Caracterização geoambiental como subsídio ao planejamento urbano e turístico em Amparo (SP)

Pós-graduação em Geociências e Meio Ambiente - IGCE

As formações ferríferas bandadas de Piumhi: geologia, petrografia e caracterização tecnológica

Pós-graduação em Geologia Regional - IGCE

Emanação de radônio em rochas ornamentais e para revestimento do estado do Ceará, Brasil

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Evolução metamórfica P-T-t da porção norte do complexo Guaxupé na região de Arceburgo - Santa Cruz da Prata, MG

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Condutividade elétrica complexa de rochas

Foram realizadas medidas em laboratório da condutividade elétrica complexa de 28 amostras de testemunhos de sondagem de três furos da área MM1-Alvo 1, Distrito dos Carajás, com o objetivo de auxiliar na interpretação de dados geofísicos de campo, obtidos com os métodos polarização induzida/resistividade e eletromagnético/AFMAG, aplicados na área. As medidas foram tomadas no intervalo de frequências de 10^-3Hz a 10⁴Hz, medindo-se a amplitude e a fase da condutância. O método empregado foi o de medida direta de impedância, utilizando-se um osciloscópio com memória, um gerador de sinais e dois pré-amplificadores diferenciais com alta impedância de entrada. O sistema de eletrodos escolhido para realizar as medidas foi o de 2 eletrodos de platina-platinizada em virtude de sua resposta de frequência ser plana no intervalo utilizado. Todas as medidas foram realizadas à temperatura constante de 24°C ± 1°C. Para interpretar as medidas de condutividade foi realizado estudo petrográfico das amostras, utilizando-se lâminas delgadas, seções polidas e difração de Raios-X. Foi determinado o teor de cobre, sob a forma de sulfeto, nas amostras utilizando-se o método de absorção atômica. Os resultados petrográficos permitiram classificar as amostras em cinco grupos distintos: granito, biotita-xisto, anfibolito, anfibólio-xisto e quartzito ferruginoso-formação ferrífera. O teor de cobre foi variável nos cinco grupos, havendo teores desde 50ppm até 6000ppm. Nas medidas de condutividade observou-se que, dentre os cinco grupos, as amostras da formação ferrífera apresentaram as maiores variações com a frequência. As amostras de granito tiveram espectro mais plano que as dos xistos e anfibolito. A conclusão a que se chegou é que as anomalias eletromagnéticas e de polarização induzida/resistividade observadas no campo próximo aos três furos (F₁, F₂, F₃) são devidas principalmgnte a formação ferrífera magnetitica, a secundariamente à mineralização de baixo teor de calcopirita associada.

Proveniência das rochas metassedimentares do Cinturão Araguaia com base em datações Pb-Pb em zircão e idades-modelo Sm-Nd

Este trabalho apresenta dados geocronológicos ²⁰⁷Pb/²⁰⁶Pb de grãos detríticos de zircão obtidos pelo método de evaporação de chumbo e idades-modelo Sm-Nd (T_DM) de rochas metassedimentares do Cinturão Araguaia, e discute as possíveis áreas-fonte dessas rochas, buscando investigar a história evolutiva deste cinturão no contexto da amalgamação do Gondwana. As datações em grãos detríticos de zircão de quartzitos da Formação Morro do Campo apontaram idades arqueanas (3,0-2,65 Ga) para o domínio norte (região de Xambioá) e, para o domínio sul (região de Paraíso do Tocantins), revelaram idades meso-neoproterozoicas (1,25-0,85 Ga) e, secundariamente, paleoproterozoicas (1,85-1,70 Ga), sugerindo a existência de áreas fontes distintas para os dois domínios. As idades-modelo Sm-Nd (T_DM) obtidas em metapelitos (ardósias, filitos, micaxistos) dos grupos Estrondo e Tocantins apresentaram distribuição bimodal com maior frequência de idades entre 2,1 e 1,4 Ga, com moda entre 1,7 e 1,6 Ga, e outras menos frequentes entre 2,7 e 2,4 Ga, sugerindo mistura de fontes de idade Paleoproterozoica (ou até Arqueana) com fontes mais jovens, provavelmente do Meso-Neoproterozoico. Os principais candidatos a fonte para as rochas do Cinturão Araguaia seriam os segmentos crustais situados a sudeste (Cráton São Francisco, Maciço de Goiás e Arco Magmático de Goiás). Toda a sucessão de rochas sedimentares da bacia oceânica Araguaia e rochas magmáticas associadas a estes segmentos foram transportados, posteriormente, em direção à margem oriental do Cráton Amazônico, durante a tectônica principal de estruturação do Cinturão Araguaia, resultante da amalgamação do supercontinente Gondwana.

ASPECTOS GEOLÓGICOS, PETROGRÁFICOS E QUÍMICOS DE INTERESSE PARA O APROVEITAMENTO ECONÔMICO DOS QUARTZITOS FOLIADOS DE SÃO THOMÉ DAS LETRAS – MINAS GERAIS

A região de São Thomé das Letras constitui o maior centro brasileiro de lavra de quartzitos foliados, com produção atual estimada em 250.000 t/ano. O baixo índice de recuperação decorrente das atividades de lavra destes quartzitos, estimada como inferiores a 20% do total extraído, estariam gerando cerca de 1.250.000 t/ano de rejeitos, o que tem se traduzido em grandes pilhas de bota-fora com evidentes desdobramentos ambientais indesejáveis. Objetivando a adequação ambiental da lavra, a Fundação Estadual do Meio Ambiente de Minas Gerais - FEAM iniciou, a partir do ano de 1993, trabalhos de fiscalização e orientação da atividade extrativa de quartzitos no Município de São Thomé das Letras. A partir de 1996, esses trabalhos foram ampliados através do Projeto Minas Ambiente - Mineração de Pedra São Tomé que, sob a coordenação da FEAM, promoveu estudos para disposição controlada e aproveitamento econômico de resíduos, revegetação das pilhas de bota-fora e técnicas menos impactantes de desmonte na lavra. Neste contexto, os estudos geológicos, petrográficos e químicos ora realizados visam contribuir com aspectos de interesse para as atividades extrativas e de aproveitamento industrial dos rejeitos da lavra e do beneficiamento dos quartzitos foliados São Tomé. Trabalhos desenvolvidos no âmbito do Projeto Minas Ambiente e, mais recentemente, pela Universidade Vale do Rio Verde de Três Corações demonstraram a viabilidade técnica de utilização dos quartzitos para elaboração de tijolos prensados e autoclavados. Algumas variedades de quartzitos também estão sendo aproveitadas na produção de vidrados e esmaltes cerâmicos, inclusive com vantagens técnicas e econômicas bastante competitivas sobre matérias-primas oriundas de sedimentos aluvionares. Outros usos para os quartzitos moídos, como carga mineral, material filtrante e argamassas em geral, estão em fase de estudos pelos mineradores e deverão ser brevemente viabilizados, o que permite vislumbrar, pelo menos a médio prazo, um expressivo incremento dos usos industriais para os quartzitos São Tomé. Palavras-chave: rocha ornamental; rocha de revestimento; quartzito laminado; recuperação de rejeito; quartzito São Tomé.

Geologia de uma área na porção centro leste da folha Cássia (1:50.000), MG

This study aimed the geological characterization at scale 1:50.000 of an area belonging to the southern sector of the Brasilia Belt, located in the western portion of the Passos Nappe, near the town of Cássia, MG. In this region, outcrops rock types belonging to Araxá Group, composed of metasediments associated with metavolcanics which form a tectonometamorphic terrain of great importance for understanding the geological evolution of southeast and midwest regions of Brazil. With the development of work was possible to group the rocks in 10 lithostratigraphic units and had been identified 3 different zones of metamorphism generated during the peak metamorphism. The structural pattern of the area shows that the main foliation has average dip 30 ° NW and mineral lineation parallel to the stretching direction with 290 °. Still, we can conf irm that this inverse gradient metamorphic rocks of the Passos Nappe, described by several authors. Also, were seen lithotypes of economic interest, some already in exploitation, such as clay and sand, and other mineral commodities, which are occurring and can be used: quartz, quartzite, garnet, kyanite, rutile and zircon.

Geologia da região da Fazenda Salobo, Vazante - MG

Important deposits of Zn-Pb associated with the Vazante Group, and Au in Group Canastra occur in the Vazante-Paracatu region (MG). They are located in the Brasília Fold Belt, which was generated from a convergent tectonic in the Brasiliano cycle, forming a complex system of imbricated nappes and faults. This study aims to characterize stratigraphic, structural and metamorphic aspects of an area, located in the Salobo’s farm region. A geological mapping in 1:20,000 scale was executed in order to identify the outcropping lithotypes and to collect structural measures. Drill holes were described to support the surface data and samples were selected for the preparation of thin and polished sections. In this context, the occurrence of rock types and hydrothermal processes that had not been previously described were found, for example layers of phosphatic quartzite in the Serra do Poço Verde Formation (SPV), hydrothermal hematites from martitization magnetite in contact by detachment of the Serra do Garrote Formation and SPV in the Vazante Group and layers of microbanded iron formations in Paracatu Formation (Canastra Group). In the area, four deformational phases were recognized, occurring progressively, in which two of them are related to convergent tectonic, with the development of thrust faults, one is associated to tectonic escape and/or reactivation of basement faults and the last has a distensive character, representing the post-convergence relaxation. The metamorphism in the area was subgreenschist facies, reaching lower greenschist, with temperatures up to 350°C

Erosion rates and landscape evolution of the lowlands of the Upper Paraguay river basin (Brazil) from cosmogenic Be-10

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Anatomia de espécies brasileiras de Eriocaulaceae: Comanthera e Syngonanthus

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Finite-strain analysis in orthogneiss of the Gran Paradiso massif, Western Alps, Italy

A finite-strain study in the Gran Paradiso massif of the Italian Western Alps has been carried out to elucidate whether ductile strain shows a relationship to nappe contacts and to shed light on the nature of the subhorizontal foliation typical of the gneiss nappes in the Alps. The Rf/_ and Fry methods used on feldspar porphyroclasts from 143 augengneiss and 11 conglomerate samples of the Gran Paradiso unit (upper tectonic unit of the Gran Paradiso massif), as well as, 9 augengneiss (Erfaulet granite) and 3 quartzite conglomerate samples from the underlying Erfaulet unit (lower unit of the Gran Paradiso massif), and 1 sample from mica schist. Microstructures and thermobarometric data show that feldspar ductility at temperatures >~450°C occurred only during high-pressure metamorphism, when the rocks were underplated beneath the overriding Adriatic plate. Therefore, the finite-strain data can be related to high-pressure metamorphism in the Alpine subduction zone. The augen gneiss was heterogeneously deformed and axial ratios of the strain ellipse in XZ sections range from 2.1 to 69.8. The long axes of the finite-strain ellipsoids trend W/WNW and the short axes are subvertical associated with a subhorizontal foliation. The strain magnitudes do not increase towards the nappe contacts. Geochemical work shows that the accumulation of finite strain was not associated with any significant volume strain. Hence, the data indicate flattening strain type in the Gran Paradiso unit and constrictional strain type in the Erfaulet unit and prove deviations from simple shear. In addition, electron microprobe work was undertaken to determine if the analysed fabrics formed during high-P metamorphism. The chemistry of phengites in the studied samples suggests that deformation and final structural juxtaposition of the Gran Paradiso unit against the Erfaulet took place during high-pressure metamorphism. On the other hand, nappe stacking occurred early during subduction probably by brittle imbrication and that ductile strain was superimposed on and modified the nappe structure during high-pressure underplating in the Alpine subduction zone. The accumulation of ductile strain during underplating was not by simple shear and involved a component of vertical shortening, which caused the subhorizontal foliation in the Gran Paradiso massif. It is concluded that this foliation formed during thrusting of the nappes onto each other suggesting that nappe stacking was associated with vertical shortening. The primary evidence for this interpretation is an attenuated metamorphic section with high-pressure metamorphic rocks of the Gran Paradiso unit juxtaposed against the Erfaulet unit. Therefore, the exhumation during high-pressure metamorphism in the Alpine subduction zone involved a component of vertical shortening, which is responsible for the subhorizontal foliation within the nappes.

Entwicklung einer Anordnung zur Nutzung von Massenschwerebewegungen beim Quarzitabbau im Rheinischen Schiefergebirge

Die (Wieder-)Nutzung auf Schwerkraft basierender Fördertechniken, die insbesondere durch das niedrige Energiepreisniveau in den Jahrzehnten nach dem 2. Weltkrieg in der Tagebautechnik nahezu vollständig verdrängt wurden, ist bei den heutigen wirtschaftlichen Randbedingungen und anzustrebenden ökologischen Standards eine Herausforderung für die bergbautreibende Industrie. Seit Aufnahme der Entwicklung des Förderkonzeptes – Geführte Versturztechnik – Mitte der 1990er Jahre haben sich die Kosten für Rohöl vor Steuern nach dem Tiefstand um das Jahr 1998 bis heute mehr als verdreifacht, alleine seit 2004 mehr als verdoppelt. Gesetzliche Regelwerke wie die europäische IVU-Richtlinie 96/61/EG zur „integrierten Vermeidung und Verminderung der Umweltverschmutzung“ fordern, Genehmigungen nur noch bei Einsatz der besten verfügbaren Techniken (BVT oder BAT: „best available techniques“) zu erteilen. Die Umsetzung in nationale Vorschriften wie das Bundes-Immissionsschutzgesetz und nachgeordnete Regelwerke fordern hierauf aufbauend, dass Umweltbelastungen nicht in andere Medien verlagert werden dürfen. Die Anordnung einer Versturzrinne zur Nutzung von Massenschwerebewegungen am Beispiel von Quarzitabbau im Rheinischen Schiefergebirge bei denen die Förderbezugsebene unterhalb der Strossen liegt, die zur sichern und selektiven Gewinnung des Rohstoffs aufgefahren werden müssen, erfüllt durch Rückgriff auf ein vermeintlich „archaisches“ Förderkonzept durch Nutzung der Schwerkraft die obigen Anforderungen. Offenkundige Umweltbelastungen, die alleine durch die Verbrennung von Dieselkraftstoff und hieraus resultierender Schadstoff- und Wärmeeinträge in die Luft beim verbreiteten Einsatz von SLKW zur Abwärtsförderung entstehen, können erheblich vermindert werden. Der Aspekt der Betriebssicherheit einer solchen Anordnung kann durch Auffahren eines geradlinigen Bauwerks mit an das Fördergut angepassten Dimensionen sowie Einrichtungen zur Beschränkung der kinetischen Energie erreicht werden. Diese stellen auch gleichzeitig sicher, dass die Zerkleinerung des durch die Versturzrinne abwärts transportierten Materials betrieblich zulässige Grenzen nicht überschreitet. Hierfür kann auf das umfangreiche Wissen zu Massenschwerebewegungen Rückgriff genommen werden. Dem Aspekt des Umweltschutzes, der sich in Bezug auf das Medium Luft auf den autochtonen Staub reduziert, kann durch Vorrichtungen zur Staubniederschlagung Rechnung getragen werden. Vertiefende Untersuchungen sind erforderlich, um die mit komplexen, aber erprobten Techniken arbeitende Tagebauindustrie auch in dicht besiedelten Regionen wieder an die Nutzung von Schwerkraft (-gestützten) Fördertechniken heranzuführen. Auch das Konzept – Geführte Versturztechnik – ist auf konkrete Anwendungsfälle hin in Details anzupassen.

Detrital Zircon Evidence for Non-Laurentian Provenance, Mesoproterozoic (ca. 1490-1450 Ma) Deposition and Orogenesis in a Reconstructed Orogenic Belt, Northern New Mexico, USA: Defining the Picuris Orogeny

Detrital zircon and igneous zircon U-Pb ages are reported from Proterozoic metamorphic rocks in northern New Mexico. These data give new insight into the provenance and depositional age of a >3-km-thick metasedimentary succession and help resolve the timing of orogenesis within an area of overlapping accretionary orogens and thermal events related to the Proterozoic tectonic evolution of southwest Laurentia. Three samples from the Paleoproterozoic Vadito Group yield narrow, unimodal detrital zircon age spectra with peak ages near 1710 Ma. Igneous rocks that intrude the Vadito Group include the Cerro Alto metadacite, the Picuris Pueblo granite, and the Penasco quartz monzonite and yield crystallization ages of 1710 +/- 10 Ma, 1699 +/- 3 Ma, and 1450 +/- 10 Ma, respectively. Within the overlying Hondo Group, a metamorphosed tuff layer from the Pilar Formation yields an age of 1488 +/- 6 Ma and represents the first direct depositional age constraint on any part of the Proterozoic metasedimentary succession in northern New Mexico. Detrital zircon from the overlying Piedra Lumbre Formation yield a minimum age peak of 1475 Ma, and similar to 60 grains (similar to 25%) yield ages between 1500 Ma and 1600 Ma, possibly representing non-Laurentian detritus originating from Australia and/or Antarctica. Detrital zircons from the basal metaconglomerate and the middle quartzite member of the Marquenas Formation yield minimum age peaks of 1472 Ma and 1471 Ma, consistent with earlier results. We interpret the onset of ca. 1490-1450 Ma deposition followed by tectonic burial, regional Al2SiO5 triple-point metamorphism, and ductile deformation at depths of 12-18 km to reflect a Mesoproterozoic contractional orogenic event, possibly related to the final suturing of the Mazatzal crustal province to the southern margin of Laurentia. We propose to call this event the Picuris orogeny.

Mesoproterozoic Deposition, Regional Metamorphism and Deformation in North-Central New Mexico: Evidence from Metamorphic Monazite and Detrital Zircon Geochronology in the Picuris Mountains

Detrital zircon and metamorphic monazite ages from the Picuris Mountains, north central New Mexico, were used to confirm the depositional age of the Marquenas Formation, to document the depositional age of the Vadito Group, and to constrain the timing of metamorphism and deformation in the region. Detrital zircon 207Pb/206Pb ages were obtained with the LA-MC-ICPMS from quartzites collected from the type locality of the Marquenas Formation exposed at Cerro de las Marquenas, and from the lower Vadito Group in the southern and eastern Picuris Mountains. The Marquenas Formation sample yields 113 concordant ages including a Mesoproterozoic age population with four grains ca. 1470 Ga, a broad Paleoproterozoic age peak at 1695 Ma, and minor Archean age populations. Data confirm recent findings of Mesoproterozoic detrital zircons reported by Jones et al. (2011), and show that the Marquenas Formation is the youngest lithostratigraphic unit in the Picuris Mountains. Paleoproterozoic and Archean detrital grains in the Marquenas Formation are likely derived from local recycled Vadito Group rocks and ca. 1.75 Ga plutonic complexes, and ca. 1.46 detrital zircons were most likely derived from exposed Mesoproterozoic plutons south of the Picuris. Ninety-five concordant grains from each of two Vadito Group quartzites yield relatively identical unimodal Paleoproterozoic age distributions, with peaks at 1713-1707 Ma. Eastern exposures of quartzite mapped as Marquenas Formation yield detrital zircon age patterns and metamorphic mineral assemblages that are nearly identical to the Vadito Group. On this basis, I tentatively assigned the easternmost quartzite to the Vadito Group. Zircon grains in all samples show low U/Th ratios, welldeveloped concentric zoning, and no evidence of metamorphic overgrowth events, consistent with an igneous origin. North-directed paleocurrent indicators, such as tangential crossbeds (Soegaard & Eriksson, 1986) and other primary sedimentary structures, are preserved in the Marquenas Formation quartzite. Together with pebble-toboulder metaconglomerates in the Marquenas, these observations suggest that this formation was deposited in a braided alluvial plain environment in response to syntectonic uplift to the south of the Picuris Mountains. Metamorphic monazite from two Vadito Group quartzite samples were analyzed with an electron microprobe (EMP). Elemental compositional variation with respect to Th and Y define core and rim domains in monazite grains, and show lower concentrations of Th (1.46-1.52 wt%) and Y (0.67 wt%) in the cores, and higher concentrations of Th (1.98 wt%) and Y (1.06 wt%) in the rims. Results show that Mesoproterozoic core and rim ages from five grains overlap within uncertainty, ranging from 1395-1469 Ma with an average age of 1444 Ma. This 1.44 Ga average age is the dominant timing of metamorphic monazite growth in the region, and represents the timing of metamorphism experienced by the region. An older 1630 Ma core observed in sample CD10-12 may be interpreted as a result of low temperature metamorphism in lower Vadito Group rocks due to heat from ca. 1.65 Ga granitic intrusions. Core ages ca. 1.5 Ga are likely due to a mixing age of two different age domains during analyses. Confirmed sedimentation at 1.48-1.45 Ga and documented mid-crustal regional metamorphism in northern New Mexico ca. 1.44-1.40 are likely associated with a Mesoproterozoic orogenic event.