1. Detrital zircon and tourmaline unravel polycyclic provenance of sedimentary infill of the Cretaceous Tupanciretã formation, southern Brazil.
- Author
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Vaccari Ruppel, Kelvyn Mikael, Dani, Norberto, Dorneles Remus, Marcus Vinicius, Hoerlle, Guilherme Sonntag, de Carvalho Lana, Cristiano, and de Mamam Anzolin, Henrique
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ZIRCON , *TOURMALINE , *SEDIMENTATION & deposition , *SEDIMENTARY rocks , *ZIRCON analysis , *ANALYTICAL chemistry - Abstract
The recognition and evaluation of polycyclic processes in sedimentary units are critical for proper provenance analysis and sedimentary system interpretation. The chemical composition and textural maturity of detrital tourmalines and zircons allow identification of sediment source areas, transport, and deposition. This study investigates the origin and history of post-Gondwanan sediments of the Tupanciretã Formation in southern Brazil, which lacks provenance studies. The Tupanciretã Formation is in a similar setting of the Bauru Supersequence at the uppermost portion of the Paraná Basin. Detrital zircon ages indicate sediment provenance from the Transamazonian, Grenvillian, and Brasiliano orogenic cycles of the Rio Grande do Sul Shield and younger grains (280-128 Ma) record contribution from the Choiyoi and Serra Geral igneous events, with a maximum deposition age of 127 Ma. Detrital tourmaline chemical analyses points to the Sul-riograndense Shield as the ultimate source, with metapelitic, metapsamitic and granitic origins. The predominant degrees of roundness are well rounded to rounded suggest evidence of sediment recycling from sedimentary units of the Paraná Basin, with important aeolian reworking involved. Zircon U–Pb signatures are compatible with the eastern sector of the Botucatu Formation in Rio Grande do Sul as the immediate source and the northeastern Sul-riograndense Shield as the ultimate source. Intermediate sources between the Sul-riograndense Shield and the Tupanciretã Formation were Gondwanan sedimentary units of the Paraná Basin, with possible participation from the Camaquã Basin. • The grains indicate important recycling of sediments with multiple sources, With important analysis of detrital zircons. • Detrital tourmalines indicate the participation of multiple basement rocks as the ultimate source. • There was an ancient drainage percolating from SSE to NNW, carrying polycyclic sedimentary rock material. • The high degrees of grain roundness indicate polycyclic sedimentary events, with a maximum deposition age of 127 Ma. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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