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Relative Location Analysis and Moment Tensor Inversion for the 2012 Gulf of Maine Earthquake SwarmNapoli, Vanessa J. January 2016 (has links)
Thesis advisor: John E. Ebel / Large magnitude offshore passive margin earthquakes are rare, making small magnitude events (M < 4) the predominant data available to study the mechanisms of seismicity along passive margins. This study is focused on a swarm of events (M2.1-M3.9) that occurred from 2012-2013 located in the Gulf of Maine (GM) along the Atlantic Passive Margin (APM) shelf break, a region with previously minimal recorded seismic activity. Relative locations were calculated for the earthquakes of the GM swarm and a moment tensor inversion method was used to calculate focal mechanisms for the two largest events in the swarm. The results of the relative location method constrained a fault orientation to a strike of 243° ± 3° and a dip of 25° ± 3°. The focal mechanisms for the two largest events were determined to be oblique normal faults with steeply dipping planes at depths between 12-18 km. For the largest event (M3.9), the strike is 235° ± 1°, with a dip of 77.7° ± .8° and a rake of -116.5° ± 3°, and for the second largest event (M3.7) the strike is 259° ± 3°, with a dip of 78° ± 2° and a rake of -58.8° ± 7°. By mapping the spatial extent of the relative hypocenters, I infer a potential fault size of 2.7 km by 2.4 km. If this entire area were to rupture at once in the future, an earthquake of M4.9-M5.0 could occur, a magnitude not large enough to be tsunamigenic in the GM. Based on Gutenberg-Richter relations from the eastern APM, if a M7 can occur in the GM, its estimated mean repeat time is 2,120-22,800 years, and it could be tsunamigenic depending on the event’s proximity to the continental slope. / Thesis (MS) — Boston College, 2016. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Earth and Environmental Sciences.
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Crustal structure across the eastern North American margin from ambient noise tomographyLynner, Colton, Porritt, Robert W. 16 July 2017 (has links)
Passive tectonic margins, like the eastern North American margin (ENAM), represent the meeting of oceanic and continental material where no active deformation is occurring. The recent ENAM Community Seismic Experiment provides an opportunity to examine the crustal structure across the ENAM owing to the simultaneous deployment of offshore and onshore seismic instrumentation. Using Rayleigh wave phase and group velocities derived from ambient noise data, we invert for shear velocity across the ENAM. We observe a region of transitional crustal thicknesses that connects the oceanic and continental crusts. Associated with the transitional crust is a localized positive gravitational anomaly. Farther east, the East Coast magnetic anomaly (ECMA) is located at the intersection of the transitional and oceanic crusts. We propose that underplating of dense magmatic material along the bottom of the transitional crust is responsible for the gravitational anomaly and that the ECMA demarks the location of initial oceanic crustal formation.
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Petrology of Passive Margin-Epeiric Sea Sediments: the Garden City Formation, North-central UtahMorgan, Susan K. 01 May 1988 (has links)
The Lower Ordovician Garden City Formation is part of the thick sequence of Lower Paleozoic limestones, dolostones, and minor siliciclastic sedimentary rocks of the western United States. The carbonate rocks were formed predominantly by shallow water deposition in tropical, passive-margin epeiric seas.
The Garden City Formation is composed of nine lithotypes which represent the various environments. The formation is a storm-influenced transgressive sequence which may be divided into innershelf shallow subtidal and outer-shelf deep subtidal environments separated by a skeletal accumulation. The skeletal accumulation, formed by storm initiation, was a submerged topographic high, below normal wave base. The inner shelf includes the initial peritidal transgressive and shoreface material, which was extensively reworked by storm action, and a patchy distribution of shallow subtidal deposits. It is characterized by shoreward fossil banks and mud mounds, a restricted fauna, large amounts of terrigenous material and repeated occurrences of storm-created intraclastic layers within a nodular limestone.
The outer shelf sediments have a diverse fauna, are extensively burrowed and bioturbated, and have significant amounts of chert. Uncommon intraformational conglomerate layers signify deposition below mean storm-wave base.
The Garden City Limestone facies were deposited in broad, energy-related zones parallel to the ancient shoreline. These facies were compared to the model of epeiric sea deposition presented by Shaw (1964) and Irwin (1965). There was a lack of evidence within the Garden City sediments to support the existence of an extensive, shoreward, tideless low-energy zone as predicted by the model. The inner shallow subtidal environments remained near normal marine conditions, with water circulation provided by tidal action.
Early diagenetic features of the Garden City Formation include compaction, micritization, cementation and neomorphism. Chert formation preceded pressure solution and probably represents silicification of burrows.
Dolomitizing fluids moved along faults, unconformities, and bedding planes to selectively dolomitize the formation. Near-surface weathering resulted in dedolomitization and the oxidation of pyrite to hematite.
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Provenance-related studies of Triassic-Miocene Tethyan sedimentary and igneous rocks from CyprusChen, Guohui January 2018 (has links)
Cyprus comprises three tectono-stratigraphic terranes: first, the Troodos Massif made up of Late Cretaceous oceanic lithosphere and its sedimentary cover in the centre of the island; secondly, the Mamonia Complex (and Moni Melange) a passive margin lithological assemblage in the west (and south) and thirdly, the Kyrenia Range, an active margin lithological assemblage in the north. This study focuses on the sedimentary cover of the Troodos Ophiolite in W Cyprus, the Triassic-Cretaceous sedimentary rocks of the Mamonia Complex and Late Cretaceous-Miocene igneous and sedimentary rocks in the Kyrenia Range, mainly based on combined sedimentology, geochemistry and geochronological dating. The Late Triassic-Early Cretaceous Mamonia Complex, SW Cyprus (and the Moni Melange, S Cyprus) represent parts of the emplaced passive continental margin of the S Neotethys. Late Triassic sandstones are characterised by a predominantly felsic source, with a subordinate mafic contribution. Jurassic-Early Cretaceous sandstones have a polycyclic felsic origin. Geochemical analyses are suggestive of progressive weathering and sediment recycling/sorting. The dominance of Ediacaran-Cryogenian and Tonian-Stenian-aged detrital zircon populations is suggestive of an ultimate north Gondwana source, probably recycled from Palaeozoic siliciclastic sedimentary rocks within Anatolia to the north. Similar detrital zircon populations characterise Early Cretaceous deltaic sandstone of the Moni Melange, S Cyprus. Sporadic Late Cretaceous subduction-related magmatism, represented by a Campanian volcaniclastic sequence (80.44±1.0 Ma) inWCyprus and a Late Campanian felsic volcanogenic sequence (72.9±1.0 Ma) in N Cyprus, represents early and more advanced stages of northward subduction during closure of the S Neotethys. Specifically, the Kannaviou Formation in W Cyprus (up to 750 m thick) is made up of deep-marine volcaniclastic sandstones that were mostly deposited by gravity flows and as air-fall tuff, interbedded with clay and radiolarian mudstones. Petrographic and geochemical analyses are indicative of a volcanic arc source, with deposition in a fore-arc basin. Petrographic evidence of terrigenous input (e.g. muscovite, muscovite schist, polycrystalline quartz) points to a subordinate continental source. Mineral chemistry is consistent with a volcanic arc origin. Elevated trace-element ratios in undevitrified volcanic glass (e.g. Th/Nb, Th/La) are indicative of involvement of continental crust or subducted terrigenous sediments in source-arc melting. Felsic volcanogenic rocks (Fourkovouno (Selvilitepe) Formation) in the Kyrenia Range, N Cyprus, occur as an up to 400 m-thick sequence of felsic tuffs, felsic debris-flowdeposits and rhyolitic lava flows. Geochemical analyses are indicative of evolved high-K and shoshonitic compositions, similar to those of the Andean active continental margin. Subduction continued to affect the northern continental margin of the S Neotethys in the Kyrenia Range during the Maastrichtian. This lead to the accumulation of Late Cretaceous sandstone turbidites and related basaltic volcanics, possibly in a back-arc setting. The volcanism took place in two phases (Late Cretaceous and Palaeogene-Early Eocene) during pelagic carbonate accumulation. These lavas have within-plate affinities, but with a variable subduction influence in some areas (e.g. western Kyrenia Range), which may be contemporaneous or inherited from previous subduction. The sedimentary sequences in the Kyrenia Range, N Cyprus, document diachronous closure of the S Neotethys. Late Cretaceous and Eocene sandstone turbidites, and the lower part of the overlying Oligocene-Miocene succession exhibit enrichment in ultramafic components that was probably sourced from ophiolite-related rocks in the Taurides to the north. In contrast, Miocene sandstone turbidites higher in the sequence show an increasing input of continent-derived siliciclastic material (and sorting effects). The terrigenous-influenced sediments are likely to represent erosion of thrust sheets that were emplaced from the S Neotethys onto the Arabian foreland in SE Turkey related to continental collision. Ediacaran-Cryogenian and Tonian-Stenian-aged zircons dominate the Late Cretaceous and Eocene sandstone turbidites, consistent with derivation from the Tauride micro-continent to the north and/or NE. Overlying Miocene sandstones include minor populations of Neoproterozoic-aged zircons, suggestive of reworking from source rocks of ultimately Gondwanan origin (e.g. NE Africa/Arabian-Nubian Shield). In summary, the thesis results exemplify the interaction of tectonic processes associated with the evolution of the S Neotethys Ocean. This began in the area studied with passive margin development (Triassic-Cretaceous), and was followed by multi-stage subduction-related volcanism and sedimentation (Late Cretaceous-Miocene). Final closure of the S Neotethys in this area took place during the Late Miocene-Recent.
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Diagenesis and Reservoir-Quality Evolution of Deep-Water Turbidites: Links to Basin Setting, Depositional Facies, and Sequence StratigraphyMansurbeg, Howri January 2007 (has links)
A study of the distribution of diagenetic alterations and their impact on reservoir-quality evolution in four deep-water turbidite successions (Cretaceous to Eocene) from basins in active (foreland) and passive margins revealed the impact of tectonic setting, depositional facies, and changes in the relative sea level. Diagenetic modifications encountered in the turbiditic sandstones from the passive margin basins include dissolution and kaolinitization (kaolin has δ18OV-SMOW = +13.3‰ to +15.2‰; δDV-SMOW = -96.6‰ to -79.6‰) of framework silicates, formation of grain coating chloritic and illitic clays, cementation by carbonates and quartz, as well as the mechanical and chemical compaction of detrital quartz. Kaolinitization, which is most extensive in the lowstand systems tracts, is attributed to meteoric-water flux during major fall in the relative sea level. Preservation of porosity and permeability in sandstones from the passive margin basins (up to 30% and 1 Darcy, respectively) is attributed to the presence of abundant rigid quartz and feldspar grains and to dissolution of carbonate cement as well as mica and feldspars. Diagenetic modifications in turbidites from the foreland basins include carbonate cementation and mechanical compaction of the abundant ductile rock fragments, which were derived from fold-thrust belts. These diagenetic alterations resulted in nearly total elimination of depositional porosity and permeability. The wide range of δ13CV−PDB values of these cements (about -18‰ to +22‰) in passive margin basins is attributed to input of dissolved carbon from various processes of organic matter alterations, including microbial methanogenesis and thermal decarboxylation of kerogen. The narrower range of δ13CV−PDB values of these cements (about -2‰ to +7‰) in the foreland basins suggests the importance of carbon derivation from the dissolution of carbonate grains. The generally wide range of δ18O values (about -17‰ to -1‰) of the carbonate cements reflect the impact of oxygen isotopic composition of the various fluid involved (including marine depositional waters, fluxed meteoric waters, evolved formation waters) and the wide ranges of precipitation temperatures. Results of this study are anticipated to have important implication for hydrocarbon exploration in deep-water turbidites from passive and active margin basins and for pre-drilling assessment of the spatial and temporal distribution of reservoir quality in such deposits.
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Déchirure continentale et segmentation du Golfe d'Aden Oriental en contexte de rifting obliqueAutin, Julia 05 December 2008 (has links) (PDF)
Le Golfe d'Aden sépare la plaque Somalie de la plaque Arabie. Il constitue un objet d'étude intéressant pour la compréhension du développement des marges continentales passives. Le rifting débute vers 35 Ma et l'accrétion se développe à partir de 17,6 Ma dans la zone étudiée. De plus, la direction d'ouverture du Golfe d'Aden est fortement oblique par rapport à sa direction. Sur la marge nord-est, la campagne Encens (N/O l'Atalante, 2006) a permis l'acquisition de nouvelles données de sismique réflexion 360 traces, notamment sur le segment de premier ordre entre les zones de fracture d'Alula-Fartak et de Socotra. À la segmentation de premier ordre (zones de fracture) s'ajoute une segmentation de second ordre qui présente des structures et des morphologies différentes selon les segments, notamment au niveau de la transition océan-continent (TOC). Les segments étudiés suggèrent que la partie ouest de la zone d'étude (segment d'Ashawq-Salalah) est caractérisée par un magmatisme post-rift conséquent tandis que la partie orientale de la zone d'étude (segment de Mirbat) possède une morphologie qui semble être fortement tectonisée. L'évolution tectono-stratigraphique du segment d'Ashawq-Salalah a pu être étudiée en détail (migration avant sommation profondeur et corrélation terre-mer des processus sédimentaires). La marge est tout d'abord structurée par des grabens et des horsts syn-rift. Puis on observe une localisation de la déformation sur la marge distale. Au début de la formation de la TOC, un soulèvement local ou régional induit un glissement de terrain au sommet du horst le plus distal. La déformation crustale est alors localisée dans la TOC, où la rupture continentale va finalement se produire. La nature de la TOC pourrait être du manteau serpentinisé, postérieurement intrudé par du matériel magmatique pendant la période post-rift. La couverture sédimentaire à proximité de la TOC montre qu'elle subit une surrection pendant le post-rift en relation avec la mise en place d'un volcan et des coulées et sills associés. Cette évolution peut être comparée aux modèles d'évolution les plus récents des marges passives. La marge conjuguée (au sud-est du Golfe d'Aden) présente la même segmentation que la marge nord-est (d'Acremont et al., 2005). Une analyse microstructurale de l'île de Socotra (marge sud émergée) permet de comparer les marges et de mieux contraindre le rifting oblique. Comme sur la marge nord, les directions des failles normales sont réparties en trois familles : N110°E perpendiculaire à l'extension, N70°E parallèle à la direction du Golfe, N90°E intermédiaire. L'inversion des données microstructurales montre des directions d'extension en accord avec les trois familles de failles. Des chronologies sont observées depuis une direction d'extension N20°E vers N160°E et réciproquement. Les variations de la direction d'extension suggèrent une alternance des champs de contraintes pendant la phase de rifting du Golfe d'Aden. Des modélisations analogiques dans le Golfe d'Aden ont permis de mieux cerner son développement en rifting oblique. Les horsts et les grabens sont disposés en échelons, avec des formes sigmoïdes. Les trois familles de failles liées à l'obliquité sont observées : N110°E, N90°E et N70°E. L'évolution des directions des failles montre une dominance des failles N90°E et N110°E au début de l'extension puis le développement plus tardif de failles N70°E et ce, avec ou sans la présence initiale d'une hétérogénéité oblique à l'extension. Enfin des failles N110°E sont de nouveau formées. Le modèle conceptuel de Bellahsen et al. (2006) serait donc applicable pour les premiers stades d'évolution : la réactivation de bassins N110°E et la formation de nouvelles failles en échelons s'effectuent sous la direction d'extension des plaques (N20°E) depuis 35 Ma. Puis l'amincissement de la lithosphère se poursuivant le long de la direction du Golfe (N70°E), les contraintes locales dues aux variations latérales d'épaisseur provoquent la formation de failles N70°E et la réactivation de failles N110°E. La chronologie d'extension N20°E puis N160°E observée sur les marges est donc expliquée. Nous proposons une troisième étape : une fois l'amincissement du rift suffisamment important, les contraintes locales ne s'exercent que sur les bords du rift ou sur les horsts majeurs. Partout ailleurs des failles N110°E sont formées et les failles N70°E sont réactivées de manière oblique. La seconde chronologie d'extension N160°E puis N20°E des études microstructurales est aussi expliquée. Les horsts peuvent subir des rotations horaires importantes qui induisent des zones de cisaillement senestres. Elles pourraient initier les nombreuses zones de transfert concordant avec la forte segmentation du le Golfe d'Aden.
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Geological control of physiography in Southeast Queensland : a mult-scale analysis using GISHodgkinson, Jane Helen January 2009 (has links)
The study reported here, constitutes a full review of the major geological events that have influenced the morphological development of the southeast Queensland region. Most importantly, it provides evidence that the region’s physiography continues to be geologically ‘active’ and although earthquakes are presently few and of low magnitude, many past events and tectonic regimes continue to be strongly influential over drainage, morphology and topography. Southeast Queensland is typified by highland terrain of metasedimentary and igneous rocks that are parallel and close to younger, lowland coastal terrain. The region is currently situated in a passive margin tectonic setting that is now under compressive stress, although in the past, the region was subject to alternating extensional and compressive regimes. As part of the investigation, the effects of many past geological events upon landscape morphology have been assessed at multiple scales using features such as the location and orientation of drainage channels, topography, faults, fractures, scarps, cleavage, volcanic centres and deposits, and recent earthquake activity. A number of hypotheses for local geological evolution are proposed and discussed. This study has also utilised a geographic information system (GIS) approach that successfully amalgamates the various types and scales of datasets used. A new method of stream ordination has been developed and is used to compare the orientation of channels of similar orders with rock fabric, in a topologically controlled approach that other ordering systems are unable to achieve. Stream pattern analysis has been performed and the results provide evidence that many drainage systems in southeast Queensland are controlled by known geological structures and by past geological events. The results conclude that drainage at a fine scale is controlled by cleavage, joints and faults, and at a broader scale, large river valleys, such as those of the Brisbane River and North Pine River, closely follow the location of faults. These rivers appear to have become entrenched by differential weathering along these planes of weakness. Significantly, stream pattern analysis has also identified some ‘anomalous’ drainage that suggests the orientations of these watercourses are geologically controlled, but by unknown causes. To the north of Brisbane, a ‘coastal drainage divide’ has been recognized and is described here. The divide crosses several lithological units of different age, continues parallel to the coast and prevents drainage from the highlands flowing directly to the coast for its entire length. Diversion of low order streams away from the divide may be evidence that a more recent process may be the driving force. Although there is no conclusive evidence for this at present, it is postulated that the divide may have been generated by uplift or doming associated with mid-Cenozoic volcanism or a blind thrust at depth. Also north of Brisbane, on the D’Aguilar Range, an elevated valley (the ‘Kilcoy Gap’) has been identified that may have once drained towards the coast and now displays reversed drainage that may have resulted from uplift along the coastal drainage divide and of the D’Aguilar blocks. An assessment of the distribution and intensity of recent earthquakes in the region indicates that activity may be associated with ancient faults. However, recent movement on these faults during these events would have been unlikely, given that earthquakes in the region are characteristically of low magnitude. There is, however, evidence that compressive stress is building and being released periodically and ancient faults may be a likely place for this stress to be released. The relationship between ancient fault systems and the Tweed Shield Volcano has also been discussed and it is suggested here that the volcanic activity was associated with renewed faulting on the Great Moreton Fault System during the Cenozoic. The geomorphology and drainage patterns of southeast Queensland have been compared with expected morphological characteristics found at passive and other tectonic settings, both in Australia and globally. Of note are the comparisons with the East Brazilian Highlands, the Gulf of Mexico and the Blue Ridge Escarpment, for example. In conclusion, the results of the study clearly show that, although the region is described as a passive margin, its complex, past geological history and present compressive stress regime provide a more intricate and varied landscape than would be expected along typical passive continental margins. The literature review provides background to the subject and discusses previous work and methods, whilst the findings are presented in three peer-reviewed, published papers. The methods, hypotheses, suggestions and evidence are discussed at length in the final chapter.
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Structural and thermal evolution of the Gulf Extensional Province in Baja California, Mexico: implications for Neogene rifting and opening of the Gulf of CaliforniaSeiler, C. January 2009 (has links)
The Gulf of California in western Mexico is a prime example of a young passive margin that is currently undergoing the transition from continental rifting to seafloor spreading. With less than ~25 km of the width of the original continental surface area submerged, the northern Gulf Extensional Province represents a key area to assess the history of strain localisation during the early stages of continental extension. Geological mapping revealed that the basins and ranges of the Sierra San Felipe, located in the hanging wall of the Main Gulf Escarpment, are bounded to the east by an en-echelon array of left-stepping moderate- to low-angle normal faults that represent the next dominant set of normal faults from the break-away fault in direction of transport. Structural displacement estimates suggest up to ~4.5–9 km of broadly east-directed extension on the Las Cuevitas, Santa Rosa and Huatamote detachments. Fault kinematics suggest a transtensional stress regime with NE- to SE-directed extension and permutating vertical and N–S subhorizontal shortening. Clockwise vertical-axis block rotations and constrictional folding of the detachments were an integral part of the late Miocene to Pleistocene deformation history of the San Felipe fault array. This overall constrictional strain regime is indistinguishable from the present-day deformation in the Gulf Extensional Province and indicates that the fault array formed during a single phase of integrated transtensional shearing since rifting began in the late Miocene. / Apatite fission track (AFT) and (U-Th)/He results of Cretaceous crystalline basement samples from the Sierra San Felipe record a three-stage Cenozoic cooling history. Moderate cooling (~4–7ºC/m.y.) during late Paleocene to Eocene times is attributed to progressive down-wearing and bevelling of the ancestral Peninsular Ranges. Beginning at ~45–35 Ma, a period of tectonic quiescence with cooling rates of ≤1ºC/m.y. marks final unroofing of the basement and the development of a regional Oligocene to Miocene peneplain. Thermal modelling of samples from the footwall of the Las Cuevitas and Santa Rosa fault systems indicates that accelerated cooling began at ~9–8 Ma. This cooling pulse is attributed to tectonic denudation of the footwall and implies that faulting initiated synchronously on both detachments at ~9–8 Ma. Late Miocene deformation occurred distributed throughout the Sierra San Felipe, but started waning after the Pacific-North America plate boundary had localised into the Gulf of California by ~4.7 Ma / During a late Pliocene structural reorganisation in the northern Gulf, the locus of extension shifted from the Tiburón to the Delfín basins, thereby initiating strike-slip faulting on the Ballenas fracture zone, a transform fault located approximately 1.5–4.5 km offshore in central Baja California. This is consistent with low-temperature thermochronometric data from two horizontal transects perpendicular to the strike of the transform, which document a pronounced late Pliocene to Pleistocene heating event that is related to the structural and/or magmatic evolution of the transform fault. During reheating, maximum paleotemperatures reached >100–120ºC near the coast, but did not exceed ~60ºC some 5–8 km further inland. Highly non-systematic overprinting patterns are best explained by circulating hydrothermal fluids, which are most likely associated with magmatic leaking along the transform fault. / AFT and (U-Th)/He ages from a vertical profile collected on the Libertad escarpment, which forms part of the Main Gulf Escarpment in central Baja, pre-date Neogene extension and indicate that rift-related denudation was insufficient to expose samples from temperatures higher than the sensitivity zones of the two systems. One sample from the base of the escarpment however, records a middle to late Miocene hydrothermal overprint and suggests that extension in central Baja California likely initiated before ~10–8 Ma.
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História térmica das regiões sul e sudeste da América Do Sul : implicações na compartimentação geotectônica do GondwanaGomes, Cristiane Heredia January 2011 (has links)
Estudos termocronológicos por traços de fissão em apatita são utilizados para estabelecer os principais eventos de denudação, erosão e subsidência na margem continental emersa do sul do Brasil e Uruguai. Os dados obtidos permitem verificar que as idades aparentes de traços de fissão variam de 383,4 ± 40,9 a 9,7 ± 1,2 Ma, entre o Devoniano Superior e o Mioceno, com comprimento dos traços de fissão entre 14,02 a 8,87 μm. A correlação entre idade e distribuição do comprimento dos traços de fissão confinados evidencia que as amostras sofreram diferentes reduções no comprimento dos traços de fissão. Isto indica que as rochas foram submetidas a diferentes posições crustais, paleotemperaturas e tempo de residência na Zona de Apagamento Parcial. As histórias térmicas obtidas mostram que processos de resfriamento lentos e contínuos foram registrados nas regiões desde o final do Pensilvaniano (Neopaleozóico). Os padrões de denudação são complexos, mas foi possível caracterizar no Uruguai e Rio Grande do Sul reflexos do evento orgênico Gondwanides (ou São Rafaélico) atuantes nas margens do Gondwana SW. Nas regiões do norte do Rio Grande do Sul, Santa Catarina e Paraná foi possível documentar com detalhe o recuo da escarpa da margem continental associada a fragmentação e dispersão mesocenozóica do Gondwana, com a definição de eventos de denudação em torno de: (i) 150-140 Ma, atribuído aos eventos pré-rifte a rifte; (ii) 90-80 Ma, associado ao magmatismo alcalino do Cretáceo Superior; (iii) eventos de 70-60 Ma e 45-35 Ma associados a rearranjos isostático da placa Sul-Americana na região estudada. Evento mais jovem com idades entre 20-10 Ma é reconhecido na margem continental do leste do RS e Uruguai, diretamente conectado à formação do Cone do Rio Grande. / Apatite fission track (FT) thermochronological analyses are used to establish the main events of denudation, erosion and subsidence of the emerse continental margin of South Brazil and Uruguay. The obtained data provide apparent ages ranging from 383.4 ± 40.9 Ma to 9.7 ± 1.2 Ma, between Upper Devonian and Miocene, and mean track length from 14.02 μm to 8.87 μm. Thermal history reconstruction based on apatite fission track thermochronology suggest the occurrence of long term and continuous cooling as well rapid uplift in investigated regions, recorded from Neopaleozoic to the Miocene. The oldest denudation event is well recorded in the Uruguay and Rio Grande do Sul as result of orogenic processes at margin of SW Gondwana, the so-called Gondwanides or San Rafael cycle. In the northern portion of Rio Grande do Sul, Santa Catarina and Paraná was possible to document the escarpment retreat across the rifted continental margin connected to the Mesocenozoic fragmentation and dispersion of Gondwana, defined by the main denudation event as follow: (i) 150-140 Ma, developed during the pre-rift and rift stages; (ii) 90-80 Ma, associated to Upper Cretaceous alkaline ; (iii) 70-60 Ma and 45-35 Ma events due to isostatic rearrangement of South American plate in the study area. The youngest denudation event, aged at 20-10 Ma, is very well defined in the emerse continental margin of east Rio Grande do Sul and Uruguay, and coeval to the Rio Grande Cone formation, a large sedimentary package of 4000 m thick.
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História térmica das regiões sul e sudeste da América Do Sul : implicações na compartimentação geotectônica do GondwanaGomes, Cristiane Heredia January 2011 (has links)
Estudos termocronológicos por traços de fissão em apatita são utilizados para estabelecer os principais eventos de denudação, erosão e subsidência na margem continental emersa do sul do Brasil e Uruguai. Os dados obtidos permitem verificar que as idades aparentes de traços de fissão variam de 383,4 ± 40,9 a 9,7 ± 1,2 Ma, entre o Devoniano Superior e o Mioceno, com comprimento dos traços de fissão entre 14,02 a 8,87 μm. A correlação entre idade e distribuição do comprimento dos traços de fissão confinados evidencia que as amostras sofreram diferentes reduções no comprimento dos traços de fissão. Isto indica que as rochas foram submetidas a diferentes posições crustais, paleotemperaturas e tempo de residência na Zona de Apagamento Parcial. As histórias térmicas obtidas mostram que processos de resfriamento lentos e contínuos foram registrados nas regiões desde o final do Pensilvaniano (Neopaleozóico). Os padrões de denudação são complexos, mas foi possível caracterizar no Uruguai e Rio Grande do Sul reflexos do evento orgênico Gondwanides (ou São Rafaélico) atuantes nas margens do Gondwana SW. Nas regiões do norte do Rio Grande do Sul, Santa Catarina e Paraná foi possível documentar com detalhe o recuo da escarpa da margem continental associada a fragmentação e dispersão mesocenozóica do Gondwana, com a definição de eventos de denudação em torno de: (i) 150-140 Ma, atribuído aos eventos pré-rifte a rifte; (ii) 90-80 Ma, associado ao magmatismo alcalino do Cretáceo Superior; (iii) eventos de 70-60 Ma e 45-35 Ma associados a rearranjos isostático da placa Sul-Americana na região estudada. Evento mais jovem com idades entre 20-10 Ma é reconhecido na margem continental do leste do RS e Uruguai, diretamente conectado à formação do Cone do Rio Grande. / Apatite fission track (FT) thermochronological analyses are used to establish the main events of denudation, erosion and subsidence of the emerse continental margin of South Brazil and Uruguay. The obtained data provide apparent ages ranging from 383.4 ± 40.9 Ma to 9.7 ± 1.2 Ma, between Upper Devonian and Miocene, and mean track length from 14.02 μm to 8.87 μm. Thermal history reconstruction based on apatite fission track thermochronology suggest the occurrence of long term and continuous cooling as well rapid uplift in investigated regions, recorded from Neopaleozoic to the Miocene. The oldest denudation event is well recorded in the Uruguay and Rio Grande do Sul as result of orogenic processes at margin of SW Gondwana, the so-called Gondwanides or San Rafael cycle. In the northern portion of Rio Grande do Sul, Santa Catarina and Paraná was possible to document the escarpment retreat across the rifted continental margin connected to the Mesocenozoic fragmentation and dispersion of Gondwana, defined by the main denudation event as follow: (i) 150-140 Ma, developed during the pre-rift and rift stages; (ii) 90-80 Ma, associated to Upper Cretaceous alkaline ; (iii) 70-60 Ma and 45-35 Ma events due to isostatic rearrangement of South American plate in the study area. The youngest denudation event, aged at 20-10 Ma, is very well defined in the emerse continental margin of east Rio Grande do Sul and Uruguay, and coeval to the Rio Grande Cone formation, a large sedimentary package of 4000 m thick.
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