Karst bauxites occur at a Late Cretaceous hiatus on a Bahamian-type platform in Southern Apennines, Italy. In contrast to the well-defined stratigraphic context, their origin remains controversial. Detrital zircon grains preserve textures and Th/U ratios consistent with crystallization from a melt, occasionally around older cores. U-Pb isotopic data, collected using SHRIMP II, record several age populations. The youngest (∼90 Ma) falls into the age interval of bauxite formation as defined by stratigraphic criteria. The zircons must therefore be derived from a contemporary Cretaceous volcanic source. The older zircons may be interpreted as xenocrysts associated with the Cretaceous magmas or derived from different sources. Because the bauxite occurs on a isolated carbonate platform, the grains must come from far away sources, most probably transported by wind. The age, palaeogeography and inferred Cretaceous wind pattern are consistent with a prevailing origin from the Dinaric and Carpatho-Balkan orogenic belts, with its Cretaceous bimodal volcanism.

A distant magmatic source for Cretaceous karst bauxites of Southern Apennines Italy), revealed through SHRIMP zircon age dating / Boni, Maria; Reddy, S. M.; Mondillo, Nicola; Balassone, Giuseppina; Taylor, R.. - In: TERRA NOVA. - ISSN 0954-4879. - 24:4(2012), pp. 326-332. [10.1111/j.1365-3121.2012.01068.x]

A distant magmatic source for Cretaceous karst bauxites of Southern Apennines Italy), revealed through SHRIMP zircon age dating.

BONI, MARIA;MONDILLO, NICOLA;BALASSONE, GIUSEPPINA;
2012

Abstract

Karst bauxites occur at a Late Cretaceous hiatus on a Bahamian-type platform in Southern Apennines, Italy. In contrast to the well-defined stratigraphic context, their origin remains controversial. Detrital zircon grains preserve textures and Th/U ratios consistent with crystallization from a melt, occasionally around older cores. U-Pb isotopic data, collected using SHRIMP II, record several age populations. The youngest (∼90 Ma) falls into the age interval of bauxite formation as defined by stratigraphic criteria. The zircons must therefore be derived from a contemporary Cretaceous volcanic source. The older zircons may be interpreted as xenocrysts associated with the Cretaceous magmas or derived from different sources. Because the bauxite occurs on a isolated carbonate platform, the grains must come from far away sources, most probably transported by wind. The age, palaeogeography and inferred Cretaceous wind pattern are consistent with a prevailing origin from the Dinaric and Carpatho-Balkan orogenic belts, with its Cretaceous bimodal volcanism.
2012
A distant magmatic source for Cretaceous karst bauxites of Southern Apennines Italy), revealed through SHRIMP zircon age dating / Boni, Maria; Reddy, S. M.; Mondillo, Nicola; Balassone, Giuseppina; Taylor, R.. - In: TERRA NOVA. - ISSN 0954-4879. - 24:4(2012), pp. 326-332. [10.1111/j.1365-3121.2012.01068.x]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/452632
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