Navegando por Autor "SANTOS, Patrick Araujo dos"

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Geologia, petrografia e geoquímica da associação tonalitotrondhjemito-granodiorito (TTG) do extremo leste do subdomínio de transição, Província Carajás
(Universidade Federal do Pará, 2013-07-31) SANTOS, Patrick Araujo dos; DALL'AGNOL, Roberto; http://lattes.cnpq.br/2158196443144675
The eastern border of the Transition Subdomain of the Carajás Province is constituteddominantly of Archean tonalite-trondhjemite-granodiorite (TTG). Deformed monzogranites, similar to the Planalto granite suite, and metagabbros inserted in association mafic-enderbitic also occur. Paleoproterozoic isotropic granites and mafic dykes devoid of significant deformation crosscut the Archean lithologies. The TTGs are exposed as blocks or as flat outcrops in areas of low relief and commonly include quartz-diorite enclaves. The TTG rocks display gray colour and are generally medium-grained, showing compositional banding or, sometimes, homogeneous aspect. They show commonly a NW-SW to E-W trending foliation with vertical to subvertical dips and were submitted to NE-SW stress. Locally, it was identified a NE-SW foliation transposed to E-W along shear zones. In some instances, they exhibit mylonitic to protomilonitics features, registered in the oval form of plagioclase porphyroclasts or boudinated leucogranitics veins. Two petrographic varieties are recognized for this association: biotite-trondjhemite and subordinate biotite-granodiorites, both have similar mineralogical and textural aspects and are characterized by a poorly preserved igneous texture, partially overwritten by an intense recrystallization. EDS analyses revealed that the plagioclase is a calcic oligoclase (An27-19), with Or ranging from 0.6 - 2.3%. The biotites are ferromagnesian, with dominance of Fe over Mg (Fe / [Fe + Mg] ranging from 0.54 to 0.59) and the analyzed epidote presents pistacite contents ranging from 23 to 27.6 % and plot mostly in the range of magmatic epidotes. The trondhjemite shows all typical characteristics of Archean TTG suites. They have high La/Yb and Sr/Y ratios, suggesting they were derived from the partial melting of garnet amphibolite sources at high pressures (ca. 1.5 GPa) or, at least, that their magmatic evolution was controlled by the fractionation of garnet and possibly amphibole, without significant influence of plagioclase. The studied TTGs show similarities with Mariazinha tonalite and Mogno trondjemite, of the Rio Maria Domain, Colorado trondhjemite and, in at a lesser degree, to the Rio Verde trondhjemite, of the Carajás Domain. The granodiorites display a calc-alkaline signature and shows LILE enrichment, specifically K²O, Rb and Ba, when compared to the trondhjemites, but still preserving some geochemical features of the TTG. The geochemical data indicate that the trondhjemite and granodiorite are not related by fractional crystallization. An origin of the granodiorite by partial melting of the TTG rocks is also discarded. The granodiorite could, however, result of contamination of TTG magmas by lithosphere metasomatism or assimilation of sediments from subducted oceanic crust along trondhjemite liquid genesis. In the eastern portion of the mapped area, it was identified a small, E-W trending granite stock clearly controlled by shear zones. The rocks have mylonitic textures, characterized by ovoid-shaped feldspar porphyroclasts, wrapped by recrystallized quartz and mica. These granitic rocks have geochemical signatures of reduced A-type granites and are similar to the Planalto granite suite. Boulders of mafic rocks crop out locally in the northern portion of the area. These rocks show a dominant granoblastic texture, and are mainly composed of amphibole and plagioclase, with subordinate biotite and quartz. In the northern part of the mapped area, it was identified a body of isotropic granite without significant deformation and showing locally rapakivi textures. This granitic pluton was correlated to the Paleoproterozoic A-type granites, represented in the Carajás Domain by the Serra dos Carajás suite and Rio Branco Granite. These granites were not studied in detail. The geological and geochemical aspects shown by the Archean granitoids identified in the eastern part of the Transition Subdomain implies in the existence of significant TTG rocks in the Transition Subdomain. This reinforces the hypothesis that the Transition Subdomain could represent an extension of the Rio Maria Domain, but affected by crustal reworking events in the Neoarchean.
Desconhecido
Petrography, magnetic susceptibility and geochemistry of the Rio Branco Granite, Carajás Province, southeast of Pará, Brazil
(2013-03) SANTOS, Patrick Araujo dos; FEIO, Gilmara Regina Lima; DALL'AGNOL, Roberto; COSTI, Hilton Túlio; LAMARÃO, Cláudio Nery; GALARZA TORO, Marco Antônio
The Paleoproterozoic Rio Branco stock intrudes the Archean Cruzadão biotite monzogranite. It occurs west of the Canaã dos Carajás city, close to the Sossego copper mine in the Carajás Province. It is constituted by undeformed and isotropic, hololeucocratic syenogranites, showing equigranular texture. The granite is formed essentially by perthitic alkali feldspar, quartz, and plagioclase, with additional variable amounts of chloritized biotite. Fluorite, allanite, and zircon are common accessory minerals, whereas pyrite and chalcopyrite are scarces. Albitization and subordinate greisenization are the main alteration processes that affected the granite. The secondary mineralogy is represented by albite, fluorite, topaz, chlorite, muscovite, siderophyllite, and iron oxides. Magnetic susceptibility values are systematically low and vary between 1.3 x 10-5 a 6.9 x 10-4 (SI). The Rio Branco Granite is metaluminous to peraluminous and shows high FeOt/(FeOt + MgO). It has geochemical affinities with ferroan, reduced A2-subtype granites. The rare earth element (REE) patterns are flat with little heavy REE fractionation and show accentuated negative Eu anomalies (Eu/Eu* = 0.08 - 0.13). These characteristics are typical of evolved granites, derived from volatile-enriched liquids responsible by the intense subsolidus hydrothermal alteration. The dating of the Rio Branco granite did not give conclusive results, but the obtained data, associated with geological evidence, suggest that it is of Paleoproterozoic age. The comparison between the Rio Branco granite and Paleoproterozoic A-type suites of the Carajás Province suggests that the Rio Branco granite has more affinity with the Velho Guilherme suite and, in lesser degree, with the Serra dos Carajás suite. On the other hand, is clearly different from oxidized A-type granites of the Jamon suite. Despite its similarities with tin-specialized granites, the Rio Branco Granite is not associated with tin mineralizations.