Sedimentary facies and provenance of the Bebedouro Formation, Neoproterozoic (BA) / Fácies sedimentares e proveniência da Formação Bebedouro, Neoproterozóico (BA)

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

The sedimentary record of Neoproterozoic age has become a major subject of research since the rebirth of the models of extreme glaciation and rapid climatic changes for the period, including the Snowball Earth hypothesis. These models are founded on the identification, in all continents, of Neoproterozoic diamictites directly overlain by carbonates, which are interpreted respectively as glacial and post-glacial deposits. In order to explain the global distribution of diamictites and their apparently rapid transition to carbonates, some authors have proposed hypothesis of extreme climatic change related to three glacial episodes during the Cryogenian and the Ediacaran (Sturtian, Marinoan e Gaskiers). On the other hand, some authors consider that the global correlation of these deposits is the consequence of altitude-nucleated glaciers formed on the shoulders of rift systems during the breakup of the Rodinia Supercontinent, in what is called the Zipper-rift model. Despite the efforts to establish a chronological correlation among the several successions, many questions still persist, in part due to the great emphasis on the study of the carbonate successions and the scarce work on the diamictites. The present work aims at studding the lower section of the Una Group, interpreted as related to the Sturtian glacial event and located in the northern region of the São Francisco Craton, Bahia, Brazil. Facies, facies associations and clastic provenance analysis were performed in order to test the current models on the Neoproterozoic glacial dynamics and to locally evaluate the passage from diamictites to carbonates. The Una Group crops out in a area of approximately 16,000 km2 and is composed of sedimentary deposits without metamorphism, preserved in three synclinal folds (Salitre, Irece e Una-Utinga). At its base, the unit comprises sandstones, diamictites and mudstones with dropstones grouped into the Bebedouro Formation. This formation comprises two facies associations: (1) Marine transitional deposits influenced by ice-shelves and/or icebergs and (2) Continental platform marine deposits. The passage to the upper unit is marked by a sharp planar surface above which lay two facies associations: (3) Wave influenced shallow carbonatic platform deposits, comprising massive to laminated dolomites, locally with aragonite pseudomorph crystals, overlain by (4) Carbonatic ramp influenced by slumps, composed of calcareous grainstones and mudstones with plane-parallel lamination, climbing ripples, slump structures and locally stromatolites. Pebble lithology and thin section compositional data indicate great spatial variation of provenance, with specific sources for each of the investigated areas. This variation is interpreted as the consequence of valley or outlet glaciers feeding the glaciomarine margin, thus indicating the presence of topographically elevated areas near the basin. U-Pb SHRIMP dating of selected pebbles reveals the dominance of nearby sources, with the local contribution of far-traveled clasts, suggesting mixing with sediments deposited from icebergs which came from the opposite basin margin, as far as 150 km to the east. U-Pb SHRIMP dating of detrital zircon grains from the matrix of the diamictites confirmed this model and lead to the identification of a source from outside the craton with approximately 850 Ma. This data constraints the maximum depositional age of the Bebedouro Formation. Despite provenance from the Bebedouro Formation indicates the presence of topographically elevated areas near the basin, the absence of tectonic controls on the sedimentation, evidenced by the great lateral continuity of the depositional systems and their small thickness variation, does not confirm the model of development of neoproterozoic glaciers over the shoulders of rift systems.

ASSUNTO(S)

estratigrafia sedimentary facies fácies sedimentares stratigraphy neoproterozóico neoproterozoic proveniência formação bebedouro bebedouto formation provenance

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