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Tectonothermal History of the La Noria-Las Calaveras Region, Acatlan Complex, Southern Mexico: Implications for Paleozoic Tectonic ModelsHinojosa-Prieto, Hector Roberto 03 October 2006 (has links)
No description available.
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Variský magmatismus na styku bohemika a moldanubika v oblasti sv. výběžků středočeského plutonického komplexu / Variscan igneous activity at the Bohemicum/moldanubicum boundaryKubínová, Šárka January 2015 (has links)
Variscan dike swarms associated with the Central Bohemian Plutonic Complex (CBPC) at the boundary between the Teplá-Barrandian and Moldanubian Units of the Bohemian Massif represent one of the most interesting geological phenomena. Frequency of dykes and their chemical variability do not have any comparable analogy in the whole European Variscides. This work is focused on the study of dyke rocks in the NE periphery of CBPC in geologically very complicated area with intrusions of predominantly deformed granitoids, contact metamorphosed sediments and magmatic rocks of "Islet Zone" with different protolith ages (forming remnants of the original roof of CBPC), deformed basic rocks of uncertain origin and age. The area extends up to the western boundary of the northernmost part of the Moldanubian high-grade metamorphic complex, the boundary itself being also tectonically problematic. Several localities with dyke rocks under study are situated in the area east of Senohraby (SE of Prague), on the northern side (right coast) of the Sázava river, and extend up to the area of Stříbrná Skalice. This area is rich in dykes of gabbro to diorite porphyry accompanied in some places with tonalite (rarely quartz diorite) porphyry and more rarely with amphibole lamprophyres (spessartite). Significantly younger dykes...
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Déformation polyphasée et importance de l'héritage structural dans les longmen shan (sichuan, chine) : apports d'une approche couplée entre géophysique et géologie / Polyphased deformation and importance of the structural inheritance in the Longmen Shan (Sichuan, China) : contributions from a coupled study between geophysics and geologyRobert, Alexandra 01 September 2011 (has links)
L'objectif de cette thèse est de comprendre la formation, la structuration et les processus de réactivation d'une chaîne de montagne intracontinentale atypique : les Longmen Shan, situés dans la province du Sichuan, en Chine. Localisés à la limite entre le craton du Yangtze où s'est déposé le bassin du Sichuan (au Sud-Est) et le bloc du Songpan Garze appartenant au plateau tibétain (au Nord-Ouest), les Longmen Shan se sont majoritairement structurés lors de l'orogénèse indosinienne, à la fin du Trias et ont ensuite subit plusieurs réactivations.Cette chaîne de montagne est donc un endroit privilégié pour étudier la réactivation et l'héritage structural et thermique d'une structure intracontinentale, en relation étroite avec la formation et l'évolution du plateau tibétain. Tout d'abord, pour contraindre les paramètres crustaux, une imagerie crustale détaillée le long d'une coupe à travers cette chaîne est proposée. Une réseau sismologique de 35 stations a été déployé pendant plus de 2 ans le long d'un profil dense. La technique des fonctions récepteurs a été appliquée et les données gravimétriques ont été utilisées conjointement pour renforcer l'imagerie obtenue. Un saut de Moho abrupt de 20km a été imagé, entre une croûte tibétaine épaisse d'environ 63km et la croûte du craton du Yangtze , épaisse de 45km. Ce résultat traduit la confrontation de deux lithosphères d'épaisseurs et de propriétés physiques contrastées. Les rapports Vp/Vs ainsi que les mesures d'anisotropie crustale et mantellique ont montré l'absence d'une zone à faible vitesse ou d'une zone de fluage important au sein de la croûte, ce qui réfute les modèles de déformation de la croûte tibétaine impliquant un chenal de déformation au sein de la croûte tibétaine. L'imagerie crustale a donc mis en évidence un important contraste à l'échelle lithosphérique. Le second axe de ce travail a consisté à étudier cette région à plus long terme en menant une étude stratigraphique, tectonique et métamorphique afin de déduire l'importance de l'héritage géologique dans sa structuration actuelle. Dès le début du Paléozoïque, la marge passive qui sera ensuite inversée présentait déja probablement une variation abrupte de l'épaisseur crustale. Un premier contraste d'épaisseur lithosphérique au niveau des Longmen Shan se situaient donc à la limite entre deux domaines paléogéographiques différents. A la fin du Trias, lors de la fermeture de la Paléotéthys, l'épais prisme sédimentaire du Songpan Garze a débordé sur la marge passive de la bordure Ouest du craton du Yangtze, dans la région des Longmen Shan. Cependant, il n'y a aucune évidence de subduction dans cette chaîne et le métamorphisme associé à cette phase de déformation correspond à des moyennes températures (jusqu'à plus de 600°C) pour des pressions relativement modestes. Les données métamorphiques ont montré un pic de pression (relativement faible, inférieur à 8kbar) suivi d'un pic de température pouvant conduire à une migmatisation associée à une exhumation variable en fonction de la localisation au sein de la chaîne. Les variations latérales de l'exhumation sont interprétées comme directement associées à la dynamique de la mise en place de la nappe du Songpan Garze sur la marge Ouest du craton du Yangtze. L'apex des Longmen Shan correspond donc au front de la nappe du Songpan Garze et délimite deux domaines structuraux et métamorphiques contrastés.Cette étude met en évidence une phase de réactivation à la fin du Crétacé de la chaîne, probablement associée à la rotation dans le sens horaire du craton du Yangtze. Enfin, la dernière phase de déformation affectant les Longmen Shan est une répercussion de la collision entre l'Inde et l'Eurasie qui fini de structurer cette chaîne.Nous avons donc montré qu'une limite paléogéographique majeure, héritée d'une structure en marge passive transtensive peut subir le débordement de nappes sédimentaires provenant d'un prisme distant de très grande taille. Ce débordement a provoqué une inversion de relief et un surépaississement crustal en conséquence de la superposition de ces épaisses nappes. Une fois cette limite tectonique formée, la région va subir plusieurs réactivations liées à des déformations annexes comme l'orogénèse Yanshanienne ou la collision entre l'Inde et l'Eurasie. Cette chaîne est encore active aujourd'hui comme l'a démontré le séisme du Sichuan du 12 Mai 2008 qui a eu lieu dans les Longmen Shan avec des caractéristiques atypiques. / The aim of this study is to understand formation, evolution and reactivation processes of an atypic intracontinental mountain range : the Longmen Shan (Sichuan, China). The Longmen Shan are located at the boundary between the Yangtze craton and the tibetan crust and were mostly formed during the indosinian orogeny, at the end of the Triassic. After this orogeny, the Longmen Shan were reactivated by several deformation phases. This mountain range is a key area to study reactivation processes and structural and thermal inheritance. Furthermore, the Longmen Shan tectonic history is linked with the formation and the evolution of the Tibetan Plateau.At first, a detailed seismological imagery was performed along a cross-section through the Longmen Shan, passing by the epicenter of the Sichuan earthquake. 35 seismological stations were deployed during more than 2 years with a small interstation distance. Using the receiver function method and gravimetric data, a steep Moho step of about 20km between the 63km-thick Tibetan crust and the 45km-thick Yangtze craton was imaged. This geometry is the result of the confrontation between the thick and soft tibetan lithosphere abutting the resistant Yangtze lithosphere. Vp/Vs ratio and crustal and mantellic anisotropic measurements indicate that there is no extensive zone of partial melting inside the tibetan crust, which is in disagreement with models that proposed the occurence of a channel flow inside the crust. The second part of this word was focused on the long-term study of the deformation in the Longmen Shan using stratigraphic, tectonic and metamorphic data. This part highlights the importance of the geological inheritance in the present-day crustal geometry of the mountain range. Since the beginning of the Paleozoïc, the Western passive margin of the Yangtze crust was probably already associated with a crustal thickness step, as a consequence of the transtensive openning context. The Longmen Shan were located at a paleogeographic boundary. At the end of the Triassic, the closure of the Paleotethys is responsible of the formation of the thick Songpan Garze accretionary wedge which overflowed on the Western part of the Yangtze craton margin, in the Longmen Shan area. There is no evidence of subduction in this belt and the associated metamorphism consists of middle temperatures and relatively low pressures. Metamorphic data indicates that a pressure maximum (lower than 8kbar) was followed by a temperature maximum which could be associated with partial melting, as observed in Danba metamorphic complexe. Lateral variations of the recorded exhumation are interpreted as a consequence of the dynamics of the setting up of the Songpan Garze nappe on the Yangtze craton margin. The Longmen Shan are located at the front of the Songpan Garze nappe and marks a transition zone between two contrasted tectonic and metamorphic provinces.This study highlights a cretaceous reactivation phase probably associated with the clockwise rotation of the Yangtze craton. At the end, the last deformation phase is a consequence of the India/Eurasia collision.The Longmen Shan were a major paleogeographic boundary at the end of the Paleozoïc which were subject to the overflow of the thick Songpan Garze accretionary wedge. This overflow is responsible of a relief inversion and a crustal thickenning as a consequence of superposition of the sedimentary pile. After this episode, the region will be reactivated by the distant Yanshanian and the Himalayan orogenies.
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Tectonic reconstruction of the Alpine orogen in the western Mediterranean regionRosenbaum, Gideon January 2003 (has links)
Abstract not available
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Seismic-Reflection and Seismic-Refraction Imaging of the South Portuguese Zone Fold-and-Thrust BeltSchmelzbach, Cedric January 2007 (has links)
The South Portuguese Zone (SPZ), which host world-class massive sulphide deposits, forms the southern fold-and-thrust belt of the Iberian Variscan orogeny. This thesis focuses on seismic-reflection and seismic-refraction processing efforts on a subset of the IBERSEIS deep seismic-reflection data set aiming at resolving the SPZ upper crust in high resolution. A comparison of different crooked-line seismic-reflection imaging schemes showed that a processing sequence involving dip-moveout corrections, a common-midpoint projection, and poststack time migration of common-offset gathers provided the most coherent images considering the crooked acquisition geometry. Correlation with surface-geological data allows four units of different reflection character to be identified: the ~0–2 km deep Upper Carboniferous Flysch group, the highly reflective ~2–4 km thick and up to ~5 km deep Volcano-Sedimentary Complex (VSC) group, and two deep Paleozoic metasedimentary units, with the shallower Phyllite-Quartzite group exposed in an antiform. Prominent diffracted energy was enhanced using a modified Kirchhoff imaging routine. High reflectivity and distinct diffractions mark extensive dike bands at 6–12 km depth, possibly related to the intense hydrothermal activity that led to the formation of the ore-bearing VSC group. Source-generated noise obscures potential signals from depths shallower than ~500m depth on the seismic-reflection sections. P- and SV-wave first-arrival traveltimes were inverted for velocity models imaging the shallowest crust. Overall, the velocity models correlate well with surface-geological data marking high (>5.25 km/s) and uniform P-velocities for the Flysch unit in the southern SPZ. A prominent P-wave low-velocity body (~4.5 km/s) is resolved where the Phyllite-Quartzite unit forms the core of an antiform. P-velocities fluctuate the most in the northern SPZ with Flysch group units exhibiting high velocities (>5.25 km/s) and VSC group bodies showing intermediate velocities (~5 km/s). Low VP/VS-ratios (~1.8) computed for the southern profile part are interpreted as less deformed Flysch-group units, whereas high VP/VS-ratios (~1.9) indicate fractured units.
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From rifting to collision : the evolution of the Taiwan Mountain BeltLester, William Ryan 10 October 2013 (has links)
Arc-continent collisions are believed to be an important mechanism for the growth of continents. Taiwan is one of the modern day examples of this process, and as such, it is an ideal natural laboratories to investigate the uncertain behavior of continental crust during collision. The obliquity of collision between the northern South China Sea (SCS) rifted margin and Luzon arc in the Manila trench subduction zone allows for glimpses into different temporal stages of collision at different spatial locations, from the mature mountain-belt in central-northern Taiwan to the 'pre-collision' rifted margin and subduction zone south of Taiwan. Recently acquired seismic reflection and wide-angle seismic refraction data document the crustal-scale structure of the mountain belt through these different stages. These data reveal a wide rifted margin near Taiwan with half-graben rift basins along the continental shelf and a broad distal margin consisting of highly-extended continental crust modified by post-rift magmatism. Magmatic features in the distal margin include sills in the post-rift sediments, intruded crust, and a high-velocity lower crustal layer that likely represents mafic magmatism. Post-rift magmatism may have been induced by thermal erosion of lithospheric mantle following breakup and the onset of seafloor spreading. Geophysical profiles across the early-stage collision offshore southern Taiwan show evidence the thin crust of the distal margin is subducting at the Manila trench and structurally underplating the growing orogenic wedge ahead of the encroaching continental shelf. Subduction of the distal margin may induce a pre-collision flexural response along the continental shelf as suggested by a recently active major rift fault and a geodynamic model of collision. The weak rift faults may be inverted during the subsequent collision with the continental shelf. These findings support a multi-phase collision model where the early growth of the mountain belt is driven in part by underplating of the accretionary prism by crustal blocks from the distal margin. The wedge is subsequently uplift and deformed during a collision with the continental shelf that involves both thin-skinned and thick-skinned structural styles. This model highlights the importance of rifting styles on mountain-building. / text
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Stratigraphy, paleogeography and tectonic evolution of early Paleozoic to Triassic pericratonic strata in the northern Kootenay Arc, southeastern Canadian Cordillera, British ColumbiaKraft, Jamie L Unknown Date
No description available.
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Granito morrinhos – magmatismo da Suíte Intrusiva Pensamiento – tereno paraguá – sudoeste do Cráton Amazônico / Granito morrinhos – magmatismo da Suíte Intrusiva Pensamiento – terreno paraguá – sudoeste do Cráton AmazônicoFrança, Ohana 28 February 2014 (has links)
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Previous issue date: 2014-02-28 / CAPES / Este trabalho tem o propósito de apresentar os dados geológicos, petrológicos e geocronológicos do Granito Morrinhos, pertencente a Suíte Intrusiva Pensamiento, localizado nos domínios do Terreno Paraguá, porção sudoeste do Cráton Amazônico. O mapeamento geológico permitiu a identificação de duas fácies petrográficas no Granito Morrinhos, sendo: Hornblenda-biotita granodiorito e Biotita monzogranito, das quais a primeira predomina em extensão areal. Macroscopicamente, a primeira fácies caracteriza-se por rochas leucocráticas, cinza-claro, constituídas de quartzo, plagioclásio, feldspatos alcalinos, biotita e hornblenda, diferentemente da fácies Biotita monzogranito que consiste de rochas leucocráticas, cinza-rosado, tendo biotita como único máfico essencial. Ambas foram metamorfizadas na fácies xisto verde. Quimicamente, esses litotipos caracterizam uma sequência ácida formada por um magmatismo subalcalino, do tipo álcali-cálcico, metaluminoso a levemente peraluminoso, com algumas feições de granitos do tipo A, evoluído por meio de mecanismos de cristalização fracionada. Dados estruturais exibem registros de duas fases deformacionais, representadas pela xistosidade (S1) e clivagem de crenulação (S2) de atitude preferencial, respectivamente, de 220/80 e 350/85, ambas, provavelmente, relacionadas à Orogenia San Ignácio. Determinação geocronológica obtida pelo método U-Pb (SHRIMP) e geoquímica isotópica (Sm-Nd) dessas rochas indicaram, respectivamente, idade de cristalização 1350 ± 12 Ma, TDM em torno de 1,77 Ga e valor negativo para εNd(1,35) de -2,57. Os resultados aqui obtidos sugerem que o Granito Morrinhos tenha sido gerado em arco magmático continental, em estágio pós-colisional, da Orogenia San Ignácio e permite reconhece-lo como parte da Suíte Intrusiva Pensamiento. / This work presents the geologic, petrological, and geochronological data of Morrinhos Granite belonging to Pensamiento Intrusive Suite, located in the areas of Paraguá Terrain, southwestern portion of the Amazonian Craton. Geological mapping allowed the identification of two facies in Morrinhos Granite, which are: Hornblende-biotite granodiorite e Biotite monzogranite, the first of which predominates in areal extent. The first facies is characterized by leucocratic rocks, light gray, consisting of quartz, plagioclase, alkali feldspar, biotite and hornblende, unlike facies Biotite monzogranite, that is consisting of pinkish gray leucocratic rocks, with biotite as the only mafic essential. Both metamorphosed at greenschist facies. Chemically, these rock types characterize an acid sequence formed by sub alkaline magmatism, alkali-calcic metaluminous to slightly peraluminous type with some features A-type granites as standard evolved through fractional crystallization mechanisms. Structural data show two phases of deformation represented by the schistosity (S1) and cleavage crenulation (S2) with preferential attitude, respectively, 220 /80 and 350/85, both probably related to San Ignácio Orogeny. Geochronological determination obtained by the U-Pb (SHRIMP) and isotope geochemistry (Sm-Nd) of these rocks indicate, respectively, crystallization age 1350 ± 12 Ma, TDM around 1.77 Ga and negative value for εNd(1.35) of -2.57.The results obtained suggest that the Morrinhos Granite has been generated in a continental magmatic arc during the post colisional stage of San Ignacio Orogeny and allow to recognizes as an extension of Pensamiento Intrusive Suite.
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INTERPRETATION OF THE DEPOSITIONAL ENVIRONMENTS AND SOFT-SEDIMENT DEFORMATION IN THE UPPER TANGLEWOOD MEMBER (UPPER ORDOVICIAN) OF THE LEXINGTON LIMESTONE, CENTRAL KENTUCKY, U.S.A.Koirala, Dibya R. 01 January 2017 (has links)
The upper Tanglewood Member is the final member of the Lexington Limestone and is well-known for its soft-sediment deformation. This study has confirmed the carbonate-shoal-complex origin of the unit, and detailed study shows that its development took place during five small-scale, sequence-like, fining-upward cycles related to eustasy and tectonics. Four lithofacies are represented in the unit. Facies analysis of each cycle shows that the thickest and coarsest part of each cycle corresponds to previously uplifted basement-fault blocks; the occurrence of thick, coarse facies on the same fault blocks suggests that the blocks continued to experience uplift due to Taconian far-field forces generated on the eastern margin of Laurentia. The upper Tanglewood Member includes six deformed horizons that can be traced into equivalent parts of the Clays Ferry and Point Pleasant formations. Concurrence of four lines of evidence, suggested by Ettensohn et al. (2002d) for interpretation of seismites, indicates that the widespread horizons of deformation are seismogenic in origin. Reactivation of basement structures due to Taconian far-field forces probably induced seismicity on the intra-platform carbonate complex so as to produce soft-sediment deformation.
Petrographic investigation indicates that most of the cements in the upper Tanglewood limestones appear to be late diagenetic, fresh-water phreatic cements. Comparing the petrography of deformed and undeformed portions of the same horizon showed no significant differences in terms of cementation, indicating that cementation occurred primarily after deformation. The primary impact of deformation on the microstructure of the unit was the randomization of grain fabric and the increased presence of broken intraclasts.
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Les gisements d'or comme témoins de l'histoire géologique du craton oues-africain : apports de la datation / Gold deposits as results of the West-African craton geologic history : Isotopic dating inputsLe Mignot, Élodie 18 December 2014 (has links)
Le craton ouest-africain héberge de nombreux gisements et occurrences aurifères encaissés dans des terrains paléoprotérozoïques. Ces terrains birimiens se sont formés et accrétés lors du cycle orogénique éburnéen qui s’est déroulé entre 2,25 et 1,98 Ga. Six gisements d’or situés au Burkina Faso et au Ghana ont été étudiés dans le but d’établir une corrélation entre les différentes phases de l’orogenèse et le (ou les) événement(s) minéralisateur(s). L’étude détaillée de la minéralisation de ces six gisements a confirmé leur nature orogénique, mais a également révélé la présence d’un porphyre à Cu (±Au) dans le district minier de Gaoua, Burkina Faso. Par ailleurs, nos observations ont mis en évidence le caractère polyphasé de la minéralisation au sein d’un même gisement. Les datations Re-Os menées sur des sulfures directement liés à la minéralisation en or permettent de distinguer deux grandes périodes métallogéniques au sein de l’orogenèse éburnéenne. La première période se déroule lors de la phase d’accrétion magmatique D1 et de la phase de transition D2, soit entre 2200 et 2120 Ma. Cette période est caractérisée par une minéralisation à faibles teneurs disséminée dans les roches encaissantes. La deuxième période métallogénique prend place lors des stades cassants tardifs de l’orogenèse, aux alentours de 2050-2040 Ma. Elle est représentée par une minéralisation à or visible à plus fortes teneurs, concentrée dans des veines, des brèches et des zones de cisaillement. La mise en évidence de l’existence de minéralisations aurifères précoces pourrait avoir des conséquences sur la compréhension des gisements de type paléoplacer observés notamment au Ghana. Ces minéralisations primaires pourraient en effet constituer la source de l’or des paléoplacers tarkwaïens, mis en place à partir de 2130 Ma, qui demeure inconnue / The West African craton is a region enriched in gold deposits and occurrences which are hosted in Paleoproterozoic terrains. These Birimian terrains formed during the Eburnean orogeny which took place between 2.25 and 1.98 Ga. Six gold deposits situated in Burkina Faso and Ghana were studied in order to define a correlation between the different orogenic phases and the mineralizing event(s). The detailed study of the mineralization of the six deposits confirmed the importance of the orogenic gold deposits in the West African craton. Moreover, the existence of a Cu (±Au) porphyry deposit was revealed in the mining district of Gaoua, southwestern Burkina Faso. Our observations highlighted the polyphased character of gold mineralization within nearly all of the studied deposits. Re-Os dating performed on sulfides directly linked to the gold mineralization permitted two main metallogenic periods to be distinguished. The first period was coincident with the D1 and D2 orogenic phases, occurring between 2200 and 2120 Ma, and representing respectively magmatic accretion and transition towards a collisional regime. This period was characterized by low grade disseminated gold mineralization. The second metallogenic period took place during the later brittle deformational phases of the orogeny, ca. 2050-2040 Ma. This secondary mineralization contains visible gold concentrated in veins, breccias and shear zones, and displays higher gold grades. Geochronological evidence for the existence of early gold mineralization could have consequences for the understanding of paleoplacer-type deposits, observed primarily in Ghana. Indeed, this primary mineralization could represent a potential source for gold found in Tarkwaian paleoplacers, which formed after 2130 Ma, and for which the provenance of the gold remains unidentified
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