Navegando por Assunto "Zircon"
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Item Acesso aberto (Open Access) Evolução da porção Nordeste do Domínio Bacajá a partir de dados U-Pb e Lu-Hf em zircão e Sm-Nd em rocha total(Universidade Federal do Pará, 2019-12-29) MAGALHÃES, Lucas Baía; MACAMBIRA, Moacir José Buenano; http://lattes.cnpq.br/8489178778254136The north-northeast border of the Amazonian Craton is defined as an extensive paleoproterozoic belt whose evolution is related to the Transamazonic Cycle (2.2 - 1.95 Ga). In the southern segment of this belt, in the Central Brazil Shield, is located the Bacajá Domain that consists of portions formed in the Archean and Rhyacian orogens. This Domain is composed of intrusive granitoids and charnockitoides, orthognaisses, granulites, migmatites and supracrustal rocks. In this study, by petrographic analysis, geochronological data U-Pb and Lu-Hf in zircon and Sm-Nd in total rock, it was possible to elaborate an evolution of the continental crust of this region from the Neoarchean to the Rhyacian, highlighting the relationship of the Archean terranes with the granitoids/charnockitoides correlated to the Transamazonic Cycle. Orthognaisses located to the north of Tucuruí Sheet (Aruanã Complex) present strong features of retrometamorphism identified in typical high metamorphic textures (granoblastic/interlobed textures) by association with a lower grade hydrated mineral amphibole assembly (Anf) and biotite (Bt). Coronitic textures and orthopyroxene (Opx) pseudomorphs for Anf and Bt and the presence of antipertites are also evidences that corroborate this phenomenon. These orthognaisses are 2630 ± 15 Ma, the oldest record obtained in this study. They represent fragments of a reworked crust (ɛHf(t) have subchondritic values of -0.3 to -1.7 and ɛNd(t) = - 3.08 to -2.98) whose model ages Hf-TDM C and Nd-TDM indicate that the material giving rise to this orthognaisses was extracted from the mantle in the Mesoarchean (3.0-3.2 Ga). The Rhyacian intrusive suites are characterized by an association of massive granitoids and charnockitoids with well-defined hypidiomorphic granular texture and rocks deformed by the effects of shear zones. In this area is also described a xenolith of orthogranulite characterized by polygonal granoblastic texture. These rocks were placed in the period of 2.12-2.09 Ga and 2.08-2.06 Ga and crystals of the orthogranulite identify a high-grade metamorphic event ca. 2.09 Ga. The identified zircons of the 2.12 Ga orthogranulite are interpreted as related to a magmatic arc (pre-collisional stage) on the edge of a Neoarchean continent. In addition, the isotopes of Pb and Hf show that the 2.12 Ga rock formed from an accreted neoarcan crust (ca. 2.6 Ga), which suffered a high grade 2.09 Ga metamorphic event (in a decompression stage). Finally, the igneous rocks from 2.08 to 2.06 NE of the Bacajá domain formed from the continental crust accreted during the Neoarchean (2.8-2.5 Ga) and that the post-collisional magmatic event of DB extended to 2.06 Ga.Item Acesso aberto (Open Access) Petrogênese da Suíte Igarapé Gelado: implicações para o magmatismo neoarqueano da Província Carajás, Cráton Amazônico(Universidade Federal do Pará, 2025-04-30) MESQUITA, Caio José Soares; DALL’ AGNOL, Roberto; http://lattes.cnpq.br/2158196443144675The Igarapé Gelado suite (IGS) is located near the northern border of the Carajás Province, almost at its boundary with the Bacajá Domain, along the Cinzento lineament, and is intrusive in metavolcanic mafic rocks and banded iron formations. The central-eastern portion of the IGS comprises four rock varieties: tonalite to granodiorite with varying contents of biotite and amphibole, (1) with associated clinopyroxene and/or orthopyroxene (PBHTnGd) or (2) devoid of pyroxenes (BHTnGd); and monzogranites that exhibit variable biotite and amphibole content and can be (3) moderately (BHMzG) or (4) strongly (RBHMzG) reduced. The PBHTnGd shows ferrosilite and/or augite with subordinate hedenbergite. The amphiboles are K-hastingsite and, subordinately, Fe-Tschermakite in monzogranites. Biotites are ferroan, and in reduced granites show #Fe > 0.90. These micas are similar to those of alkaline to subalkaline rocks and compositionally akin of primary magmatic biotites. Plagioclase is oligoclase. The integration of thermineral chemistry;mobarometry results and thermodynamic modeling and their comparison with the paragenesis present in natural rocks improved the estimation of crystallization parameters (T, P, ƒO2, H2O), and allowed a better interpretation of magmatic evolution. The IGS granites crystallized at pressures of 550 ± 100 MPa, higher than those attributed to other Neoarchean granites in Carajás provinve. The estimated liquidus temperature for the IGS pyroxene variety is ~1000±50°C. BHTnGd and BHMzG formed within a similar temperature range to PBHTnGd, while RBHMzG had lower liquidus temperatures (≤900°C). Solidus temperatures of around ~660 °C were estimated for the four IGS varieties. The BHMzG magma evolved under conditions of low ƒO2, slightly above or below the FMQ buffer (FMQ±0.5), like those of the Planalto suite and the reduced granites of the Vila Jussara and Vila União suites of Carajás province. In the magmas of the PBHTnGd and BHTnGd varieties the oxygen fugacity attained FMQ+0.5. The RBHMzG crystallized under strongly reduced conditions equivalent to FMQ-0.5 to FMQ-1. The magmas of the monzogranitic varieties evolved with a H2O content of ≥4 wt%, attaining 7 wt% in the case of the reduced monzogranites. This is comparable to, or slightly exceeding, the levels typically attributed to the Neoarchean granites of Carajás province (≥ 4% wt%). In contrast, the variety with pyroxene has a water content (~4 wt%) like that of Café enderbite and Rio Seco charnockite from Carajás province, and Matok Pluton from Limpopo belt. Based on the chemical composition, the rocks from IGS are ferroan, reduced to oxidized A-type-like granites, akin to other Neoarchean granite suites from the Carajás province. The IGS are younger than the 2.76-2.73 Ga Neoarchean granites from the Carajás province. A crystallization concordia age of ~2.68 Ga was obtained by U-Pb SHRIMP in zircon for the RBHMzG variety, and similar upper intercept ages were furnished by the other IGS varieties, except for ages of ~2.5 Ga that resemble the ages of the IOCG Salobo deposits associated with reactivation of the Cinzento Lineament. Tmineral chemistry;he deformation of the IGS rocks was influenced by shear zones linked to that lineament, forming elongated bodies with varied foliation. These zones facilitated the migration and deformation of magmas from the final crystallization stages until their complete cooling, characterizing a syntectonic process. This syntectonicity is associated with the inversion of the Carajás Basin, and the younger crystallization age of these rocks indicates that the inversion occurred up to 2.68 Ga, extending the previously estimated interval (2.76– 2.73 Ga). The IGS displays negative to slightly positive values of εNd(t)(-2.86 to 0.18) and εHf(t)(-3.3 to 0.1), and Paleoarchean to Mesoarchean TDM ages [Nd-TDM(2.98-2.84) and Hf-TDM C (3.27-3.12)]. The positive values of εNd(t) and εHf(t) for the RBHMzG variety, suggest possible juvenile contribution or contamination in the source of its magma. The IGS rocks come from the melting of 19% (PBHTnGd) or 14% (BHTnGd) of contaminated mafic granulite, - and from melting of 9% (BHMzG) and 7% (RBHMzG) of a tholeiitic mafic granulite. The area of occurrence of the IGS is marked by hydrothermalism and mineralizations that locally modified the composition of rocks and minerals, allowing the leaching of REE and Y that changed the composition of some samples of BHMzG approaching them of (false) A1- subtype granites. In addition, these processes were responsible for zircon alteration, which resulted in grains showing enrichment of U, Th, and LREE, and massive textures, that furnished upper intercept U-Pb ages, contrarily to the zircon crystals of the RBHMzG variety that preserved primary characteristics and presented Concordia ages.