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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Estudo integrado do Granito Corre-Mar, SC. geologia estrutural, petrologia, geocronologia e geoquímica isotópica

Martini, Amós January 2014 (has links)
O estágio pós-colisional Neoproterozoico no sul do Brasil é marcado por intenso magmatismo granítico controlado por zonas de cisalhamento transcorrentes, relacionadas ao Cinturão de Cisalhamento Sul-brasileiro (CCSb). O CCSb controlou a ascensão e o posicionamento de magmas crustais e mantélicos. Neste contexto, O Granito Corre-mar (GCM) representa uma pequena intrusão posicionado em uma zona de baixa deformação localizada entre dois importantes segmentos do CCSb: as Zonas de Cisalhamento Major Gercino e Itajaí- Perimbó. O GCM possui um diagnóstico par de foliações subevetical que forma um par S-C sinistral, presente em todas as intrusões, independentemente do tamanho, e foi posicionado em um sistema conjugado, onde um cisalhamento sinistral de direção NNE, e uma extensão na direção NW-SE, gerando espaço ao longo da direção NE. Deformação de estado sólido associada ao cisalhamento NNE é atestado por microestruturas como recristalização de feldspatos e caudas de recristalização assimétricas. A abertura é atribuída à dinâmica regional destral transcorrente das zonas de cisalhamento Major Gercino e Itajaí-Perimbó, sendo que o posicionamento foi controlado essencialmente pela componente de estensão NW-SE. A idade de cristalização em zircão U-Pb LAMC- ICP-MS do GCM de 615 ± 4 Ma, muito próxima a outros granitos regionais, como as idades de 611 Ma do Granito Serra dos Macacos (GSM) e de 620 Ma do Granito Rio Pequeno (GRP) sugere que esses três corpos graníticos são sincrônicos. As fortes feições de deformação presents no GCM, diferentemente dos granitos Neoproterozoicos próximos, demonstra que o espaço, mais do que o tempo, pode explicar a diferença dos padrões estruturais identificados no GCM. Assinaturas geoquímicas e de isótopos de Sr-Nd, como caráter levemente peraluminoso, altos conteúdos de K, altas razões de ETRL/ETRP, moderados conteúdos de Rb, Nb, Zr e ETR em relação à SiO2, juntamente com baixas razões de 86Sr/87Sri e valores de εNdt fortemente negativos, indicam que o GCM é derivado de fontes crustais antigas, possivelmente relacionadas à rochas quartzofeldspáticas ortognáissicas Paleoproterozoicas do Complexo Camboriú. A relaçãodas das idades das heranças Arqueanas a Paleoproterozoicas do GCM com as idades dos eventos de migmatização identificados no Complexo Camboriú, além da relação das idades de cristalização de ~615-611 Ma dos granitos crustais da área com o último evento de migmatização em 640-610, reforça a conexão genética entre eles. As idades TDM paleoproterozoicas, as assinaturas geoquímicas e isotópicas, a cristalização e as idades de heranças do GCM e do GSM atestam que eles representam pulsos graníticos contemporâneos e comagmáticos, com uma conexão genética com o evento de migmatização Neoproterozoico do Complexo Camboriú. / The Neoproterozoic post-collisional stage in south Brazil is marked by intense granitic magmatism controlled by transcurrent shear zones all related to the Southern Brazilian Shear Belt (SBSB). The SBSB controls the ascent and emplacement of crustal and mantle magmas. In such scenario, the Corre-mar Granite (CMG), represent a small intrusion emplaced in a low strain zone located between two important segments of the SBSB: the Major Gercino and Itajaí-Perimbó Shear Zones. The CMG have a diagnostic subvertical foliation pair that form a sinistral S-C pair, present in all intrusions regardless of their size, and was emplaced within a conjugate system, where sinistral NNE shearing and NW-SE extension were both active, generating space along the NE direction. Solid state deformation associated to the NNE shearing is attested by microstructures as feldspar recrystallization and asymmetric recrystallization tails. The opening is attributed to the regional dextral transcurrent dynamics of the Major Gercino and Itajaí-Perimbó shear zones and magma emplacement was essentially conditioned by the NW extension component. The zircon U-Pb LA-MC-ICP-MS crystallization age of CMG at 615 ± 4 Ma, very close to other regional granites, as the 611 Ma Serra dos Macacos (SMG) and 620 Ma Rio Pequeno Granite (RPG) points these three granitic bodies as quite synchronous. The strong deformation features present in the CMG, as opposed to the other nearby Neoproterozoic granites (RPG and SMG) demonstrate that space, rather than time, must be called upon to explain the difference in the structural patterns identified in the CMG. Geochemical and Sr-Nd isotopic signatures, as slight peraluminous character, high-K contents, high LREE/HREE ratios, moderate Rb, Nb, Zr, and REE contents to regular SiO2, together with low 86Sr/87Sri and the strongly negative εNdt values indicate that the CMG is derived from old crustal sources possibly related to the Paleoproterozoic Camboriú Complex quartz-feldspatic orto-gneissic rocks. The match of the Archean to Paleoproterozoic inheritance ages of the CMG with the migmatization event ages identified in the Camboriú Complex and moreover the match of the crystallization ages of ~615-611 Ma of the crustalderived granites with the last migmatization event at 640-610 Ma reinforces the genetic link between them. The Paleoproterozoic TDM ages, the geochemical and isotopic signatures, the crystallization and inheritance ages resemblance of the CMG and the SMG attest that they represent comagmatic and contemporaneous granitic pulses with a genetic connection with the Neoproterozoic migmatization event in the Camboriu Complex.
12

Estudo integrado do Granito Corre-Mar, SC. geologia estrutural, petrologia, geocronologia e geoquímica isotópica

Martini, Amós January 2014 (has links)
O estágio pós-colisional Neoproterozoico no sul do Brasil é marcado por intenso magmatismo granítico controlado por zonas de cisalhamento transcorrentes, relacionadas ao Cinturão de Cisalhamento Sul-brasileiro (CCSb). O CCSb controlou a ascensão e o posicionamento de magmas crustais e mantélicos. Neste contexto, O Granito Corre-mar (GCM) representa uma pequena intrusão posicionado em uma zona de baixa deformação localizada entre dois importantes segmentos do CCSb: as Zonas de Cisalhamento Major Gercino e Itajaí- Perimbó. O GCM possui um diagnóstico par de foliações subevetical que forma um par S-C sinistral, presente em todas as intrusões, independentemente do tamanho, e foi posicionado em um sistema conjugado, onde um cisalhamento sinistral de direção NNE, e uma extensão na direção NW-SE, gerando espaço ao longo da direção NE. Deformação de estado sólido associada ao cisalhamento NNE é atestado por microestruturas como recristalização de feldspatos e caudas de recristalização assimétricas. A abertura é atribuída à dinâmica regional destral transcorrente das zonas de cisalhamento Major Gercino e Itajaí-Perimbó, sendo que o posicionamento foi controlado essencialmente pela componente de estensão NW-SE. A idade de cristalização em zircão U-Pb LAMC- ICP-MS do GCM de 615 ± 4 Ma, muito próxima a outros granitos regionais, como as idades de 611 Ma do Granito Serra dos Macacos (GSM) e de 620 Ma do Granito Rio Pequeno (GRP) sugere que esses três corpos graníticos são sincrônicos. As fortes feições de deformação presents no GCM, diferentemente dos granitos Neoproterozoicos próximos, demonstra que o espaço, mais do que o tempo, pode explicar a diferença dos padrões estruturais identificados no GCM. Assinaturas geoquímicas e de isótopos de Sr-Nd, como caráter levemente peraluminoso, altos conteúdos de K, altas razões de ETRL/ETRP, moderados conteúdos de Rb, Nb, Zr e ETR em relação à SiO2, juntamente com baixas razões de 86Sr/87Sri e valores de εNdt fortemente negativos, indicam que o GCM é derivado de fontes crustais antigas, possivelmente relacionadas à rochas quartzofeldspáticas ortognáissicas Paleoproterozoicas do Complexo Camboriú. A relaçãodas das idades das heranças Arqueanas a Paleoproterozoicas do GCM com as idades dos eventos de migmatização identificados no Complexo Camboriú, além da relação das idades de cristalização de ~615-611 Ma dos granitos crustais da área com o último evento de migmatização em 640-610, reforça a conexão genética entre eles. As idades TDM paleoproterozoicas, as assinaturas geoquímicas e isotópicas, a cristalização e as idades de heranças do GCM e do GSM atestam que eles representam pulsos graníticos contemporâneos e comagmáticos, com uma conexão genética com o evento de migmatização Neoproterozoico do Complexo Camboriú. / The Neoproterozoic post-collisional stage in south Brazil is marked by intense granitic magmatism controlled by transcurrent shear zones all related to the Southern Brazilian Shear Belt (SBSB). The SBSB controls the ascent and emplacement of crustal and mantle magmas. In such scenario, the Corre-mar Granite (CMG), represent a small intrusion emplaced in a low strain zone located between two important segments of the SBSB: the Major Gercino and Itajaí-Perimbó Shear Zones. The CMG have a diagnostic subvertical foliation pair that form a sinistral S-C pair, present in all intrusions regardless of their size, and was emplaced within a conjugate system, where sinistral NNE shearing and NW-SE extension were both active, generating space along the NE direction. Solid state deformation associated to the NNE shearing is attested by microstructures as feldspar recrystallization and asymmetric recrystallization tails. The opening is attributed to the regional dextral transcurrent dynamics of the Major Gercino and Itajaí-Perimbó shear zones and magma emplacement was essentially conditioned by the NW extension component. The zircon U-Pb LA-MC-ICP-MS crystallization age of CMG at 615 ± 4 Ma, very close to other regional granites, as the 611 Ma Serra dos Macacos (SMG) and 620 Ma Rio Pequeno Granite (RPG) points these three granitic bodies as quite synchronous. The strong deformation features present in the CMG, as opposed to the other nearby Neoproterozoic granites (RPG and SMG) demonstrate that space, rather than time, must be called upon to explain the difference in the structural patterns identified in the CMG. Geochemical and Sr-Nd isotopic signatures, as slight peraluminous character, high-K contents, high LREE/HREE ratios, moderate Rb, Nb, Zr, and REE contents to regular SiO2, together with low 86Sr/87Sri and the strongly negative εNdt values indicate that the CMG is derived from old crustal sources possibly related to the Paleoproterozoic Camboriú Complex quartz-feldspatic orto-gneissic rocks. The match of the Archean to Paleoproterozoic inheritance ages of the CMG with the migmatization event ages identified in the Camboriú Complex and moreover the match of the crystallization ages of ~615-611 Ma of the crustalderived granites with the last migmatization event at 640-610 Ma reinforces the genetic link between them. The Paleoproterozoic TDM ages, the geochemical and isotopic signatures, the crystallization and inheritance ages resemblance of the CMG and the SMG attest that they represent comagmatic and contemporaneous granitic pulses with a genetic connection with the Neoproterozoic migmatization event in the Camboriu Complex.
13

Crustal evolution of the Arabian–Nubian Shield : Insights from zircon geochronology and Nd–Hf–O isotopes

Yeshanew, Fitsum Girum January 2017 (has links)
The Arabian–Nubian Shield (ANS) represents a major site of juvenile Neoproterozoic crustal addition on Earth and documents Neoproterozoic tectonics bracketed by two supercontinent cycles, namely the fragmentation of Rodinia and the amalgamation of Gondwana. There is general consensus that the ANS formed by juvenile magmatic arc accretion and subsequent shield–wide post–tectonic magmatism. However, detailed understanding about the timing of events and the nature of magma sources in parts of the shield are lacking. To date, there are no isotopic data from the Paleozoic sedimentary sequences of the ANS, except those from the northern part. New zircon U–Pb, δ18O and whole–rock Nd isotopes are presented for plutonic rocks from the eastern Ethiopia, Yemen and southernmost Arabian Shield in Saudi Arabia. This thesis also presents the first combined in situ zircon U–Pb–O–Hf isotope data on the Cambrian–Ordovician sandstones of the Arabian Shield. The results are used to elucidate the crustal evolution of these parts of the ANS and to evaluate terrane correlations. Specifically, the nature of crustal growth, i.e., relative proportions of juvenile magmatic additions vs. crustal reworking, nature of the magma source and mechanism of crust formation (plume material vs. subduction zone enrichment) and understanding the provenance of the Cambrian–Ordovician sandstone sequences were important research questions addressed. The results from Paper I suggest that the eastern Ethiopian Precambrian basement is dominated by reworking of pre-Neoproterozoic supracrustal material unlike contemporaneous rocks in the remaining parts of Ethiopia— indicating the presence of two distinct lithospheric blocks of contrasting isotopic compositions in Ethiopia. Metamorphic age distributions suggest that the eastern Ethiopian block was amalgamated with the juvenile Western Ethiopian Shield during ca. 580–550 Ma. Importantly, the suture between them may represent the northern continuation of a major suture identified further south in Africa along which Gondwana amalgamated. Similarly, the Abas terrane in Yemen (Paper II) is dominated by reworking of pre–Neoproterozoic crust and shows age and isotopic compositions that are inconsistent with the Afif terrane of Saudi Arabia, precluding correlation between the two regions. The trace element systematics of plutonic rocks from the southernmost Arabian Shield (paper III) point to enrichment due to subduction component, bear no evidence of a plume component, and are consistent with the adakite-like chemistry of some of the subduction–related plutonic samples. This reinforces the notion that the shield grew through juvenile magmatic arc additions. The combined zircon U–Pb–O–Hf data of the Cambrian–Ordovician sandstones (Paper IV) indicate their derivation from both the adjacent juvenile ANS and the more southerly crustal blocks that are dominated by reworking of pre–Neoproterozoic crust. The remarkable similarity in age spectra and homogeneity of Cambrian sandstones deposited across the northern margin of Gondwana point to continental–scale sediment mixing and dispersal regulated by the supercontinent cycle. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.</p>
14

Geologic evolution of the Adrar Souttouf Massif (Moroccan Sahara) and its significance for continental-scaled plate reconstructions since the Mid Neoproterozoic

Gärtner, Andreas 21 December 2017 (has links)
Located in the south of the Moroccan Sahara, the Adrar Souttouf Massif is the northern continuation of the Mauritanides at the western margin of the West African Craton. The massif itself exhibits a complex polyphase geologic history and contains four geologically different, SSW-NNE trending main units named from west to east: Oued Togba, Sebkha Gezmayet, Dayet Lawda, Sebkha Matallah. They are thrusted over each other in thin-skinned nappes with local windows of the discordantly overlain Archaean Reguibat basement. The eastern margin of the massif is bordered by the Tiris and Tasiast-Tijirit areas of the Reguibat Shield as well as its (par-) autochthonous Palaeozoic cover sequence, termed Dhloat Ensour unit. More than 5.500 U-Th-Pb age determinations and over 1.000 Hf isotopic measurements on single zircon grains from igneous, metamorphic, and sedimentary rocks of all the massifs units and its vicinity have yet been obtained. Most of the zircons were studied with respect to their morphological features. This method improves the accuracy of provenance studies by detecting varying zircon morphologies in space and time. These data are accompanied by U-Th-Pb age determinations on apatite as well as rutile. Together, they allow proposing a model of the geologic evolution of this poorly mapped area for the last 635 Ma. A combination of the obtained data with extensive zircon age databases of the surrounding cratons and terranes facilitates continental-scaled palaeogeographic reconstructions. Regarding the geologic evolution of the Adrar Souttouf Massif, the assembly of the first units began prior to 635 Ma. Although containing all the major zircon age and Hf-isotope populations of the West African Craton as well as some Mesoproterozoic grains, the Sebkha Gezmayet unit lies to the west of the Dayet Lawda unit of oceanic island arc composition. Hence, the Sebkha Gezmayet unit must have been rifted away from the craton prior to the formation of the oceanic unit within the West African Neoproterozoic Ocean at about 635 Ma. Recently published Hf and zircon age data of this unit suggest that the island arc was derived from a juvenile mantle source. Subsequently, the accretion of precursors of the Oued Togba and Sebkha Gezmayet units as well as a partial obduction of the oceanic Dayet Lawda unit and the Neoproterozoic sediments of a foreland basin (Sebkha Matallah unit) onto the Reguibat Shield took place. Peak metamorphism in the obducted oceanic rocks was reached at about 605 Ma. Magmatism in the western units between 610 and 570 Ma suggests on-going tectonic activity. The Early and Middle Cambrian is characterised by the erosion of the Ediacaran orogen and deposition of thick sedimentary sequences at the Sebkha Matallah unit, which acted as foreland basin. These sediments show a mostly West African zircon record with only some Mesoproterozoic grains provided by the westernmost parts of the massif. Initial rifting of the Oued Togba and Sebkha Gezmayet units from the remaining areas presumably occurred during the Late Cambrian. Coeval granitoid intrusions occurred on both sides of the rift. The two rifted units were likely involved to the polyphased Appalachian orogenies, which is emphasised by Devonian magmatism. Thus, and with respect to the isotopic data, the Oued Togba unit is interpreted to be of Avalonia affinity, while the Sebkha Gezmayet unit can likely be linked to Meguma. The units which remained at the West African Craton underwent intense sediment recycling during the entire Ordovician to Devonian times. Final accretion of all units and formation of the current massif was achieved during the Variscan-Alleghanian orogeny. This was accompanied by magmatism in the Sebkha Gezmayet unit and intense metamorphism of the Reguibat basement, whose zircons often show lower discordia intercepts of Carboniferous or Permian age. The post-Variscan period is characterised by erosion of the orogen and subjacent alternating cycles of sedimentation and deflation. The Adrar Souttouf Massifs importance for palaeogeographic reconstructions is given by the striking differences in the zircon age and Hf-isotope record of its westernmost Oued Togba unit and the remaining area. The results obtained from the Oued Togba unit resemble the published data of the Avalonia type terranes including prominent Mesoproterozoic, Ediacaran-Early Cambrian, as well as Early Devonian age populations. Many Mesoproterozoic zircons, which are exotic for the West African Craton prior to 635 Ma, form a ca. 1.20 to 1.25 Ga age peak that is an excellent tracer for detrital provenance studies and source craton identification of the sedimentary rocks. This is also valid for some sedimentary samples that do not show ages younger than 700 Ma, but large quantities of Mesoproterozoic zircon. These rocks can be correlated to similar sediments in Mauritania and W-Avalonia and are thought to be of pre-pan-African", i.e. pre-Ediacaran or even pre-Cryogenian age. They may give direct insights to the source area in Early to Mid Neoproterozoic times. Accordingly, comparison with published data of Amazonia and Baltica, allows setting up new hypotheses for the pre-Ediacaran history of the Avalonian type terranes. Lacking of magmatism in Amazonia between ca. 1200 and ca. 1300 Ma favours Baltica as source craton for the Avalonian terranes and requires a new point of view for the Neoproterozoic palaeogeography.
15

Le gisement d’or du Tocantinzinho (province aurifère du Tapajós) relations entre déformation, hydrothermalisme et minéralisation / Tocantinzinho gold deposit (Tapajós Gold Province) relationship between deformation, hydrothermal alteration and mineralisation

Borgo, Ariadne 23 February 2017 (has links)
Le gisement de Tocantinzinho est situé sur la province aurifère de Tapajós et est le plus grand gisement d'or de la province, avec 53,9 tonnes d'or estimées. Sa formation commence par un magmatisme granodioritique autour de 2005 Ma, suivi d'un magmatisme granitique. Le granite Tocantinzinho est composé de deux faciès principaux (syenogranite - 1996± 2Ma; monzogranite 1989±1 Ma), des corps d’aplite et de pegmatite, qui suggère un magmatisme enrichie en fluide et mis en place à faible profondeur. Intrusifs dans ces roches, des dykes d'andésite (1998±8Ma) ont des fragments de granite et des mélanges entre les 2 magmas suggèrent un magmatisme à la fois continu et polyphasé. Il est proposé que les premiers dykes d’andésite se sont mis en place alors que le granite n’était pas entièrement cristallisé (mingling) et les derniers lors des stades de déformation à l’état solide du granite. Utilisant la courbe de refroidissement, un âge minimum de 1975 Ma a été estimé pour l’andésite. Les taux de refroidissement des roches plutoniques varient de 3,6 à 14,7°C/Ma, avec une moyenne de 7,5°C/Ma, suggérant que les processus d'exhumation verticale sont faibles. La géométrie allongée du granite ainsi que la tectonique syn-magmatique de l'andésite corroborent la prédominance des mouvements horizontaux. L’affinité calc-alcaline fortement potassique et des anomalies en niobium définissent deux configurations possibles pour le cadre géotectonique: arc continental de type Andin ou Post-collisionnel. Compte tenue la relation génétique entre magmatisme, cisaillement décrochant et les faibles taux de refroidissement, l’environnement post-collisionnel est plus probable. Cela ensemble avec les âges nous permettent de comparer ces roches avec celles de la Suite Intrusive Creporizão (1997-1957Ma). La dacite (1992 ± 2 Ma) recoupe les autres roches, cependant, la signature géochimique comparable aux roches anorogéniques suggère qu’elle appartient à une série magmatique distinct. La zone minéralisée est limitée par deux failles majeures senestres de direction N100°-130E°. Le granite Tocantinzinho et les roches hypo-volcaniques déformées sont dans ce couloir, altérées par de fluides hydrothermaux et minéralisées pendant deux phases tectoniques distinctes. La première est caractérisée par des brèches et des microfractures remplies par muscovite (1864±5Ma) et pyrite, associées à de faibles teneur d’or (<1,5ppm) restreintes au granite. La deuxième phase a été contrôlée par le cisaillement décrochant senestre normal générant des fentes de tension et des brèches remplies par quartz, chlorite, calcite, albite, rutile, pyrite, galène, sphalérite, chalcopyrite et or. La teneur en or peut atteindre jusqu'à 70 ppm dans les veines riches en sulfures. Ces structures de remplissage syntectonique sont parallèles entre elles et orientées N30-60°E. Deux hypothèses ont été proposées pour expliquer la genèse du gisement: la première considère une relation génétique entre magmatisme et minéralisation au moins pour le premier stage de minéralisation selon un modèle porphyrique et la seconde alternative considère une réactivation des failles préexistantes par une tectonique transtensive liée au magmatisme Maloquinha (ca. 1880Ma) pour les deux stades minéralisateurs. Les deux phases dans les deux hypothèses, ont été classées comme des minéralisations de type magmato-hydrothermale qui pourraient être classées soit comme des systèmes d'or liés à l'intrusion. De nouveaux travaux sur le terrain et en laboratoire seraient nécessaires pour identifier et caractériser la nature et la source des fluides hydrothermaux, pour dater la minéralisation et mieux comprendre le rôle des roches hypo-volcaniques. Toutefois, les premiers résultats, et notamment le rôle fondamental du contrôle tectonique pour la minéralisation sont très significatifs et peuvent aider de manière conséquente à l'établissement des programmes d'exploration et d'exploitation futurs. / The Tocantinzinho deposit is located on the Tapajós Gold Province and is the largest gold deposit within Province, with 53,9 tons of gold. Its formation begins with a granodioritic magmatism around 2005Ma, followed by a granitic magmatism 10 Ma latter. The Tocantinzinho granite is composed by two main facies, syenogranite (1996±2Ma) and monzogranite (1989±1Ma), and by aplite and pegmatite bodies, suggesting a fluid-rich magmatism at shallow depth. Andesite dikes (1998±8Ma) are intrusive in both rocks. Sharp fragments of those rocks along contacts and minor mingling with granitic magma suggest a multiphase magmatism at distinct timing. The first dikes have intruded within granite when it was crystalizing, thus a minimum age of 1975Ma was estimated. Cooling rates of plutonic rocks vary from 3.6 to 14.7°C/Ma, with an average of 7.5°C/Ma, suggesting vertical exhumation processes were minor. The elongated geometry of granite along with sin-magmatic strike-slip tectonics of andesite corroborate the predominance of horizontal movements. Geochemical analysis show high-K calk-alkaline affinity and niobium anomaly indicator of two possible geotectonic settings for these rocks: Andean-type continental arc or post-collisional one. Considering the genetic relationship between magmatism, strike-slip faults, and low cooling rates, a post-collisional setting is more likely. The geochemical signature, ages and style of tectonism allow us to compare those rocks with the ones from Creporizão Intrusive Suite (1997-1957Ma). Dacite dikes (1992±2Ma) cut across all other rocks, but the temporal relationship among them remains misunderstood, due to the geochemical signature similar to the anorogenic rocks, suggesting it belongs to a distinct and latter magmatic series. Indeed, the dated zircons were probably inherited from host rocks. The mineralized area is restricted to a domain constrained by two major sinistral strike-slip N100°-130E°E faults that comprises the Tocantinzinho granite and sub-volcanic rocks, which were hydrothermally altered, brittle deformed and mineralized during two phases. The first one is characterized by breccias and microfractures infilled with muscovite (1864±5Ma) and pyrite, which contains low gold grades and are restricted to the Tocantinzinho granite. The second phase was controlled by strike-slip and normal tectonics generating tension gashes veins and pull apart breccias infilled with quartz, chlorite, calcite, albite, rutile, pyrite, galena, sphalerite, chalcopyrite, and gold. The gold grade can reach up to 70 ppm in some sulfide-rich veins. These structures are parallel and mainly trends N30-60°E, showing textures and orientated minerals typical of syn-tectonic infilling. Based on petrographical features and argon ages two hypothesis were proposed for the ore genesis: the first one consider a genetic relationship between magmatism and ore fluids for first mineralization stage and the second hypothesis consider a reactivation of pre-existing faults by an extensional tectonism related to the Maloquinha Intrusive Suite magmatism (ca.1880Ma) for this phase. The second mineralization phase is considered as formed as consequence of tectonic reactivation at ca. 1880Ma, in both hypothesis. Both phases in both hypothesis were classified as magmatic-hydrothermal ore mineralization and might be classified as intrusion-related gold systems. However, new field works are important in order to identify and characterize the nature and source of hydrothermal fluids, as well as ore dating and new geochemical and geochronological data of sub-volcanic rocks are imperative to better understand the genesis and evolution of the Tocantinzinho gold deposit. Such results, strongly linked to the fact that the tectonic control seem significant, may help for future exploration and exploitation programs.
16

Différenciation et stabilisation de la croûte continentale archéenne, l'exemple de la marge Nord du craton du Kaapvaal en Afrique du Sud / Differentiation and stabilisation of the Archean continental crust, example based on the northern edge of the Kaapval craton in South Africa

Vezinet, Adrien 03 November 2016 (has links)
Le travail de thèse reporté dans ce manuscrit se focalise sur la reconnaissance ainsi que l'expression des processus de différenciation crustale à l'Archéen. Cet éon représente à lui tout seul 1/3 des temps géologiques, et se caractérise notamment par des lithologies diagnostiques, ainsi que des contextes géodynamiques complexes. La majorité des études sont portées sur l’investigation des phases alumineuses qui permettent de contraindre précisément les événements métamorphiques au-cours d’une géodynamique d’épaississement crustal. Toutefois, ces phases alumineuses représentent rarement plus de 10% des terrains archéens, alors qu’ils sont faits à plus de 75% de gneiss orthodérivés. L'étude qui suit est une caractérisation du complexe de gneiss gris composite de la marge Nord du craton archéen du Kaapvaal en Afrique du Sud. Les résultats produits durant cette investigation ont amené à plusieurs conclusions importantes au regard de la géodynamique archéenne. L'étude isotopique U-Pb/Lu-Hf sur zircon couplée à des analyses pétro-métamorphiques montre que la construction d’un complexe de gneiss gris composite correspond à une géodynamique prolongée dans le temps, accomplie au-travers de processus de différenciations crustales internes à la Zone accrétée, 1.e. le bloc crustal évolue en système thermodynamiquement fermé. Les complexes de gneiss gris ne sont que modérément étudiés toutefois, les informations contenues dans ces lithologies apparaissent complémentaires avec celles obtenues par les études métamorphiques sur les lithologies alumineuses. Il est donc nécessaire d'approfondir ce type d’investigations afin de mieux contraindre les modèles géodynamiques archéens / The PhD work presented in this manuscript focuses on the recognition and the manifestation of Archean crustal differentiation processes. The Archean eon which represents 1/3 of the geological record is featured by both lithologies unrecognized in younger eons and cryptic geodynamics. Most of investigations concentrate on the characterisation of aluminium-rich lithologies that allow an accurate determination of the pressure-temperature evolution underwent by crustal materials during crustal thickening geodynamics. However, aluminium-rich lithologies - mainly represented by metasediments - account for only 10% on average of Archean terranes whereas orthoderived gneisses - which also testify for crustal differentiation processes - form around 75% of these terranes. The following contribution depicts an Archean composite grey gneiss complex located at the northern edge of the Kaapvaal craton is South Africa. Results carried out during this PhD study have major consequences on Archean geodynamics. The zircon U-Pb/Lu-Hf isotope Investigation coupled with strong petro-metamorphic observations show that composite grey gneiss complexes may be built over a protracted time span, achieved through self-refinement of crustal materials, i.e. the crustal block evolved in a thermodynamically closed system. Grey gneiss compiexes are only moderately investigated even though information enclosed in these lithologies is complementary with those from aluminium-rich rocks. Therefore, deeper investigations of these geological objects must be a central scope in order to improve the knowledge of the Archean eon and appears necessary for the building of even more realistic geotectonic models
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Mesoproterozoic Suturing Of Archean Crustal Blocks In Western Peninsular India : New Insights On India-Madagascar Correlations

Ishwar Kumar, C 04 1900 (has links) (PDF)
The structural lineament mapping of southern India along withgeological, geochronological datasets help in redefining the Precambrian crustal blocks.The newly proposed Kumta and Mercara suture zones welding Archean crustal blocks in western peninsular India offer critical insights into the crustal evolution of Gondwana. The Kumta suturemainly consists of schistose rocks including quartz-phengite, garnet-biotite, chlorite, fuchsite and marble, whereas the Mercara suture contains mylonitic quartzo-feldspathic gneiss, garnet-kyanite-sillimanite gneiss, calc-silicate granulite and metagabbro. Metamorphic pressure-temperature estimations (Kumta suture: 11-18 kbar at 790-550oC; Mercara suture: 13 kbar at 825oC) suggest that, the sediments have undergone subduction to greater depths. The K-Ar age of biotite, phengite and U-Pb dating of zircon yields consistent metamorphic age of 1100-1400 Ma. In situ zircon 176Lu/177Hf isotope analysis shows wide range of εHf (t) values indicating the protolith sediments were derived from Paleo-Neoarchean juvenile crust that mixed with recycled older crust. The Bondla ultramafic-gabbro complex, northwest of the Kumta suture contains basalt, dolerite, gabbro, serpentinite, chromitite, peridotite and chromian spinel chemistry suggests evolution in a supra-subduction zone arc tectonic setting.The Sirsi shelf towards east of the Kumta suture, contains weakly deformed sedimentary rocks (limestone, shale, banded iron formations, greywacke, sandstone and quartzite) unconformable on relatively high-grade ca. 2571 Ma gneisses of the Dharwar craton. The Karwar block to the west is composed of weakly metamorphosedca. 3200 Ma tonalite-trondhjemite-granodiorite (TTG) with enclaves of amphibolite. In situ zircon 176Lu/177Hf isotope analysis and whole-rock 143Nd/144Nd isotopic analysis of TTGs show positive εHf and εNd values indicating ca. 3200 Ma juvenile crust. The Coorg block consists of ca. 3200 Ma charnockite, mafic granulites, hornblende-biotite gneiss, garnet-hornblende gabbro and anorthosite.In situ zircon 176Lu/177Hf isotope analysis indicates source as mixture of juvenile crust and older recycled crustal materials. Synthesis of the above results with published data suggests that Kumta and Mercara suture zones incorporate Paleoarchean to Mesoproterozoic sedimentssubjected to high-pressure metamorphism in the late Mesoproterozoic. Metamorphic P-T estimations of mafic granulite and U-Pb zircon geochronology of pelitic gneisses from Betsimisaraka suture zone, Madagascar suggests the rocks were underwent metamorphism at c. 24 kbar and c. 780°C during Mesoproterozoic suturing of Antongil-Masora blocks with the Antananarivo block.From the integration of above results with the new geophysical results and published data Mesoproterozoic Kumta-Mercara suture is interpreted as eastern extension of the Mesoproterozoic Betsimisaraka suture of Madagascar into western India.
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Unraveling the Tectonic History of the Aurek Metagabbro within the Seve Nappe Complex, Scandinavian Caledonides / Undersökningsstudie av metagabbro i Aurek och dess tektoniska utveckling inom Seveskollan, Skandinaviska Kaledoniderna

Rousku, Sabine January 2021 (has links)
The Scandinavian Caledonides form a mountain range comprising nappe stacks of numerous far-travelled thrust sheets. The thrust sheets consist of diverse lithologies representing pre- and synorogenic sedimentary and igneous rocks subsequently metamorphosed to various degrees, from the Late Neoproterozoic to Middle Devonian. In particular, (ultra)-high-grade metamorphic rocks have been recorded in the Seve Nappe Complex (SNC), extending &gt;1000 km along strike of the Scandinavian Caledonides. Included in the SNC of northern Sweden is the Vássačorru Igneous Complex (VIC), consisting of bimodal magmatic suites, that formed c. 845 Ma. Fieldwork was conducted in the Kebnekaise mountains of northern Sweden, focusing on the high-grade Aurek metagabbro within the VIC of the SNC. Aurek is a key locality representing both initial stages of Iapetus Ocean formation in the Ediacaran and later stage Caledonian subduction affinities, from the collision between Laurentia and Baltica. In this study, petrological description, zircon U-Pb geochronology, mineral chemistry analysis, whole rock composition, and thermodynamic modeling was performed. Zircon U-Pb geochronology yielded protolith ages of 609±2.5 Ma, and 614±2.3 Ma, suggesting the Aurek metagabbro to not be part of the VIC, as has previously been described. The age of Aurek can instead be correlated to the Kebnekaise Dyke Swarms at c. 607 Ma, in the Kebnekaise mountains. Whole rock major and trace element data of e.g., Al2O3 (15.0 – 25.0 ppm) versus SiO2 (46.0 – 53.0 ppm), Rb (2.0 – 18.0 ppm), Zr (8.0 – 58.0 ppm) versus Y (2.7 – 18.0 ppm), Th/Yb ratio 0.25 – 2.0 and Nb/Yb ratio 1.30 – 5.14, indicate assimilation of continental crust. These major and trace element signatures show that the protolith of the Aurek metagabbro probably was emplaced in a continental rift setting in the Ediacaran. Semi-quantitative thermodynamic modeling from this study present blueschist to amphibolite facies conditions for the Aurek metagabbro at 11.8 – 12.6 kbar and 480 – 565 oC, confirming the unit experienced subduction, possibly in the Late Cambrian to Early Ordovician. The metamorphic grade and protolith age show similar features to correlative rock sequences in the Tsäkkok Lens, south of Aurek, in Norrbotten. Consequently, this study concludes that subduction, exhumation and subsequent deformation for Aurek, probably was equivalent to those of the Tsäkkok Lens, extending the HP affinities of the SNC further north in the Swedish Caledonides. / Skandinaviska Kaledoniderna utgör en bergskedja bestående av olika skollor som transporterats hundratals kilometer från sin ursprungskälla. Skollorna består av varierande bergarter som representerar olika utvecklingsskeden i formationen av Kaledoniderna under senare Neoproterozoikum och mellan Devon. Utmärkande har höggradiga metamorfiska bergarter återfunnits i Seveskollan som sträcker sig &gt;1000 km längs med strykningsriktningen av de Skandinaviska Kaledoniderna. I norra Sverige inkluderar Seveskollan det magmatiska Vássačorru-komplexet, bestående av bimodal magmatism som bildats ca 845 Ma. Fältarbete utfördes kring Kebnekaisebergen i norra Sverige, med fokus på höggradig metagabbro från Aurek, ett område inom det magmatiska Vássačorru-komplexet. Aurek är ett viktigt område som representerar både initiala stadier av Iapetushavets bildande och efterföljande formationer från kollisionen mellan Laurentia och Baltica plattorna. I denna studie utfördes petrologisk beskrivning av mineral, U-Pb geokronologi av zirkon, kemisk analys av mineral och bulkkomposition av bergarter, samt termodynamisk modellering. U-Pb dateringen av zirkon resulterade i en ursprungsålder på 609±2,5 Ma och 614±2,3 Ma för metagabbro från Aurek. Detta indikerar att metagabbro i Aurek inte är en del av det magmatiska Vássačorru-komplexet, något som tidigare antagits. Åldern kan istället korreleras till Kebnekaise-gångkomplexet med en ålder på ca 607 Ma. Huvud- och spårelement i Aureks metagabbro tyder på assimilering av kontinentalskorpa, vilket föreslår att ursprungsbergarten till metagabbro i Aurek bildades i en kontinental spridningszon. Den termodynamiska modelleringen resulterade i metamorfiska förhållanden på mellan 11,8 – 12,6 kbar och 480 – 565 oC för bergarterna, vilket påvisar att den tektoniska miljön som senare präglat bergarterna förmodligen var associerad med en subduktionszon.
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Provenance model of the Cenozoic siliciclastic sediments from the western Central Andes (16-21°S): implications for Eocene to Miocene evolution of the Andes / Provenienzmodell für die känozoischen siliziklastischen Sedimente der westlichen Zentralanden (16-21°S): Hinweise für die eozäne bis miozäne Entwicklung der Anden

Decou, Audrey 25 May 2011 (has links)
No description available.
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Evolution and decay of peneplains in the northern Lhasa terrane, Tibetan Plateau / Revealed by low-temperature thermochronology, U-Pb geochronology, provenance analyses, and geomorphometry

Haider, Viktoria L. 01 July 2014 (has links)
Diese Dissertation befasst sich mit der Entwicklung von “Fastebenen”, die im Weiteren einheitlich als “Peneplains” bezeichnet werden, sowie dem Zerfall dieses markanten geomorphologischen Erscheinungsbildes im südlichsten Teil des tibetischen Plateau dem sogenannten Lhasa Block. Im Zuge dieser Arbeit konnten neue Erkenntnisse über die Hebungsgeschichte und der Sedimentverteilung in diesem Untersuchungsgebiet gewonnen werden. Diese Ergebnisse tragen zu einem besseren Verständnis der geodynamischen Entwicklung Asiens bei, die bis heute viele Fragen aufwirft. Ende des 19. Jahrhunderts wurden Peneplains als metastabile geomorphologische Formen angesehen, die im Zuge großflächiger Erosion entstehen. Die Bezeichnung Peneplain und das dahinter stehende Konzept werden seitdem von der geomorphologischen Gemeinschaft jedoch kontrovers diskutiert. Bis heute gibt es keine standardisierte bzw. repräsentative Definition für das nicht zu übersehende landschaftsbildende Phänomen der Peneplains. Dementsprechend gibt es auch nur wenige Ansätze zu Modellierungen oder Berechnungen mit Geoinformationssystemen. Hier, in dieser Dissertation, werden idealisierte Peneplains als erhöhte, gleichmäßige und großflächige Ebenen mit abfallenden Hängen verstanden, auch wenn sich landschaftsbildende Peneplains oft gekippt darstellen und durch tektonische Prozesse gestört bzw. bereits durch fortschreitende Erosionsprozesse angegriffen sind. Gut erhaltene Peneplains sind speziell für das Gebiet um den höchstgelegenen See der Welt, dem Nam Co, im nördlichen Teil des Lhasa Blocks im Hochland von Tibet charakteristisch. Die Peneplains zerschneiden das dort vorkommende viel ältere und vorwiegend granitische Gestein sowie die angrenzenden Metasedimente. Zur Bestimmung der Abkühl- und Hebungsalter der Granite wurden geo- und thermochronologische Methoden wie Zirkon U-Pb, Zirkon (U-Th)/He, Apatit (U-Th)/He und Apatit-SpaltspurenDatierung angewendet. Neben der Hebungsrate konnte auch die Freilegung des granitischen Gesteines ermittelt werden. Mit der Methode zur Bestimmung des U-Pb-Zirkonalters konnten zwei Intrusionsgruppen, um 118 Ma und 85 Ma, festgestellt werden. Ebenso wurden vulkanische Aktivitäten nachgewiesen und auf einen Zeitraum zwischen 63 Ma und 58 Ma datiert. Thermische Modelle, aufbauend auf Zirkon- und Apatit-(U-Th)/He-Datierungen sowie auf ApatitSpaltspuren-Daten der untersuchten Granitoide, ergeben einen Hebungs- und Abkühlungszeitraum von 75 Ma bis 55 Ma mit einer Hebungsrate von 300 m/Ma, welche im Zeitfenster zwischen 55 Ma und 45 Ma stark abfällt auf 10 m/Ma. Die Auswertung der Messdaten unserer Kooperationspartner an der Universität Münster zu kosmogenen Nukliden zeigen sehr niedrigen Erosionsraten von 6-11 m/Ma und 11-16 m/Ma, in den letzten 10.000 Jahren die in den einzelnen Einzugsgebieten ermittelt wurden. Diese Daten zeugen von einer noch immer andauernden Periode der Stabilität und tragen zur Erhaltung der Peneplains bei. Während der anhaltenden Phase der Erosion und Einebnung sind vor ungefähr 45 Ma in der untersuchten Region zwischen 3 km und 6 km Gestein abgetragen und weg transportiert worden. Es ist naheliegend, dass das abgetragene Material als Sediment über das vorhandene Flusssystem fast vollständig in die heute bestehenden Ozenane transportiert wurde. Im Lhasa Block können nur verhältnismäßig wenig Sedimente aus dieser Zeit nachgewiesen werden. Alle bisherigen Untersuchungsergebnisse sowie die durchgeführte Sediment-Herkunftsanalyse untermauern die Theorie, dass die Peneplainbildung und ihre Erosionsprozesse in niedriger Höhe - höchstwahrscheinlich auf Meeresniveau - stattgefunden haben muss. Dieser Prozess wurde durch die Kollision des indischen Kontinents mit Asien gestoppt. Die resultierende Krustenverdickung führte zu einer Hebung der Landschaft mit den Peneplains, von Meeresniveau auf 5.000 bis 7.000 Höhenmeter. Die auf dem “das Dach der Welt” vorherrschenden idealen Klimabedingungen haben anschließend für die fast vollständige Erhaltung der Peneplains gesorgt. Der zweite Teil der Dissertation befasst sich mit der Entwicklung einer robusten Methode Peneplains anhand digitale Höhenmodelle (DEM) zu berechnen bzw. zu kartieren. Frei zugängliche DEMs machen es möglich, Erdoberflächen repräsentativ mathematisch und statistisch zu analysieren und zu charakterisieren. Diese Analysemethode stellt eine ausgezeichnete Möglichkeit dar, die Peneplains mittels aussagekräftiger Algorithmen zu charakterisieren und digital zu kartieren. Um Peneplains algorithmisch von der Umgebung klar abgrenzen zu können, wurde ein komplett neuer Ansatz der Fuzzylogik angewandt. Als DEM-Basis wurde ein 90 arcsec-DEM der Shuttle Radar Topography Mission (SRTM) verwendet. Mithilfe eines Geoinformationssystems (GIS) wurden Algorithmen geschrieben, die vier verschiedene kritische Parameter zur Beschreibung von Peneplains berücksichtigen: (I) Gefälle, (II) Kurvigkeit, (III) Geländerauhigkeit und (IV) Relative Höhe. Um die Eignung der Methode zu prüfen, wurde auf Basis der SRTM-DEM weltweit kartiert und mit schon in der Literatur beschriebenen Peneplains verglichen. Die dabei erhaltenen Ergebnisse von den Appalachen, den Anden, dem Zentralmassif und Neuseeland bestätigen dass ein Einsatz des Modells, weltweit und unabhängig von der Höhenlage möglich ist.

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