywackes, shales and sandstones) that were formed by weathering of ancient Kalahari, Patagonia and Río de la Plata Cratons and deposited along rifted margins of Southern Gondowanda ~480–300 Ma 30(ref. 30).…”
Section: Resultsmentioning
confidence: 99%
“…One possible explanation is that there was a morphological/depositional divide between the cratonic areas and the depositional basins of the Ellsworth-Whitmore Mountains block and the Pensacola and Queen Maud Mountains. In Africa, Fourie et al (2011) suggested that the Namaqua-Natal belt had been a significant morphological divide at the time of deposition of the Cape Supergroup, thus preventing the input of older components from the Kalahari craton. However, it is unlikely that such a barrier persisted for 500 m.y.…”
Section: Older Cratonic Areasmentioning
confidence: 99%