Late Tertiary 'grey billy' and the age and origin of surficial silicifications (silcrete) in South Australia
Titel:
Late Tertiary 'grey billy' and the age and origin of surficial silicifications (silcrete) in South Australia
Auteur:
Callen, R. A.
Verschenen in:
Australian journal of earth sciences
Paginering:
Jaargang 30 (1983) nr. 3-4 pagina's 393-410
Jaar:
1983-12
Inhoud:
A late-Tertiary age, as well as the commonly accepted mid-Tertiary age, is proved for widespread silcretes in S.A. This is demonstrated by stratigraphic relationships with palynologically dated sequences, and evidence of erosion of silcretes. The age limits are Early Eocene to Early Miocene and Medial Miocene to Early Pleistocene, probably Late Pliocene. The late-Tertiary silcrete dominates the duricrusted landscape flanking the north of the Willouran and Flinders Ranges, and forms patches throughout the Tarkarooloo Lobe (Lake Frome area). Silica type varies according to the material cemented; chalcedony and opal are more common in finer grained, less permeable, clayey clastics, and micro- to crypto-crystalline quartz ('grey billy' or 'terrazzo') in porous permeable arenites and regoliths. 'Grey billy' silcretes with pedogenic features resembling massive nodular calcretes were probably formed close to phreatic surfaces or in the soil zone, and result from deposition of silica and titania from surface waters near ground level. They can be used to mark unconformities. Those without such features were formed at depths of several to tens of metres in the phreatic zone, beyond the effects of a fluctuating groundwater table. The varying composition of groundwaters and fluctuations of the phreatic surface probably occurred as the result of climatic changes from wet to arid to wet, causing alternate solution and redeposition of silica. Silcrete was essentially a late Mesozoic-Cainozoic phenomenon, this being a time of general uplift of the Australian continent during intervals of climatic fluctuation. However, the time spans of Australian silcretes are not sufficiently known to make correlations with major climatic events, which are on a finer time-scale.
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