Navegando por Autor "VASQUEZ, Marcelo Lacerda"

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Acesso aberto (Open Access)
Geocronologia em zircão, monazita e granada e isótopos de Nd das associações litológicas da porção oeste do domínio Bacajá: evolução crustal da porção meridional da província Maroni-Itacaiúnas - sudeste do Cráton Amazônico
(Universidade Federal do Pará, 2006-11-16) VASQUEZ, Marcelo Lacerda; MACAMBIRA, Moacir José Buenano; http://lattes.cnpq.br/8489178778254136
The Bacajá domain is located in the southeastern Amazonian craton and represents the southern part of the Maroni-Itacaiúnas province, which comprises Paleoproterozoic orogens and Archean blocks reworked during the Transamazonian cycle (2.2–1.95 Ga). This domain is composed of granitoids, charnockitic and supracrustal rocks, orthogneisses, migmatites, metaigneous granulites and high-grade metasedimentary rocks. The previous geochronological data denote reworking of Archean crust and formation of juvenile crust during the Transamazonian cycle. The present study was based on field work, petrography, isotope geochemistry and geochronology in order to identify the igneous and high-grade metamorphic events in the western part of the Bacajá domain and to discuss its crustal evolution. The previous geochronological data, plus new data on zircon (U-Pb SHRIMP and Pbevaporation) and Nd isotope data for the igneous and meta-igneous rocks of the lithologic associations from the study area allowed the identification and dating of magmatic events from Neoarchean to Orosirian times, with a climax of crust formation during the Rhyacian. The 2.67- 2.44 Ga orthogneisses and 2.45 Ga metavolcanoclastic rock remnants are related to the first event of crust formation in the western Bacajá domain marked by an accretion at ca. 2.7 Ga and contamination by Mesoarchean crust (ca. 3.0 Ga). A second event of accretion at ca. 2.5 Ga and reworking of Mesoarchean crust were identified in 2.36 Ga metavolcanic rocks and associated 2.34 Ga granitoids, respectively. They are probably related to the amalgamation of a late Siderian island arc to an Archean microcontinent. The 2.21-2.18 Ga granitoids with Neoarchean crustal sources (ca. 2.8 Ga) and 2.16-2.13 Ga granitoids formed by mixture of a 2.3 Ga juvenile component with Archean crustal sources are related to Rhyacian magmatic arcs that collided against an Archean-Siderian continent. This collision was marked by the formation of 2.10 Ga granitoids (syncollisional rocks ?), probably originated from sources related to late magmatic arc rocks, and of charnockitic rocks and granitoids of 2.09-2.07 Ga (post-collisional rocks) formed respectively by mixture of Ryacian crustal sources and the 2.3 Ga juvenile component and by melting of Archean crust (3.0-2.7 Ga). There are Orosirian magmatic events identified in 1.99 Ga granitoids, whose correlation with the Transamazonian cycle is controversial, and by the extensional magmatism of ca. 1.88 Ga. Both events have Neoarchean crustal sources (ca. 2.8 Ga), probably derived from the Bacajá domain. The high-grade metamorphic events and associated anatexis were identified in the metaigneous and metasedimentary rocks from the western Bacajá domain. However, the petrologic and geochronological studies focused only on the high-grade metasedimentary rocks. These rocks have dominantly Archean detrital sources (3.1-2.5 Ga) and were affected by Rhyacian metamorphic events preliminary constrained by Sm-Nd whole rock-garnet isochrones (2208- 2025 Ma), but there is little evidence suggesting the existence of a high-grade metamorphic event at 2.3 Ga, that could be related to the collage of the late Siderian island arc. High-grade Transamazonian metamorphism commenced with a 2147-2123 Ma migmatization event that took place under upper amphibolite facies P-T conditions and was preserved in zircon overgrowths and in the cores of monazite grains. This event could be related to the collision of the early Rhyacian magmatic arc against to a Neoarchean-late Siderian continent. An anatectic event at 2109 Ma was recorded on unzoned rims of zircon crystals, which is probably it related to the continental collision at 2.1 Ga that has been identified in the Transamazonian orogens of the French Guiana shield. Despite the formation of synchronous granitoids and charnockitic rocks during this collision, in the studied metapelites it was a modest anatexis. After that, a low pressure granulite facies metamorphism (4-6 kbar / 700-800 ºC) at ca. 2070 Ma was registered on monazite and zircon grains, followed by a possible Pb-loss event at 2057 Ma. The existence of coeval quartz diorite and charnockitic intrusions suggests underplating of mafic magma and crustal thinning during the post-collisional period. The igneous and metamorphic events of the western Bacajá domain are analogue to those identified in other Transamazonian domains of the Amazonian craton and South America. In global scale, the 2.1 Ga collage has been correlated to the collision of the paleoplates of eastern South America and western Africa that triggered the formation of a Paleoproterozoic supercontinent.
Acesso aberto (Open Access)
Petrography, geochemistry and Sm-Nd isotopes of the granites from eastern of the Tapajós Domain, Pará state
(Universidade Federal do Pará, 2016-12) SEMBLANO, Flávio Robson Dias; MACAMBIRA, Moacir José Buenano; VASQUEZ, Marcelo Lacerda
The Tapajós Domain, located in the southern portion of the Amazonian Craton, is a tectonic domain of the Tapajós-Parima Province, a Paleoproterozoic orogenic belt adjacent to a reworked Archean crust, the Central Amazonian Province. This domain has been interpreted as the product of an assemblage of successive magmatic arcs followed by post-orogenic A-type magmatism formed ca. 1880 Ma-old granites of the Maloquinha Intrusive Suite. The study presented here was carried out in four granitic bodies of this suite (Igarapé Tabuleiro, Dalpaiz, Mamoal and Serra Alta) from the eastern part of the Tapajós Domain, as well as an I-type granite (Igarapé Salustiano) related to the Parauari Intrusive Suite. The A-type granites are syenogranites and monzogranites, and alkali feldspar granites and quartz syenites occur subordinately. These rocks are ferroan, alkalic-calcic to alkalic and dominantly peraluminous, with negative anomalies of Ba, Sr, P and Ti and high rare earth elements (REE) contents with pronounced negative Eu anomaly. This set of features is typical of A-type granites. The Igarapé Salustiano granite encompasses monzogranites and quartz monzonites, which are magnesian, calcic to calc-alkalic, high-K and mainly metaluminous, with high Ba and Sr contents and depleted pattern in high field strength elements (HFSE) and heavy rare earth elements (HREE), characteristic of I-type granites. The source of magma of these A-type granites is similar to post-collisional granites, while the I-type granite keeps syn-collisional signature. Most of the studied granites have εNd (-3.85 to -0.76) and Nd TDM model ages (2.22 to 2.46 Ga) compatible with the Paleoproterozoic crust of the Tapajós Domain. We conclude that the Archean crust source (εNd of -5.01 and Nd TDM of 2.6 Ga) was local for these A-type granites.