Tesis sobre el tema "Continental margins and sedimentary basin"
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Podkhlebnik, Yvette. "Subsidence et régime thermique des bassins intracratoniques et des marges continentales passives = Subsidence and thermal regime of intracratonic basins and continental passive margins /". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 1992. http://theses.uqac.ca.
Texto completoHeinio, Paivi Tuuli. "3D seismic analysis of sedimentary processes on deepwater continental margins". Thesis, Cardiff University, 2007. http://orca.cf.ac.uk/55059/.
Texto completoMarsden, Gary. "Numerical modelling of continental lithosphere extension leading to sedimentary basin formation". Thesis, University of Liverpool, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.291758.
Texto completoAmblàs, i. Novellas David. "Morfodinàmica sedimentària de marges continentals passius silicoclàstics / Sedimentary morphodynamics of siliciclastic passive continental margins". Doctoral thesis, Universitat de Barcelona, 2012. http://hdl.handle.net/10803/110347.
Texto completoSedimentary morphodynamics of siliciclastic passive continental margins "The present is the key to the past". James Hutton (1788), with this well-known principle of uniformitarianism, established the basis of the modern geology by following the assumption of actualism. Stratigraphy makes use of this principle to interpret the origin of geological formations according to observations of modern and submodern processes and geometries. Geomorphology studies the processes that sculpt the Earth’s surface to understand the origin and evolution of present landscapes. The main objective of this Thesis, which is conceptually halfway between stratigraphy and geomorphology, is to understand the long-term morphosedimentary variability of siliciclastic passive continental margins. Our initial hypothesis is that the morphology differences among modern siliciclastic passive margins can be objectively and systematically categorized, and that these differences are mainly related to the action of a few key sedimentary processes. The methods and concepts we use in this study are based on hydrodynamics and sedimentology. The detailed observation of continental margin morphology and stratigraphy, the study of the hydrodynamic processes that control their evolution, and the analysis of changing environmental conditions through time and space facilitate the development of geomorphic transport laws (also known as morphodynamic flux laws) for predicting landscape forms and dynamics. In the following chapters we discuss these topics while analysing seafloor and subseafloor geophysical data, with a particular focus on submarine drainage networks. An important result of this analysis is a morphodynamic model that can explain the long-profile shape of submarine canyons. The model stimulates our discussion about the equilibrium and transience of drainage morphologies observed in the geophysical data set we present. In this work we advocate for the complementariness and interdependence of observational analyses and modeling of sedimentary processes. This Thesis demonstrates that much can be learned about the sedimentary evolution of submarine basins from the study of seascape morphologies, both modern and ancient, and that submarine canyons can evolve while remaining net depositional, beyond the broadened view of these features as purely erosive. These results can be translated to improved stratigraphic prediction in slope strata, a better knowledge of hydrocarbon and water resource distribution in these settings, and a broadened view of submarine canyon development.
Buoniconti, Matthew Robert. "The Evolution of the Carbonate Shelf Margins and Fill of the Antler Foreland Basin by Prograding Mississippian Carbonates, Northern U.S. Rockies". Scholarly Repository, 2008. http://scholarlyrepository.miami.edu/oa_dissertations/330.
Texto completoCollier, Richard E. Ll. "Sedimentary facies evolution in Continental fault-bounded basins formed by crustal extension : the Corinth Basin, Greece". Thesis, University of Leeds, 1988. http://etheses.whiterose.ac.uk/2616/.
Texto completoGamboa, Davide Alexandre. "An integrated seismic-scale analysis of reservoir compartmentalisation on continental margins : the Espirito Santo Basin, SE Brazil". Thesis, Cardiff University, 2011. http://orca.cf.ac.uk/24180/.
Texto completoHogan, K. A. "The geomorphic and sedimentary record of glaciation on high-latitude continental margins with particular reference to the northeastern Svalbard margin". Thesis, University of Cambridge, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.604144.
Texto completoI'Anson, Amy Jacinta. "Structural inheritance at extensional continental margins: Implications for the tectonic evolution of the Northern Carnarvon Basin, Western Australia". Thesis, The University of Sydney, 2020. https://hdl.handle.net/2123/21870.
Texto completoMAGALHÃES, José Ricardo Gonçalves. "Compartimentação tectono-sedimentar da Bacia da Paraíba, a partir da integração de métodos potenciais e interpretação sísmica de dados OFFSHORE". Universidade Federal de Pernambuco, 2015. https://repositorio.ufpe.br/handle/123456789/17212.
Texto completoMade available in DSpace on 2016-06-30T17:44:49Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Dissertação_JoséRicardo.pdf: 6453119 bytes, checksum: 0ee0cb3c7c1782b42a982a22935271cb (MD5) Previous issue date: 2015-07-31
PRH-26/ ANP
Vários trabalhos têm tentado abordar a evolução das margens conjugadas do Atlântico, incluindo o nordeste do Brasil e o oeste da África. Entretanto, o avanço de pesquisas anteriores tem sido dificultado em razão da falta de dados na região marginal da porção oriental do nordeste do Brasil, principalmente na área inserida entre a Zona de Cisalhamento de Pernambuco e o Alto de Touros. Este fato tem imposto limitações ao desenvolvimento de modelos regionais sobre a evolução geotectônica e paleogeográfica desta região, assim como na correlação com sua contraparte na África. Nesta dissertação é apresentada uma investigação realizada com base em dados gravimétricos, magnéticos e sísmicos regionais. Os resultados mostraram que esta região representa um alto do embasamento com a orientação regional das principais estruturas tectônicas (ENE-WSW), ortogonais as estruturas desenvolvidas durante o processo de abertura das bacias da Paraíba e da Plataforma de Natal (NNE-SSW e NNW-SSE). Sobre o embasamento continental formou-se uma plataforma estreita com uma cobertura sedimentar pouco espessa (0,8-2,5 km) e uma quebra abrupta da plataforma, criando uma vasta zona de bypass através do talude. A análise de uma seção sísmica profunda revelou que a crosta continental afinada (crosta transicional) representa uma estreita zona e que o limite crosta continental-oceânica (COB) está localizado a aproximadamente 100 km a leste da atual linha de costa, na Bacia da Paraíba, e a 70 km, na Bacia da Plataforma de Natal. A modelagem geofísica, integrada com a interpretação sísmica, indica que esta região é caracterizada por um afinamento abrupto da crosta continental, com a consequente ascensão súbita da Moho. Também há evidências da existência de uma zona de crosta continental extremamente afinada, a qual foi interpretada como crosta proto-oceânica. Estes novos dados demonstram que esta área apresenta fortes similaridades com margens rifteadas não vulcânicas ou pobres em magma.
Several studies have tried to address the evolution of the Atlantic conjugate margins, including Northeast Brazil and West Africa. However, past research advances has been hindered by a lack of data for the marginal region in the eastern portion of northeastern Brazil, extending from the Pernambuco Shear Zone to the Touros High. This situation has imposed serious limitations on the development of a regional view of the geotectonic and paleogeographic evolution of this area and on correlations with regional counterparts in Africa. Here, we present an investigation using regional gravimetric, magnetic and seismic data. The results show that this region represents a basement high with regional orientation of tectonic structures (ENE-WSW) orthogonal at structures developed during the open processes of the Paraíba and Natal Platform Basins (NNE-SSW and NNW-SSE). The continental basement forming a narrow platform with a thin sedimentary cover (0.8-2.5 km) and an abrupt shelf break, which created a large bypass zone towards the slope. The analysis of a deep seismic section revealed that thinned continental crust (transitional crust) occupies a narrow zone and that the continental-oceanic boundary (COB) is located approximately 100 km to the east of the present coastline, at Paraíba Basin, and 70 km, at Natal Platform Basin. Geophysical modeling integrated with interpretation of the seismic data suggests that this region is characterized by an abrupt thinning of continental crust, with an accompanying sudden rise of the Moho. There are also indications for the existence of a zone of extremely thinned continental crust, which was interpreted as protooceanic crust. Our findings suggest that the study area shows strong similarities to nonvolcanic or magma-poor rifted margins.
Omosanya, Kamaldeen. "Seismic character and interaction of intrabasinal mass-transport deposits in deep-water continental margins (Espírito Santo Basin, SE Brazil)". Thesis, Cardiff University, 2014. http://orca.cf.ac.uk/68258/.
Texto completoMerino, Perez Irene. "Geophysical constraints on the nature of geological domains of continental rifted margins: examples from the West Iberia margin and Ligurian Basin". Doctoral thesis, Universitat de Barcelona, 2021. http://hdl.handle.net/10803/673631.
Texto completoEn esta tesis doctoral, se ha realizado un estudio geofísico y geológico de dos ejemplos clásicos de márgenes continentales: el margen de la Cuenca de Liguria y el margen de la Llanura Abisal del Tajo, ubicada en el margen Oeste de Iberia. A pesar de los diversos estudios previos de estas regiones, existe un debate abierto tanto sobre su estructura cortical como sobre los procesos que operaban durante su formación. Este trabajo de tesis ha tenido como objetivos: 1) determinar la naturaleza de las rocas que forman los principales dominios geológicos de ambos márgenes, 2) definir la estructura tectónica del basamento y 3) discutir la cinemática y la interacción de mecanismos tectónicos y magmáticos involucrados en la formación de los márgenes. Para conseguir estos objetivos, se han analizado e integrado diversos datos geofísicos. Los datos principales son de sísmica de reflexión de “streamer” multicanal y de sísmica de refracción y refracción de gran ángulo marinos. También se han integrado datos batimétricos y gravimétricos. La parte metodológica más novedosa de esta tesis es la utilización de los tiempos de trayecto de fases sísmicas de datos de streamer y gran ángulo en una tomografía conjunta. Esta metodología permite determinar con más precisión que otros métodos las velocidades de las ondas sísmicas (Vp) a través del basamento a lo largo de los perfiles. El modelo resultante permite establecer la naturaleza petrológica con menos incertidumbre que los métodos más comúnmente usados. El análisis, procesamiento, modelado e interpretación de estos conjuntos de datos permite una interpretación novedosa de los aspectos relacionados con la estructura y naturaleza de la corteza, así como la discusión de nuevas propuestas para los procesos tectónicos que llevaron a la configuración actual de cada uno de los ejemplos de márgenes continentales. La interpretación desarrollada difiere en gran medida de modelos previos en cuanto a la formación de ambos sistemas de rifting. Por ello, proponemos que su integración ofrece la oportunidad de revisar modelos conceptuales existentes en la literatura. En particular, los resultados muestran que la respuesta de la litosfera continental a los procesos de extensión puede ser más compleja de lo que se suponía hasta ahora.
Ballato, Paolo. "Tectonic and climatic forcing in orogenic processes : the foreland basin point of view, Alborz mountains, N Iran". Phd thesis, Universität Potsdam, 2009. http://opus.kobv.de/ubp/volltexte/2010/4106/.
Texto completoForeland-basin systems are excellent archives to decipher the feedbacks between surface and tectonic processes in orogens. The sedimentary architecture of a foreland-basin system reflects the balance between tectonic subsidence causing long-term accommodation space and sediment influx corresponding to efficiency of erosion and mass-redistribution processes. In order to explore the effects of climatic and tectonic forcing in such a system, I investigated the Oligo-Miocene foreland-basin sediments of the southern Alborz mountains, an intracontinental orogen in northern Iran, related to the Arabia-Eurasia continental collision. This work includes absolute dating methods such as 40Ar/39Ar and zircon (U-Th)/He thermochronology, magnetostratigraphy, sedimentological analysis, sandstone and conglomerate provenance study, carbon and oxygen isotope analysis, and clay mineralogy study. Results show a systematic correlation between coarsening-upward cycles and sediment accumulation rates in the basin on 105 to 106yr time scales. During thrust loading phases, the coarse-grained fraction supplied by the uplifting range is stored in the proximal part of the basin (sedimentary facies retrogradation), while fine-grained sediments are deposited in distal sectors. Variations in sediment provenance during these phases of enhanced tectonic activity give evidence for erosional unroofing phases and/or drainage-reorganization events. In addition, enhanced tectonic activity promoted the growth of topography and associated orographic barrier effects, as demonstrated by sedimentologic indicators and the analysis of stable C and O isotopes from calcareous paleosols and lacustrine/palustrine samples. Extensive progradation of coarse-grained deposits occurs during phases of decreased subsidence, when the coarse-grained fraction supplied by the uplifting range cannot be completely stored in the proximal part of the basin. In this environment, a reduction in basin subsidence is associated with laterally stacked fluvial channel deposits, and is related to intra-foreland uplift, as documented by growth strata, tectonic tilting, and sediment reworking. Increase in sediment accumulation rate associated with progradation of vertically-stacked coarse-grained fluvial channels also occurs. Paleosol O-isotope data shows that this increase is related to wetter climatic phases, suggesting that surface processes are more efficient and exhumation rates increase, giving rise to a positive feedback. Furthermore, isotopic and sedimentologic data show that starting from 10-9 Ma, climate became less arid with an increase in seasonality of precipitation. Because important changes were also recorded in the Mediterranean Sea and Asia at that time, the evidence for climatic variability observed in the Alborz mountains most likely reflects changes in Northern Hemisphere atmospheric circulation patterns. This study has additional implications for the evolution of the Alborz mountains and the Arabia-Eurasia continental collision zone. At the orogenic scale, the locus of deformation did not move steadily southward, but stepped forward and backward since Oligocene time. In particular, from ~ 17.5 to 6.2 Ma the orogen grew by a combination of frontal accretion and wedge-internal deformation on time scales of ca. 0.7 to 2 m.y. Moreover, the provenance data suggest that prior to 10-9 Ma the shortening direction changed from NW-SE to NNE-SSW, in agreement with structural data. On the scale of the entire collision zone, the evolution of the studied basins and adjacent mountain ranges suggests a new geodynamic model for the evolution of the Arabia-Eurasia continental collision zone. Numerous sedimentary basins in the Alborz mountains and in other locations of the Arabia-Eurasia collision zone record a change from a tensional (transtensional) to a compressional (transpressional) tectonic setting by ~ 36 Ma. I interpret this to reflect the onset of subduction of the stretched Arabian continental lithosphere beneath central Iran, leading to moderate plate coupling and lower- and upper-plate deformation (soft continental collision). The increase in deformation rates in the southern Alborz mountains from ~ 17.5 Ma suggests that significant upper-plate deformation must have started by the early Miocene most likely in response to an increase in degree of plate coupling. I suggest that this was related to the subduction of thicker Arabian continental lithosphere and the consequent onset of hard continental collision. This model reconciles the apparent lag time of 15-20 m.y between the late Eocene to early Oligocene age for the initial Arabia-Eurasia continental collision and the onset of widespread deformation across the collision zone to the north in early to late Miocene time.
Cordeiro, Lívia Gebara Muraro Serrate. "Lipídios como indicadores de processos biogeoquímicos em sedimentos da margem continental do Estado do Rio de Janeiro". Universidade do Estado do Rio de Janeiro, 2011. http://www.bdtd.uerj.br/tde_busca/arquivo.php?codArquivo=3156.
Texto completoThis study is part of the Habitats Project - Campos Basin Environmental Heterogeneity - coordinated by CENPES/PETROBRAS, a multidisciplinary project that considers environmental characterization of the different features and habitats of the Brazilian South-Eastern continental margin. The aim of this thesis was to investigate the processes related to the origin, transport and accumulation of organic matter (OM) in sediments of the continental margin of the Campos Basin (RJ).To this end, the elemental composition of organic matter (carbon and nitrogen) - determined by dry combustion - and lipids (sterols, alcohols and fatty acids) - determined by GCMS and GC-FID - were considered. It was analyzed 215 samples of surface sediment (0-2 cm depth) collected in two samplings (dry and rainy seasons of 2008/2009), distributed over 12 isobaths (25 to 3000 m) along transects distributed from north to south of the basin. Moreover, it was also considered samples from the 400 to 1900 m isobaths in two submarine canyons (Almirante Câmara and Grussaí) in the northern basin. Based on the results, the sedimentary OM continental shelf and slope of Campos Basin was considered to be essentially autochthonous, derived from primary and secondary producers. As a consequence, a significant fraction of OM is reactive and therefore is potentially bioavailable to benthic organisms. However, significant spatial gradients in the quality and quantity of sedimentary OM were observed. In the continental shelf (25 m to 150 m depths), concentrations of lipids were intermediate and there was a predominance of labile sedimentary OM. Exceptions to this general feature were the areas influenced by coastal upwelling and/or sub-surface water intrusion (near Cabo Frio, Cabo de São Tomé and the northern boundary of the basin), where high concentrations of both total organic carbon and lipids were measured. In the upper and middle slope (400 to 1300 m) concentrations of OM were notably higher, but with greater influence of bacterial processes changing their original composition. And in the lower slope (1900 to 3000 m) concentrations of OM were very low and only the lipids more resistant to bacterial degradation were found in measurable concentrations. This suggested the export of materials from the continental shelf along the depth gradient, possibly due to the action of eddies and meanders of the Brazil Current and bottom currents operating in the region. Moreover, for its lability and bioavailability, the OM in the sediment can have a major influence on the ecology of benthic communities, particularly those located on the upper slope. The Almirante Câmara and Grussaí canyons revealed to be regions of OM accumulation and important features on the transport of OM with nutritional value for benthic communities of middle and lower slope.
Bouyahiaoui, Boualem. "Structure profonde et réactivation de la marge est-algérienne et du bassin adjacent (secteur d'Annaba), contraintes par sismique réflexion multitrace et grand-angle terre-mer". Thesis, Nice, 2014. http://www.theses.fr/2014NICE4116/document.
Texto completoIn this study, we determine the deep structure of the eastern Algerian basin and its southern margin in the Annaba region (easternmost Algeria), to better constrain the plate kinematic reconstruction in this region. This study is based on new geophysical data collected during the SPIRAL cruise in 2009 that included a wide-angle, 240-km-long, onshore-offshore seismic profile, multichannel seismic reflection lines, and gravity and magnetic data, which was complemented by the available geophysical data for the study area. The analysis and modeling of the wide-angle seismic data using travel-times and amplitudes, and integrated with the multichannel seismic lines, reveal the detailed structure of an ocean-to-continent transition. In the deep basin, there is an ~5.5-km-thick oceanic crust that is composed of two layers. The upper layer of the crust is defined by a high velocity gradient and P-wave velocities between 4.8 km/s and 6.0 km/s from the top to the bottom. The lower crust is defined by a lower velocity gradient and P-wave velocity between 6.0 km/s and 7.1 km/s. The Poisson ratio in the lower crust deduced from S-wave modeling is 0.28, which indicates that the lower crust is composed mainly of gabbros. Below the continental edge, a typical continental crust with P-wave velocities between 5.2 km/s and 7.0 km/s from the top to the bottom shows a gradual seaward thinning of ~15 km over an ~35-km distance
Sonibare, Wasiu Adedayo. "Structure and evolution of basin and petroleum systems within a transformrelated passive margin setting : data-based insights from crust-scale 3D modelling of the Western Bredasdorp Basin, offshore South Africa". Thesis, Stellenbosch : Stellenbosch University, 2015. http://hdl.handle.net/10019.1/96832.
Texto completoENGLISH ABSTRACT: This study investigates the crustal structure, and assesses the qualitative and quantitative impacts of crust-mantle dynamics on subsidence pattern, past and present-day thermal field and petroleum system evolution at the southern South African continental margin through the application of a multi-disciplinary and multi-scale geo-modelling procedure involving both conceptual and numerical approaches. The modelling procedure becomes particularly important as this margin documents a complex interaction of extension and strike-slip tectonics during its Mesozoic continental rifting processes. Located on the southern shelf of South Africa, the Western Bredasdorp Basin (WBB) constitutes the focus of this study and represents the western section of the larger Bredasdorp sub-basin, which is the westernmost of the southern offshore sub-basins. To understand the margin with respect to its present-day structure, isostatic state and thermal field, a combined approach of isostatic, 3D gravity and 3D thermal modelling was performed by integrating potential field, seismic and well data. Complimenting the resulting configuration and thermal field of the latter by measured present-day temperature, vitrinite reflectance and source potential data, basin-scale burial and thermal history and timing of source rock maturation, petroleum generation, expulsion, migration and accumulation were forwardly simulated using a 3D basin modelling technique. This hierarchical modelling workflow enables geologic assumptions and their associated uncertainties to be well constrained and better quantified, particularly in three dimensions. At present-day, the deep crust of the WBB is characterised by a tripartite density structure (i.e. prerift metasediments underlain by upper and lower crustal domains) depicting a strong thinning that is restricted to a narrow E-W striking zone. The configuration of the radiogenic crystalline crust as well as the conductivity contrasts between the deep crust and the shallow sedimentary cover significantly control the present-day thermal field of the study area. In all respects, this present-day configuration reflects typical characteristics of basin evolution in a strike-slip setting. For instance, the orientations of the deep crust and fault-controlled basin-fill are spatially inconsistent, thereby indicating different extension kinematics typical of transtensional pull-apart mechanisms. As such, syn-rift subsidence is quite rapid and short-lived, and isostatic equilibrium is not achieved, particularly at the Moho level. Accompanied syn-rift rapid subsidence and a heat flow peak led to petroleum preservation in the basin since the Early Cretaceous. Two additional post-rift thermal anomalies related to the Late Cretaceous hotspot mechanism and Miocene margin uplift in Southern Africa succeeded the syn-rift control on maturation. This thermal maturity of the five mature source rocks culminated in four main generation and three main accumulation phases which characterise the total petroleum systems of the WBB. The Campanian, Eocene and Miocene uplift scenarios episodically halted source maturation and caused tertiary migration of previously trapped petroleum. Petroleum loss related to the spill point of each trap configuration additionally occurs during the Late Cretaceous-Paleocene and Oligocene-Early Miocene. The timing and extent of migration dynamics are most sensitive to the geological scenario that combined faulting, intrusive seal bypass system and facies heterogeneity. In fact, for models that do not incorporate facies heterogeneity, predicted past and present-day seafloor leakage of petroleum is largely underestimated. This complex interplay of generation and migration mechanisms has significant implications for charging of petroleum accumulations by multiple source rocks. Due to early maturation and late stage tertiary migration, the syn-rift source rocks particularly Mid Hauterivian and Late Hauterivian source intervals significantly control the extent of petroleum accumulation and loss in the basin. Lastly, the modelled 3D crustal configuration and Mezosoic to Cenozoic thermal regime of the WBB dispute classic uniform lithospheric stretching for the southern South African continental margin. Rather, this PhD thesis confirms that differential thinning of the lithosphere related to a transtensional pull-apart mechanism is the most appropriate for accurately predicting the evolution of basin and petroleum systems of the margin. Also, the presented 3D models currently represent the most advanced insights, and thus have clear implications for assessing associated risks in basin and prospect evaluation of the margin as well as other similar continental margins around the world.
AFRIKAANSE OPSOMMING: Hierdie studie ondersoek die korsstruktuur en evalueer die kwalitatiewe en kwantitatiewe impakte van kors-mantel-dinamika op insinkingspatroon, die termiese veld en petroleumstels evolusie aan die suidelike Suid-Afrikaanse kontinentale grens, in die hede en die verlede, deur die toepassing van ’n multidissiplinêre en multiskaal-geomodelleringsprosedure wat beide konseptuele en numeriese benaderings behels. Die modelleringsprosedure veral is belangrik aangesien hierdie kontinentale grens ’n komplekse interaksie van uitbreidings- en strekkingsparallelle tektoniek gedurende die Mesosoïese vastelandskeurprosesse daarvan dokumenteer. Omdat dit op die suidelike platvorm van Suid-Afrika geleë is, maak die Westelike Bredasdorp Kom (WBK) die fokus van hierdie studie uit, en verteenwoordig dit die westelike deel van die groter Bredasdrop-subkom, wat die verste wes is van die suidelike aflandige subkomme. Om die grens met betrekking tot sy huidige struktuur, isostatiese staat en termiese veld te verstaan, is ’n kombinasie benadering bestaande uit isostatiese, 3D-gravitasie- en 3D- termiese modellering gebruik deur potensiëleveld-, seismiese en boorgatdata te integreer Ondersteunend totot die gevolglike konfigurasie en termiese veld van die laasgenoemde deur middel van hedendaagse temperatuur, soos gemeet, vitriniet-refleksiekoëffisiënt en bronpotensiaal data, komskaal-begrawing en termiese geskiedenis en tydsberekening van brongesteentematurasie, is petroleumgenerasie, -uitwerping, -migrasie en -akkumulasie in die toekoms gesimuleer deur gebruik te maak van ’n 3D-kommodelleringstegniek. Hierdie hierargiese modelleringswerkvloei maak dit moontlik om geologiese aannames en hulle geassosieerde onsekerhede goed aan bande te lê en beter te kwantifiseer, veral in drie dimensies. In die hede word die diep kors van die WBK gekarakteriseer deur ’n drieledige digtheidstruktuur (met ander woorde voorrift-metasedimente onderlê deur bo- en benedekors domeine) wat dui op ’n baie wesenlike verdunning, beperk tot ’n dun O-W-strekkingsone. Die konfigurasie van die radiogeniese kristallyne kors, sowel as die konduktiwiteitskontraste tussen die diep kors en die vlak sedimentêre dekking, beheer grotendeels die hedendaagse termiese veld van die studiearea. Hierdie hedendaagse konfigurasie weerspieël in alle opsigte tipiese eienskappe van kom-evolusie in ’n skuifskeur omgewing. Byvoorbeeld, Die oriëntasies van die diep kors en verskuiwingbeheerde komsedimentasie byvoorbeeld is ruimtelik inkonsekwent en dui daardeur op verskillende ekstensiekinematika, tipies van transtensionale tensiemeganisme. As sulks, is sin-rift-versakking taamlik vinnig en kortstondig, en word isostatiese ekwilibrium nie by die Moho-vlak, in die besonder, bereik nie. Samehangende sin-rift vinnige versakking en hittevloeihoogtepunt het gelei tot petroleum behoud in die kom sedert die vroeë Kryt. Twee bykomende post-rift termiese anomalieë wat verband hou met die laat Kryt-“hotspot” meganisme en die Mioseense kontinentale grensopheffing in Suidelike Afrika het die sin-rift-beheer met maturasie opgevolg. Hierdie termiese maturiteit van die vyf gematureerde brongesteentes het in vier hoofgenerasie- en drie hoofakkumulasie fases, wat die totaliteit van die petroleumstelsels van die WBK karakteriseer, gekulmineer. Die Campaniese, Eoseense en Mioseense opheffings senarios het episodies bronmaturasie gestop en tersiêre migrasie van petroleum wat vroeër opgevang was veroorsaak. Addisioneel vind petroleumverlies gekoppel aan die spilpunt van elke opvanggebiedkonfigurasie tydens die laat Kryt-Paleoseen en Oligoseenvroeë Mioseen plaas. Die tydstelling en omvang van migrasiedinamika is die sensitiefste vir die geologiese scenario wat verskuiwing, seëlomseilingstelsel en fasiesheterogeniteit kombineer. Trouens, vir modelle wat nie fasiesheterogeniteit inkorporeer nie, is voorspellings van vroeëre en huidige seebodemlekkasie van petroleum grotendeels onderskattings. Hierdie komplekse wisselwerking van generasie- en migrasiemeganismes het beduidende implikasies vir die laai van petroleumakkumulasies deur veelvoudige brongesteentes. Vanweë vroeë maturasie en laatstadiumtersiêre migrasie, oefen die sin-rift-brongesteentes, veral middel Hauterivium- en laat Hauteriviumbronintervalle, beduidende beheer oor die omvang van petroleumakkumulasie en -verlies in die kom uit. Laastens weerspreek die gemodelleerde 3D-korskonfigurasie en Mesosoïese-tot-Senosoïesetermiese regime van die WBK ’n klassieke uniforme litosferiese rekking vir die suidelike Suid- Afrikaanse kontinentale grens. Inteendeel, hierdie PhD-proefskrif bevestig dat ’n differensiële verdunning van die litosfeer, gekoppel aan ’n transtensiemeganisme, die beste geskik is om ’n akkurate voorspelling oor die evolusie van kom- en petroleumstelsels van die kontinentale grens mee te maak. Verder, verteenwoordig die 3D-modelle, wat hier aangebied word, tans die mees gevorderde insigte, en het hierdie modelle dus duidelike implikasies vir die assessering van verwante risiko’s in kom- en petroleum teikene valuering van die kontinentale grens, so wel as van ander soortgelyke kontinentale grense regoor die wêreld.
Tassone, David Ronald. "Compressional deformation and exhumation in sedimentary basins at ‘passive’ continental margins, with implications for hydrocarbon exploration and development". Thesis, 2014. http://hdl.handle.net/2440/90331.
Texto completoThesis (Ph.D.) -- University of Adelaide, Australian School of Petroleum, 2014
PAPINI, MAURO. "L'evoluzione permo-giurassica del Bacino di Diego-Suarez (Madagascar settentrionale) e dei margini occidentali del Madagascar e dell'Africa orientale". Doctoral thesis, 1995. http://hdl.handle.net/2158/541266.
Texto completoSanchez, Carla Maria 1978. "Controls on sedimentary processes and 3D stratigraphic architecture of a mid-Miocene to recent, mixed carbonate-siliciclastic continental margin : northwest shelf of Australia". Thesis, 2011. http://hdl.handle.net/2152/ETD-UT-2011-05-2678.
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"Exploring the history of India-Eurasia collision and subsequent deformation in the Indus Basin, NW Indian Himalaya". Doctoral diss., 2011. http://hdl.handle.net/2286/R.I.14457.
Texto completoDissertation/Thesis
Ph.D. Geological Sciences 2011
Burgin, Hugo Bonython. "A Multiscale Approach towards the Characterisation of Upper Crustal Deformation at Passive Continental Margins: A Case Study on the Otway Basin, Australia". Thesis, 2019. http://hdl.handle.net/2440/120858.
Texto completoThesis (Ph.D.) -- University of Adelaide, Australian School of Petroleum, 2019