Anais da Academia Brasileira de Ciências (Oct 2021)

Bouguer anomaly inversion and hydrocode modeling of the central uplift of the Araguainha impact structure

  • MARCELLE R. MIYAZAKI,
  • EMILSON P. LEITE,
  • MARCOS A.R. VASCONCELOS,
  • KAI WÜNNEMANN,
  • ALVARO P. CRÓSTA

DOI
https://doi.org/10.1590/0001-3765202120210081
Journal volume & issue
Vol. 93, no. suppl 4

Abstract

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Abstract Araguainha is a mid-sized complex impact structure formed in sedimentary and underlying basement rocks of the Paraná Basin, Brazil. The structure has strongly deformed sedimentary strata surrounding a granitic core. The central uplift is a region of high geological complexity, comprising different types of sedimentary, igneous (granite) and metamorphic lithologies, plus breccias and impact melt sheets. New ground gravity data was collected to produce a Bouguer anomaly map and to perform a 3-D inversion in order to obtain a 3-D density model of the central uplift. This 3-D density model is consistent with iSALE numerical modeling results, which shows that the rocks in the innermost portion became brecciated and/or melted after undergoing pressure/temperature peaks. The positive anomaly of Furnas and Ponta Grossa formations associated with the numerical model shows that the central uplift is ~16 km wide. Thus, the granite’s uplift caused the uplift of the entire stratigraphic package, from its Devonian-aged units to the Permian ones, forming a bull’s eye pattern around the granitic core. The results also indicate that Araguainha was formed by a 3 km diameter impactor, and the rocks of the granitic basement rocks were uplifted by ~2 km.

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