2016
DOI: 10.1016/j.precamres.2016.05.009
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Pre-Pampean metasedimentary rocks from the Argentinian Puna: Evidence for the Ediacaran margin of Gondwana or the Arequipa–Antofalla–Western Pampeanas block

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Cited by 8 publications
(4 citation statements)
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“…The widespread distribution of sandstones associated with glacial diamictites all over the world could be the result of such global interaction. A review of the Riphean-Ediacaran boundary shows a significant development of diamictites associated with monomineralic quartzose sandstones, which may also have been of aeolian origin in Neoproterozoic sedimentary successions following worldwide glacial events in South America [68,69], in Africa [54], in Australia [53,55,70], in North America [71], and in the East Siberian craton, in our case, where such deposits were traced over a distance of more than 800 km from well A-5 to well S-1, indicating a huge magnitude of aeolian processes (Figure 1).…”
Section: Climate Conditionsmentioning
confidence: 99%
“…The widespread distribution of sandstones associated with glacial diamictites all over the world could be the result of such global interaction. A review of the Riphean-Ediacaran boundary shows a significant development of diamictites associated with monomineralic quartzose sandstones, which may also have been of aeolian origin in Neoproterozoic sedimentary successions following worldwide glacial events in South America [68,69], in Africa [54], in Australia [53,55,70], in North America [71], and in the East Siberian craton, in our case, where such deposits were traced over a distance of more than 800 km from well A-5 to well S-1, indicating a huge magnitude of aeolian processes (Figure 1).…”
Section: Climate Conditionsmentioning
confidence: 99%
“…There is no direct evidence of the Pampean magmatic arc in either Bolivia or southern Peru. However, on the basis of detrital zircon age data, Chew et al (2008), with support from Naidoo et al (2016), argued for a mainly Ediacaran magmatic arc active between 650 and 550 Ma (Fig. 2), which is now buried beneath the eastern part of the central Andes and/or the western Amazon Basin.…”
Section: ■ the Neoproterozoic Rock Record Of The Central Andesmentioning
confidence: 99%
“…It also lacks Famatinian ages ranging between 520 and 450-420 Ma (e.g., Bahlburg et al, 2009;Einhorn et al, 2015). Both Famatinian age groups are typical of Gondwana and very common in a large variety of late Neoproterozoic and Paleozoic sedimentary formations in the central Andes (e.g., Chew et al, 2007bChew et al, , 2008Bahlburg et al, 2009;Cardona et al, 2009;Augustsson et al, 2015;Einhorn et al, 2015;Naidoo et al, 2016;Pepper et al, 2016), but are notably absent from the Chilla beds (Fig. 14A).…”
Section: Maximum Depositional Age and Stratigraphic Agementioning
confidence: 99%
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