de Souza, Amanda Andrade; Azzone, Rogério Guitarrari; Chmyz, Luanna; Tarazona, Lina Maria Cetina; de Andrade, Fábio Ramos Dias; Martins, José Vinicius; Ruberti, Excelso; de Barros Gomes, Celso

doi:10.3390/min14070724

Results

Title: Genesis of Fe-Ti-(V) Oxide-Rich Rocks by Open-System Evolution of Mafic Alkaline Magmas: The Case of the Ponte Nova Massif, SE Brazil.
Authors: de Souza, Amanda Andrade; Azzone, Rogério Guitarrari; Chmyz, Luanna; Tarazona, Lina Maria Cetina; de Andrade, Fábio Ramos Dias; Martins, José Vinicius; Ruberti, Excelso; de Barros Gomes, Celso
Abstract: The formation of Fe-Ti oxides-rich layers is commonly associated with open-system magma chamber dynamics. These processes are widely discussed due to the economic importance of Fe-Ti-(V) deposits, although an alkaline-system approach to the matter is still scarce. In this study, we use petrography, mineral chemistry, X-ray diffraction and elemental geochemical analyses (whole-rock and Sr isotopes) to discuss the process associated with the formation of Fe-Ti-(V) oxide-rich clinopyroxenite (OCP, 7–15 vol.%) and magnetitite (MTT, 85 vol.%) from the Ponte Nova alkaline mafic–ultramafic massif (PN, K-Ar 87.6 Ma). Ilmenite and Ti-magnetite from both OCP and MTT exhibit higher MgO contents (MgO > 5.0 wt%) than other PN rocks. OCP shows high 87Sr/86Sri ratios, equivalent to crustal-contaminated lithotypes of the PN Central Intrusion, while MTTs are less radiogenic. The oxide supersaturation in silicate mafic magmas is typically associated with the dislocation of the liquid cotectic evolution line, shifting to Fe-Ti-(V) oxide minerals stability field, mainly Ti-magnetite. Different magmatic processes can lead to these changes such as crustal contamination and magma recharge. For the PN massif, the OCP was formed by the assimilation of crustal contaminants in a mush region, near the magma chamber upper walls, which was associated with the evolution of the main pulse. Differently, the MTT would have its origin related to the interaction between magma chamber evolved liquids and more primitive liquids during a new episode of magma recharge. Lastly, post-magmatic events were superimposed on these rocks, generating sulfides.
Subjects: OXIDE minerals; STRONTIUM isotopes; ANALYTICAL geochemistry; MAGMAS; PETROLOGY
Publication: Minerals (2075-163X), 2024, Vol 14, Issue 7, p724
ISSN: 2075-163X
Publication type: Academic Journal
DOI: 10.3390/min14070724

Genesis of Fe-Ti-(V) Oxide-Rich Rocks by Open-System Evolution of Mafic Alkaline Magmas: The Case of the Ponte Nova Massif, SE Brazil.

de Souza, Amanda Andrade; Azzone, Rogério Guitarrari; Chmyz, Luanna; Tarazona, Lina Maria Cetina; de Andrade, Fábio Ramos Dias; Martins, José Vinicius; Ruberti, Excelso; de Barros Gomes, Celso

OXIDE minerals; STRONTIUM isotopes; ANALYTICAL geochemistry; MAGMAS; PETROLOGY

Minerals (2075-163X), 2024, Vol 14, Issue 7, p724

2075-163X

Academic Journal

10.3390/min14070724