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1
Gatt, Peter A. "Carbonate facies, depositional sequences and tectonostratigraphy of the Palaeogene Malta Platform." Thesis, Durham University, 2012. http://etheses.dur.ac.uk/4425/.
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The break-up of Pangaea and the Late Mesozoic global sea-level rise drowned many Tethyan carbonate platforms although the resilient Malta Platform aggraded >4 km of carbonates along the North African passive margin where it was isolated from continental siliciclastics. Carbonate sedimentation was terminated by extensive Late Cretaceous to Early Paleogene depositional hiatuses, but renewed during the Oligocene, when basinward carbonate progradation began to drape over the >350 km long, cusp-shaped escarpment along the eastern margin of the isolated platform. This study sub-divides the Oligocene sediments of Malta into eight facies associations. The facies consist of carbonate grains of coral, coralline red algae and large benthic foraminifera which dominated sediments of the Late Rupelian to early Chattian, mid-Chattian and late Chattian, respectively. These successive carbonate factories produced the photozoan-heterozoan-photozoan triplet of carbonate grain associations which, when dated by benthic foraminiferal biozonation, correlates to the succession of carbonate grain associations in other Mediterranean carbonate platforms. The sedimentary triplet reflects abrupt changes in carbonate ecosystems that coincide with the last three of six surfaces that extend >80 km around Malta. The surfaces show evidence of the influence of meteoric water and pedogenic processes recognised by diagenetic features and isotopic excursions. These sequence boundaries sub-divide the succession into seven depositional sequences that reflect global third-order cyclic sea-level falls produced by glaciations with a periodicity of 1.2 Ma triggered by low-amplitude obliquity variations of the Earth’s axis combined with orbital eccentricity cycles. The periodic growth of the Antarctic ice-sheet during the Oligocene also affected Tethyan climate by shifting low latitude climate belts northwards. It is suggested that increased aridity over North Africa had reduced nutrient flux to the Tethys and favoured photozoan carbonate biota over the Malta Platform and other Tethyan carbonate platforms. The stepwise decrease in oxygen isotope ratio by the mid-Chattian reflects Antarctic deglaciation that increased both precipitation over North Africa and nutrient flux in the Tethys, favouring heterozoan ecosystems. The mid-Chattian transgressive heterozoan carbonates draped over structured bathymetry of an antecedent extensional regime that produced rotated fault-blocks. Highstand shedding of coralline red algae resulted in large clinoforms prograding into partly filled NNE trending half-graben (<10 km-wide) in the Maltese Islands whereas block rotation involving deep, en echelon listric faults formed escarpments along the platform margin. The escarpments were initially onlapped by syntectonic early Palaeogene sediments and later downlapped by prograding complexes. The central platform zone developed as a >50 km-wide basin by lithospheric sagging over a failed Mesozoic rift. The late Chattian climatic optimum was reflected by a further decrease in the oxygen isotope ratio and aridity over North Africa and favoured a return to the photozoan association during the last phase of the Oligocene sedimentary triplet. Lepidocyclinids flourished in inner to mid-platform environments forming banks although the rate of accumulation of these hydrodynamic foraminifera did not keep up with sea-level rise. The shift to increased trophic resources by the end Oligocene terminated shallow marine carbonate sedimentation which resulted in the drowning of the Malta Platform.
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Field, John J. "Depositional facies and Hohokam settlement patterns on Holocene alluvial fans, north Tucson basin, Arizona." Thesis, The University of Arizona, 1985. http://etd.library.arizona.edu/etd/GetFileServlet?file=file:///data1/pdf/etd/azu_etd_hy0095_sip1_w.pdf&type=application/pdf.
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Harwood, Mark. "Facies architecture and depositional geometry of a late Visean carbonate platform margin, Derbyshire, UK." Thesis, Cardiff University, 2005. http://orca.cf.ac.uk/54552/.
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Detailed facies mapping and microfacies study were employed to improve upon sedimentological models for the margins of a carbonate platform of late Visean (Asbian - Brigantian) age in north Derbyshire, UK. The early Asbian upper slope was built of automicrite stiffened with early marine cements. The system also included marginal bioclastic sand shoals, situated c.500m from the platform break, which was in slightly deeper water, basinward from the shoals. Despite this bevelled configuration the upper slope received only low volumes of shallow water allochems until late in the early Asbian third order cycle. This early phase was characterised by nearly vertical aggradation of the margin. The later increase in basinward export resulted in a pulse of progradation and more mixed lithologies on the slope. In the late Asbian to Brigantian, the northern margin experienced an episode of local tectonic subsidence, resulting in back-stepping of c. 1km. However, high productivity by the benthic community enabled the margin to recover and build back to the previous platform break within three, fourth order, cycles. During this phase little automicrite was produced, or preserved, on the upper slope, production of automicrite moved to bioherms on the outer platform. Export of coarse bioclastic material to the mid and lower slope resulted in accumulation below a largely by-passed upper slope area. The southern margin also subsided in the Brigantian, but low productivity by a slightly stressed community meant the margin did not recover fully and remained as a low-angle slope, often dominated by the deposition of mud and silt exported from the platform interior. This, and the occurrence of ooids only on the southern margin, suggests the south to be a leeward margin. The facies architecture and the geometry of the margins were controlled by the interaction between eustatic sealevel changes and local tectonics.
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Martin, Keithan. "Integrating depositional facies and sequence stratigraphy in characterizing carbonate reservoirs: Mississippian limestone, western Kansas." Thesis, Kansas State University, 2015. http://hdl.handle.net/2097/20478.
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Master of ScienceGeology
Matthew W. Totten
The Mississippian-aged St. Louis Limestone of Western Kansas is a carbonate resource play that has been producing oil, gas, and natural gas liquids (NGL) for over 50 years. The Mississippian Limestone is made up of heterogeneous limestones with interbedded layers of porous and non-porous units, abrupt facies changes, and diagenetic alterations. These factors combine to characterize the St. Louis Limestone's internal complexity, which complicates hydrocarbon exploration. This study focuses on improving the understanding of the geometry, distribution, and continuity of depositional facies within Kearny County, Kansas. Petrophysical analysis of a suite of geophysical logs integrated with core provided the basis for establishing facies successions, determining vertical stacking patterns within a sequence stratigraphic framework, and correlating areas of high porosity with a respective facies. The following depositional facies were identified; 1) porous ooid grainstone, 2) highly-cemented ooid grainstone, 3) quartz-carbonate grainstone, 4) peloidal grainstone, 5) micritic mudstone, and the 6) skeletal wackestone/packstone. The porous ooid grainstone is the chief reservoir facies, with log-derived porosity measurements between four and eighteen percent. In areas without available core, depositional facies were predicted and modeled using a neural network analysis tool (Kipling2.xla). Values derived from the evaluated core intervals and their respective geophysical logs served as the framework for the neural network model. This study illustrates the advantages of correlating depositional facies with reservoir quality and correlating those specific facies to geophysical logs, ultimately to create a greater understanding of the reservoir quality and potential within the St. Louis Limestone of western Kansas.
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Henderson, Penny J. "Provenance and depositional facies of surficial sediments in Hudson Bay, a glaciated epeiric sea." Thesis, University of Ottawa (Canada), 1990. http://hdl.handle.net/10393/5998.
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A model for Wisconsinan glaciation and deglaciation of Hudson Bay is proposed based on depositional facies of the surficial sediments. These facies, defined on the basis of texture, composition, and acoustic character, indicate that sediment distribution is controlled primarily by Late Wisconsin glaciation. Post-glacial sedimentation is restricted to the shallow marine environment (100m deep) and involves reworking of glacially-derived sediments by rivers and/or marine currents. Deposition due to sea-ice rafting is minor. Within the glacigenic sediments, dispersal trends of distinctive lithologies and mineralogies (derived from sources adjacent to and underlying the bay) indicate that (1) western Hudson Bay was glaciated by ice flow eastward from a centre in the District of Keewatin, and (2) the eastern and southern bay was glaciated by ice flow westward from a dispersal centre in Nouveau Quebec. Seafloor geomorphic features and sediment composition suggest that deglaciation was focused at the confluence between these two ice sheets, possibly through ice streaming and calving bay formation. Eastward and southward dispersal of sediment derived from sources within the bay suggest a residual ice mass remained centered over Hudson Bay following glacial maximum. The deglaciation model invokes stabilization of the ice margin in the north, extension of a calving bay in Hudson Strait into west-central Hudson Bay, northward drainage of proglacial lakes along major bathymetric depressions, and, finally, rapid collapse of the ice sheet.
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Wang, Dong 1963. "Continental-slope sedimentation adjacent to an ice-margin, Labrador sea : depositional facies and glacial cycles." Thesis, McGill University, 1992. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=56949.
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Analyses of 13 sediment cores and 2800 km of 3.5 kHz seismic profiles reveal that the majority of the sediments on the Labrador continental slope was deposited by hemipelagic settling and ice-rafting (53%), debris flows (7%) and turbidity currents (34%) during the Wisconsinan Glaciation. Only minor amounts (6%) are attributed to contour current activity and related processes. Eight sedimentary facies were differentiated which include (1) hemipelagic (H); (2) hemipelagic (HI) with ice-rafted detritus (IRD); (3) debris-flow deposits (subfacies D1, D2, D3), spill-over turbidite (T), headspill turbidite (TH), turbidite (TI) alternating with IRD; and (4) contourite (C) and nepheloid-flow deposits (N).Six major glacial advances were identified in Mid- to Late-Wisconsinan (64-10 ka) slope sediments by 6 very dark hemipelagic units containing abundant sinistral-coiling, cold-water foraminifera. The associated ice-retreat phases are characterized by the occurrence of turbidites, debris-flow deposits, nepheloid-flow deposits, and ice-rafted debris (IRD).
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Rowe, Kinnilie. "Depositional history, facies, and monohydrocalcite of a small, permanent lake near Robe, southeastern South Australia /." Title page, contents and abstract only, 1992. http://web4.library.adelaide.edu.au/theses/09S.B/09sbr878.pdf.
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Clarke, Paul Richard. "Facies architecture, depositional systems and correlation of Triassic fluvial-lacustrine-marginal marine deposits from Northwestern Europe." Thesis, University of Birmingham, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.246698.
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Nwaodua, Emmanuel Chukwukamadu. "Subsurface Facies Analysis of the Rose Run Sandstone Formation in south eastern Ohio." Bowling Green State University / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=bgsu1213202313.
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Davis, Laurence H. M. "Allostratigraphic interpretation of a modern coarse clastic barrier complex : depositional facies, processes and relative sea level relationships /." Internet access available to MUN users only, 2003. http://collections.mun.ca/u?/theses,60897.
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Shumway, Jesse Dean. "Facies Analysis and Depositional Environments of the Saints & Sinners Quarry in the Nugget Sandstone of Northeastern Utah." BYU ScholarsArchive, 2016. https://scholarsarchive.byu.edu/etd/6240.
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The Saints & Sinners Quarry preserves the only known vertebrate body fossils in the Nugget Sandstone and the most diverse fauna known from the Nugget-Navajo-Aztec erg system. The fauna includes eight genera and >18,000 bone and bone fragments assignable to >76 individuals, including theropods, sphenosuchians, sphenodontians, drepanosaurs, procolophonids, and a dimorphodontid pterosaur. Cycadeoid fronds are the only plant fossils. There are two depositional environments at the site – dune and interdune, each consisting of two or more faces. The dune facies are (1) Trough Cross-Stratified Sandstone (TCS) representing dry dunes, and (2) Massive and Bioturbated Dunes (MBD) representing bioturbated, damp dunes. The interdune facies are (1) Wavy Sandstone (WSS) representing wet and damp flats with biofilms and tridactyl tracks, (2) Green Clays and Silts (GCS) representing quiet lacustrine waters, (3) Planar Laminated Sandstone (PLS) representing lacustrine dust and sand storm deposits which grade laterally into (4) Massive Bone Bed (MBB) shoreline deposits. The vertical and lateral relationships of the dune and interdune facies suggests that an interdune flat developed (WSS facies) likely by deflation of dunes down to, or near to, the water table. As the water table rose, a shallow lake developed (GCS facies) and trapped wind-blown sediment during sand storms (PLS Facies). The taxonomically diverse vertebrate fauna suggest a mass die-off occurred, likely due to drought. The carcasses and bones were buried by three distinct depositional events, each a bone bed (MBB facies) - separated by very thin clays (GCS facies). Thereafter the water table dropped resulting in several cm-scale sandstone beds with tridactyl tracks (WSS facies). Then migrating dunes buried the interdune flat. These dunes hosted burrowing invertebrates for a moderate time resulting in the destruction of nearly all primary sedimentary structures (MBD facies). Ultimately, as the area dried further, more dunes migrated over these bioturbated surfaces and the area returned to dune field conditions (TCS facies). The Saints & Sinners site indicates that a previously unrecognized, remarkably diverse vertebrate fauna thrived in wet interdunes of western North America's Late Triassic erg system. A massive-die-off, likely due to a drought, provided a wealth of carcasses and their bones. The dynamic shoreline representing the interface of dunes and standing water provided favorable conditions for rapid burial of small carcasses and the disarticulated bones of larger individuals.
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Mansurbeg, Howri. "Diagenesis and Reservoir-Quality Evolution of Deep-Water Turbidites: Links to Basin Setting, Depositional Facies, and Sequence Stratigraphy." Doctoral thesis, Uppsala universitet, Berggrundsgeologi, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-7634.
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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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Ritts, Bradley D. (Bradley David). "Depositional facies and detrital composition of the paleoproterozoic Et-Then group, NWT, Canada : signature of intracratonic indentation tectonics." Thesis, Massachusetts Institute of Technology, 1994. http://hdl.handle.net/1721.1/58048.
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Khodabakhsh, Saeed. "Pleistocene Laurentide Ice Sheet drainage into the Labrador Sea : sedimentary facies, depositional mechanisms, stratigraphy and significance of Heinrich events." Thesis, McGill University, 1996. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=42067.
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On the basis of sedimentary structures and textures, six depositional facies have been identified in Labrador Slope, Rise and Basin cores. They include: (1) turbid-surface plume sediments (facies P; plumites) comprising 4% of the total length of the slope cores; (2) hemipelagic sediments (facies HI and H) with and without ice-rafted debris (IRD) (48% and 20% on the slope/rise and basin centre, respectively); (3) nepheloid-layer deposits (facies N; 9% on the slope); (4) contourites (facies C; 4% on the slope); (5) turbidite facies (30% on the slope and $>$40% on the levees of the Northwest Atlantic Mid-Ocean Channel, NAMOC) with three subfacies: thin-bedded silt and mud turbidites (T); turbidites with laminae of IRD (TI), and sand turbidites (MS); and (6) debris-flow facies (10% on the slope) with four subfacies: gravelly (D1), sandy silt (D2), thin bedded (D3) and sandy gravelly debris-flow deposits (D4).Facies P occurs on high-relief slope sections, deposited by buoyantly rising meltwater plumes entrained by the south-flowing Labrador Current. The high relief was caused by retrograde canyon erosion after deposition. Facies N is best developed and thickest on the slope and upper rise. It was deposited when sediment-laden meltwater from the Laurentide Ice Sheet with high concentrations of suspended sediment spread out in mid-water or along the bottom. Facies T occurs on the levees of the NAMOC and its tributaries. It originated from the remobilization of detrital carbonate-rich sediments on the slope south of the Hudson Strait. Extensive sand turbidites occur on a braided floodplain east of NAMOC. Deposition of sand turbidites by high-density turbidity currents, probably of sheet-flow type, resulted from bedload-rich meltwater discharges on the low-relief slope sector off the Hudson Strait. They may have been caused by subglacial-lake outburst flooding, which might be linked to Heinrich events. Facies C occurs on the lower slope to upper rise. Facies H is present in all parts of the basin but most abundant on the slope; together with facies T, it is the major facies in the intercanyon regions. Facies D is found mainly on low-relief slope sectors, in front and north of major glacier outlets. Debris-flow tongues in the slope canyons merge downslope forming an extensive stacked megadebris-flow deposit on the floodplain west of NAMOC. Facies D makes up $>$75% of the sediment thickness in the western floodplain cores.
Four types of Heinrich layers (HL) were identified. (Abstract shortened by UMI.)
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Khodabakhsh, Saeed. "Pleistocene Laurentide Ice Sheet drainage into the Labrador Sea, sedimentary facies, depositional mechanisms, stratigraphy and significance of Heinrich events." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp03/NQ30309.pdf.
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Haight, Jared. "Facies, depositional environments, and reservoir properties of the Shattuck sandstone, Mesa Queen Field and surrounding areas, southeastern New Mexico." Texas A&M University, 2002. http://hdl.handle.net/1969/148.
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Joseph, Dion Kenwyn. "FACIES ANALYSIS DEPOSITIONAL ENVIRONMENTS AND SEQUENCE STRATIGRAPHY OF THE STE. GENEVIEVE LIMESTONEIN JOHNSON UNION AND WILLIAMSON COUNTIES SOUTHERN ILLINOIS." OpenSIUC, 2011. https://opensiuc.lib.siu.edu/theses/671.
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AN ABSTRACT OF THE THESIS OF DION KENWYN JOSEPH, for the Masters of Science degree in GEOLOGY, presented on June 13, 2011, at Southern Illinois University Carbondale. TITLE: FACIES ANALYSIS, DEPOSITIONAL ENVIRONMENTS AND SEQUENCE STRATIGRAPHY OF THE STE. GENEVIEVE LIMESTONEIN JOHNSON, UNION AND WILLIAMSON COUNTIES, SOUTHERN ILLINOIS MAJOR PROFESSOR: Dr. Scott Ishman In the Illinois Basin, the Mississippian age (early Chesterian) Ste. Genevieve Limestone consists of shallow marine carbonates deposited in a carbonate ramp platform. Sequence stratigraphic classification of these sediments has proved challenging due to low gradients, heterogeneous facies distribution and variable thermal related basin subsidence. The purpose of this study is facies analysis and recognition of important stratigraphic surfaces and facies trends to sub-divide the Ste. Genevieve succession into transgressive-regressive cycles (sequences) of various orders in outcrop (Johnson and Union Counties) and subsurface (southwest Franklin and Williamson County) of Southern Illinois. Following careful compilation of several datasets which include outcrop observations, facies descriptions, benthic fossil assemblage, thin-section analysis, and well log correlations, it was determined that the Ste. Genevieve Limestone encompasses 2 shallow marine facies belts including tidal channel barrier shoals and subtidal open marine facies. In the study area, the Ste. Genevieve Limestone forms 2 third order sequences that are composed of several 4th to 5th order parasequences. The sequences are comprised of a transgressive and highstand systems tract (sequence 1), and a transgressive systems tract (sequence 2), which formed during the Mississippian by tectonically associated thermal subsidence and global eustasy.
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Banjade, Bharat. "Subsurface Facies Aanalysis of the Cambrian Conasauga Formation and Kerbel Formation in East - Central Ohio." Bowling Green State University / OhioLINK, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=bgsu1322525944.
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Hlal, Osama Ahmed. "Diagenesis and Reservoir-Quality Evolution of Paralic, Shallow Marine and Fluvio-lacustrine Deposits : Links to Depositional Facies and Sequence Stratigraphy." Doctoral thesis, Uppsala universitet, Berggrundsgeologi, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-8986.
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Linking diagenesis to depositional facies and sequence stratigraphy enables better prediction of spatial and temporal distribution of diagenetic alterations, and thus of evolution of reservoir quality in sandstones. This thesis demonstrates that employing this approach is possible because depositional facies and sequence stratigraphy can provide useful information on parameters controlling the near-surface diagenesis, such as changes in: (i) pore-water chemistry, (ii) residence time of sediments under certain geochemical conditions, (iii) detrital composition and proportion of extra- and intra-basinal grains, and (iv) types and amounts of organic matter. Evidence from four case studies enabled the development of conceptual models for distribution of diagenetic alterations and of their impact on evolution of reservoir quality in sandstones deposited in paralic, shallow marine and fluvio-lacustrine environments. Diagenetic alterations that have been constrained within the context of depositional facies and sequence stratigraphy include: (i) carbonate cement (microcrystalline and equant calcite spars dolomite over poikilotopic calcite), pyrite and glaucony are most abundant in progradational braid-delta fan sequences, particularly along the topsets (i.e. maxiumum flooding surface, MFS) and along parasequences boundaries in the deltaic facies of the early highstand systems tract HST, (ii) cementation by coarse spar calcite, dolomite, and the formation of moldic porosity by the dissolution of framework carbonate grains are most abundant in the aggradational fan deltas sequences, (iii) eogenetic kaolinitization of framework silicates is largely restricted to the fluvial and paralic HST sandstones, whereas telogenetic kaolinite may occur in the transgressive systems tract TST sandstones too, (iv) formation of goethite ooids in the TST sediments, (v) formation of glaucony, siderite spherules, and extensive grain-coatings, grain-replacing and ooidal berthierine, more in the TST than in the HST sediments, particularly below the transgressive surface TS and MFS, (vi) cementation by calcite with (δ18OV-PDB = -11.5‰ to -5.4‰) and Fe-dolomite/ankerite (δ18OV-PDB = -10.8‰ to -9.6‰) occurs in both TST and HST sandstones, (vii) syntaxial quartz overgrowths are most extensive in the HST sandstones owing to the presence of incomplete grain-coating berthierine/chlorite, (viii) greater amounts of micro-porosity in the TST sandstones than in the HST sandstones are related to the greater amounts of berthierine/chlorite in the former sandstones, and (ix) chlorite rims around quartz grains retarded the precipitation of quartz overgrowths, and hence prevented a greater loss of primary intergranular porosity in fluvio-lacustrine sandstones. Therefore, constraining the distribution of diagenetic alterations in the contexts of depositional facies and sequence stratigraphic context is a powerful approach to be used in hydrocarbon exploration.
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Al-Ramadan, Khalid. "Impact of Diagenetic Alterations on Reservoir Quality and Heterogeneity of Paralic and Shallow Marine Sandstones : Links to Depositional Facies and Sequence Stratigraphy." Doctoral thesis, Uppsala University, Department of Earth Sciences, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-6928.
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This thesis constrains the distribution of diagenetic alterations and their impact on reservoir-quality and heterogeneity evolution pathways in relation to depositional environments and sequence stratigraphy (systems tracts and key sequence stratigraphic surfaces) of four selected paralic and shallow marine siliciclastic successions.
Typical eogenetic alterations encountered include the dissolution and kaolinitization of framework silicates, which are closely associated to shoreface facies of forced regressive systems tract (FRWST), lowstand systems tract (LST), upper part of the highstand systems tract (HST), and below the sequence boundary (SB). These alterations are attributed to incursion of meteoric water owing to rapid and considerable fall in the relative sea level. Extensive carbonate cementation is most evident below marine and maximum flooding surfaces (MFS), whereas dissolution of carbonate cement and detrital dolomite occur in LST, HST and below SB. Parameters controlling the patterns and texture (microcrystalline vs. poikilotopic) of calcite cement have been constrained within sequence stratigraphic framework of the sandstones. Coarse crystalline to poikilotopic calcite textures of meteoric water origin are thus closely linked to the FRWST, LST and upper part of the HST sandstones and occur mainly as stratabound concretions, whereas microcrystalline calcite, which was precipitated from marine porewaters, occurs as continuously cemented layers in the transgressive systems tract (TST) and lower part of the HST sandstones.
Eogenetic alterations impose, in turn, profound control on the distribution pattern of mesogenetic alterations, and hence on reservoir quality evolution (destruction vs. preservation) pathways of sandstones. Eogenetic infiltrated clays, which occur in the tidal estuarine TST and HST sandstones, have helped preserving porosity in deeply buried sandstone reservoirs (≈ 5 km) through inhibition of extensive cementation by quartz overgrowths. Other essential findings of this thesis include deciphering the control on the formation of authigenic illite and chlorite by ultra-thin (≤ 1 µm thick), grain-coating clay mineral substrate.
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Fadipe, Oluwaseun Adejuwon. "Facies, Depositional Environments and Reservoir Properties of the Albian Age Gas Bearing Sandstone of the Ibhubesi Oil Field, Orange Basin, South Africa." Thesis, University of the Western Cape, 2009. http://etd.uwc.ac.za/index.php?module=etd&action=viewtitle&id=gen8Srv25Nme4_3304_1285541101.
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The Orange Basin was formed during the late Jurassic to early Cretaceous periods due to Gondwana breakup and rifting and later drifting apart of the African and South American plates. The basin consists of siliciclastic sandstone which took its sediment supply from river system with a rivalling delta to the north of the basin. Geological and petrophysical studies were carried out to evaluate the reservoir potential of the wells in the study area. This study considered five wells (A-G1, A-W1, A-K1, A-K2 and A-Y1) in the Orange Basin with attention to the Albian age sandstone. Only three of the studied wells (A-G1, A-W1 and A-K1) have core samples for analysis. The methods used for the execution of this study include the description and calibration of spot cores with conventional standard logging record responses, wireline log interpretation using sequence stratigraphy approach, detailed petrographic (SEM, HR-TEM, XRD and thin section) and geochemical (pore water geochemistry, FTIR and XRF) analyses, and petrophysical analysis to unravel the complexities with regard to facies association, depositional environment and diagenesis. Linking diagenesis to depositional facies and sequence stratigraphy has given a clearer picture to the spatial and temporal distribution of diagenetic alterations and thus of evolution of reservoir quality in the studied wells. Three depositional lithofacies were identified based on a detailed core description [fine grained sandstone (F1), very fine grained sandstone (F2) and mudstone (F3)]. Fluvio-deltaic and shallow marine environments were also interpreted from the core description based on the sedimentary structures and mineral assemblage while the log interpretation shows that the different reservoir units range between LST, TST and HST but mostly of LST. Mineralogical predictions were made possible in the wells without core samples (A-K2 and A-Y1) through the use of density-neutron cross plot, these reveal that the two wells contain some considerable amount of clay minerals like kaolinite, chlorite and illite.
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Ciembronowicz, Katherine T. "The relationship of initial flooding depositional facies to global sea level and climate on the Marion Plateau, NE Australia (ODP Leg 194)." [Tampa, Fla] : University of South Florida, 2007. http://purl.fcla.edu/usf/dc/et/SFE0001936.
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Hendricks, Mogammad Yaaseen. "Provenance and depositional environments of early cretaceous sediments in the Bredasdorp Sub-basin, offshore South Africa: an integrated approach." University of the Western Cape, 2020. http://hdl.handle.net/11394/7596.
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>Magister Scientiae - MScSouthern offshore basins of South Africa are well known as potential provinces of hydrocarbon exploration and production. The complex nature of the Bredasdorp sub-basin’s syn-rift architecture (transform fault system) can have adverse effects on reservoir distribution due to periodic local and regional uplift of horsts and grabens. This present investigation focusses on an integrated approach of the 1AT1-V horizon or early Cretaceous sediments in the Bredasdorp sub-basin to identify the depositional environment and provenance of these sediments as well as their role in regionally complex compositional heterogeneities associated with the late stage rifting of Gondwana break-up. An integrated seismic, sedimentological (including petrography and geochemistry) and ichnologic analysis of the 1AT1-V horizon sediments showed an overall lower regressive element complex assemblage set and an upper transgressive element complex assemblage set that occurred as a >120m thick succession. The analysis identified a mixed-energy deltaic succession followed by an estuarine succession. The 1AT1-V interval (late syn-rift) consisted of nine sedimentary facies associations (and associated petrofacies) on a dipslope setting with variations occurring along the strike and the downdip depositional slope areas. Two overall sequences were identified as a lower regressive and upper transgressive sequence (Element complex assemblage sets). The regressive sequence consisted of middle to distal delta front lobe fringes, hyperpycnal event beds (sourced from basement highs), offshore migrating tidal bars (and associated inter-bar regions), distal mouth bars, terminal distributary channels (and associated inter-terminal distributary regions). The distal delta plain to proximal delta front consisted of interdistributary bays, distributary channels, crevasse splay sub-deltas, mouth bars, tidal flats and offshore embayments. In the laterally isolated depocenter, these deposits also consisted of basement high slopes with upliftment of the basement highs leading to proximal/central embayment to regressive shoreface/foreshore environments. These sequences consisted generally of low diversity and intensities (impoverished abundances) of trace fossils. The paleoclimate inference from this sequence indicates a humid climate with intermediate degrees of weathering intensities (possibly fluctuating arid-humid conditions). The transgressive sequence consisted of estuarine sedimentation with the occurrence of tidal sand ridges and compound dune fields, embayment facies and tidal bars. These sequences consisted of relatively higher ichnodiversities and intensities than their relative regressive sequences. The paleoclimate inference during these times consisted of more arid to semi-arid settings with low degrees of weathering in the source terrain. Local tectonic upliftment and subsidence, with exposed basement highs, gave rise to differential process regimes (tidal, wave and fluvial) and hence depositional facies in the diachronous updip/downdip areas (spatial) and within-stratigraphic (temporal) variations. There are several modern analogues that are similar to the 1AT1-V horizon sequence and they are the Mahakam, Ganges-Brahmaputra, Po, Burdekin deltaic and Satpara lake environments Compaction and dissolution diagenetic features as well as transportation were responsible for the major compositional heterogeneities concerning the reservoir quality and distribution. Proximal and distal sources were identified with first cycle and polycyclic sediments being deposited in the northern and southern part of the basin during the late stages of rifting in the Bredasdorp sub-basin. The provenance lithology has been identified as recycled sedimentary rocks (and their meta-equivalents) with an ultimate source terrain that was largely felsic in nature (Cape granite suite). The northern part of the studied section is suggested to have received sediments from the main metasedimentary rocks of the Cape fold belt (including the Table Mountain Group and Bokkeveld Group) whereas the southern sections received more sediments from the basement highs (recycled Malmesbury Group (and Pre-Cape sediments) and Cape granite suite), which is further supported by seismic data. Provenance analysis revealed that the Cape Fold belt (most recent collision) was possibly a provenance terrain but overprinting of several collisions are also acknowledged. The tectonic setting was envisaged to be of a rifted margin during the break-up of Gondwana. This compositional heterogeneity due to facies and provenance-related terrains had major consequences to the reservoir quality and distribution from the northern part to the southern part of the studied section
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Ranson, Andrew M. "Transitional Facies and Sequence Stratigraphic Complexity of Shallow-Marine Star Point Formation to Coastal-Plain Blackhawk Formation Along Depositional-Strike, Wasatch Plateau, Utah." ScholarWorks@UNO, 2012. http://scholarworks.uno.edu/td/1476.
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Facies and stratigraphic architecture right at the transition from marine to non-marine environments is poorly documented. In the Cretaceous outcrops of Utah, Star Point and Blackhawk Formations are well studied. The nature of spatio-temporal transition of these two Formations, in the deposition-strike orientation, remains undocumented. This study characterizes facies and stratigraphic complexity at the transition of the two Formations that crop out in depositional-strike orientation in the Wasatch Plateau. Data from outcrop including photomosiacs and measured sections demonstrate this complexity at a range of scales. The Star Point constitutes a shoreface environment. The Blackhawk constitutes a coastal-fluvial environment.
In the northern part of study area, the transition from marine to continental strata is expressed by intertonguing succession. The dip-oriented outcrops show pinch-outs of two parasequences into coastal-plain deposits. This complexity decreases southward, the southern outcrops show a simple transition. At least two sequence boundaries are correlated across the outcrop belt.
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Tlomatsana, Letshela Latoya. "The palaeo environment and depositional facies of the drift section of Block 3A/4A in the Orange Basin, West Coast Offshore South Africa." University of the Western Cape, 2017. http://hdl.handle.net/11394/6080.
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Magister Scientiae - MSc (Earth Science)The Orange Basin is underexplored and has shown proven hydrocarbon reserves with the potential for further discoveries. This study is aimed at describing the depositional facies and palaeoenvironment of the drift section in Block 3A/4Aby doingdesktop studies, using seismic analysis, wireline logs and biostratigraphy data. The proximal side of the study area shows structural highs and stratigraphic features such as onlaps, downlaps and pinchoutsin sequences. These structures were mostly observed on the 13A sequence. The 13A sequence is suggested to have been from the Aptian age, which was deposited in transitional inner shelf to pro-deltaic environments. The biostratigraphy data also suggest that the 15A sequence was deposited during the Cenomanian on an outer shelf environment. The 15A sequence, together with the 14 and 16A sequences have faults towards the west, validating the shelf collapse event that took place during the Late Cretaceous. Towards the east of the block there is thinning of sequences which thicken towards the shelf. This could also be observed in the youngest succession, the 22A sequence.The thicker successions reveal similarlog patterns in some wells and sequences; this could be an indication of simultaneousdeposition. The overall picture of the drift sequences in the wells is that they contain sandstones with interlaminated silt which could serve as possible reservoirs and seals in hydrocarbon entrapments.
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Reece, Chance. "Investigating the variations in depositional facies by investigating the accuracy of the neural network model within the St. Louis limestone, Kearny County, Kansas." Thesis, Kansas State University, 2016. http://hdl.handle.net/2097/32588.
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Master of ScienceDepartment of Geology
Matt Totten
The Mississippian-aged St. Louis Limestone has been a major producer of oil, and natural gas for years in Kearny County, Kansas. Since 1966 two major fields in the County, the Lakin, and Lakin South fields, have produced over 4,405,800 bbls of oil. The St. Louis can be subdivided into six different depositional facies, all with varying lithologies and porosities. Only one of these facies is productive, and the challenge of exploration in this area is the prediction of the productive facies distribution. A previous study by Martin (2015) used a neural network model using well log data, calibrated with established facies distributed within a cored well, to predict the presence of these facies in adjacent wells without core. It was assumed that the model’s prediction accuracy would be strongest near the cored wells, with increasing inaccuracy as you move further from the cored wells used for the neural network model. The aim of this study was to investigate the accuracy of the neural network model predictions. Additionally, is the greater accuracy closest to the cored wells used to calibrate the model, with a corresponding decrease in predictive accuracy as you move further away? Most importantly, how well did the model predict the primary producing unit (porous ooid grainstone) within the St. Louis Limestone? The results showed that the neural network was not completely reliable in predicting total facies distribution. This can be attributed to many different inefficiencies in the data, including different resolutions between cuttings data and well logs, limited well cuttings available, and missing cuttings from the wells that were observed. Relating the neural network predictions to actual well productivity validates the neural network’s ability to predict the producing facies. There are also instances of the productive facies being present when not predicted. This is likely a function of different facies thickness in these wells from the cored wells used to calibrate the model, rather than distance from the cored well.
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Andrade, Lygia Rodrigues de Moraes de [UNESP]. "Processos, fácies e geometria do sistema turbidítico da formação Taciba/Membro Rio Segredo, faixa aflorante norte catarinense." Universidade Estadual Paulista (UNESP), 2009. http://hdl.handle.net/11449/92828.
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andrade_lrm_me_rcla.pdf: 1854084 bytes, checksum: 37c55097ff800285da56aac3723135e2 (MD5)Os membros Lontras (Formação Campo Mourão) e Rio Segredo (Formação Taciba) constituem uma sucessão marinha de folhelhos e arenitos turbidíticos, que está encaixada entre diamictitos glaciais daquelas formações. O folhelho Lontras tem uma centena de metros na faixa aflorante norte catarinense, contendo em sua porção superior a fácies “folhelho várvico”, na verdade um estrato com gradação de siltito a folhelho (Tde) em escala milimétrica e que é considerado como sendo o turbidito distal da sucessão. O turbidito Rio Segredo tem de 15 a 25 m e consiste de estratos gradacionais portando sequência Bouma em diversas escalas: muito delgado (1 a 3 cm; Tde e Tcde), delgado (3 a 10 cm; Tcde e Tbcde), médio (10 a 30 cm; Tbcde e Tabcde), espesso (30 a 100 cm; Tabc) e muito espesso (acima de 1,0 m; Tabc). Há ainda uma divisão “superior” do Membro Rio Segredo normalmente com 10 a 20 m de espessura, que contém turbiditos areno-argilosos muito delgados (Tcde e Tde). Foram levantados sete perfis faciológicos de detalhe, escala 1:50, de modo a registrar turbiditos com até 5 cm de espessura (1 mm no perfil). Posteriormente, quatro desses perfis foram cronocorrelacionados em uma seção norte-sul: Forcação, Wiegand, Laeisz e Dona Emma, numa extensão de 28 km. A esta seção foi acrescido o perfil Taiózinho, localizado 30 km a oeste do Forcação, entre os dois últimos (semelhança faciológica com o Laeisz). Identificaram-se sete sistemas deposicionais, com uma média de 3 m de espessura por sistema e contidos em três sequências de alta frequência. Os sistemas deposicionais são formados por ciclos turbidíticos de origem marinha, encontrados principalmente nos perfis Laeisz e Taiózinho, com uma organização ascendente de adelgaçamento e granodecrescência. Outros ciclos turbidíticos...
The Lontras shale and overlying Rio Segredo sandstone are members of Campo Mourão and Taciba formations, corresponding to shelf marine and turbidite deposits; they are encased in glacial diamictites of those formations. The Lontras shale is 100 m thick in northern Santa Catarina outcrop belt and it displays a “varved shale” facies in its upper portion. In reality, it represents many mm-scale beds with Bouma sequence Tde, and therefore distal, argillaceous turbidites. The Rio Segredo Member is 15 to 25 m thick and contain beds of different thicknesses: very thin (1 to 3 cm; Tde and Tcde), thin (3 to 10 cm; Tcde and Tbcde), and medium beds (10 to 30 cm; Tbcde and Tabcde). Also, thick (30 to 100 cm) and very thick beds (thicker than 1 m) displays massive or graded sandstones with disperse laminations and cross-laminations resembling Ta, Tb and Tc intervals of Bouma sequence. There is also a Rio Segredo “upper” division with 10 to 20 m thick, consisting of very thin turbidites (Tcde and Tde). Seven detailed facies logs were constructed at 1:50 scale, to represent even 5 cm thin beds (1 mm). Later, four of the logs were put in a north-south stratigraphic section (28 km in length): Forcação, Wiegand, Laeisz and Dona Emma, in a 28 km extension. A fifth log, Taiózinho (distant 30 km west of Forcação), was added to the section between the last two logs, because of its facies similarity with Laeisz log. Seven depositional systems are identified, averaging 3 m thick in, thickness, and they belong to high frequency sequences. The systems are composed of turbidite cycles of marine origin, found mainly in Laeisz and Taiózinho logs: they form thinning- and fining-upward cycles. Turbidite cycles of deltaic origin are observed in Forcação and Dona Emma logs as thickening-up and coarsening-up cycles. In the latter, are included... (Complete abstract click electronic access below)
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Mason, Elizabeth Lane. "Internal facies architecture of a sand-rich, deep-sea depositional system: the rocks sandstone, Reliz Canyon formation, Northern Santa Lucia Range, Monterey County, California /." May be available electronically:, 1998. http://proquest.umi.com/login?COPT=REJTPTU1MTUmSU5UPTAmVkVSPTI=&clientId=12498.
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Ball, Nathaniel H. Atchley Stacy C. "Depositional and diagenetic controls on reservoir quality and their petrophysical predictors within the Upper Cretaceous (Cenomanian) Doe Creek Member of the Kaskapau Formation at Valhalla Field, Northwest Alberta." Waco, Tex. : Baylor University, 2009. http://hdl.handle.net/2104/5296.
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Wulff, Keiran. "Upper Jurassic of the Barrow sub-basin: sedimentology, sequence stratigraphy and implications for reservoir development." Curtin University of Technology, National Drug Research Institute, 1991. http://espace.library.curtin.edu.au:80/R/?func=dbin-jump-full&object_id=17024.
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A chronostratigraphic subdivision of the Upper Jurassic synrift sediments in the eastern Barrow Sub-basin was developed from the integration of core logging, petrography, well log sequence analyses and seismic stratigraphy. From this basis, the Callovian to base Cretaceous sediments may be subdivided into five depositional sequences. The development of the sequence boundaries, in most part, is closely related to periods of major changes in basin configuration associated with the sequential breakup of eastern Gondwanaland. Initiation of the Upper Jurassic rift complex occurred during late Callovian early Oxfordian associated with the development of a northeast-southwest trending spreading centre on the Argo Abyssal Plain. The spreading centre propagated southwards during the Late Jurassic. This resulted in active rifting in the Barrow Sub-basin and ultimately led to the separation of the Indian and Australian plates during Valanginian time.Upper Jurassic synrift sediments in the eastern Barrow Sub-basin consist of detached basin floor fan complexes, channelised and canyon fed fan systems, slump deposits, prograding outer shelfal to slope deposits and deep marine claystones. Post-depositional uplift of the eastern shelfal areas during the Late Jurassic resulted in erosion of the transgressive and highstand fluvial-deltaic to shelfal deposits. These periods of uplift and erosion provided much of the sediment redeposited in the basinal areas during the lowstand periods. Seven sandstone facies were recognised in the Upper Jurassic sedimentary section based on core control. Each sandstone has unique reservoir characteristics which can be related to the depositional setting.The abundance of glauconite and belemnites combined with ichnology and biostratigraphic assemblages associated with marine environments, indicate that deposition of all the sandstone facies occurred within an outer shelfal - deep marine environment. Reservoir quality was best developed in the dominantly medium grained, moderate - well sorted sandstones, (facies 7), which were deposited as detached, basin floor submarine fan sands or interbedded turbidites. In contrast, reservoir quality was relatively poorly developed in the remaining facies which were deposited as slope fans, slumps, or distal turbidite deposits.The abundance of quartz and presence of banded iron, jasper, and potassic feldspar grains support the provenance for the basinal sandstone facies being the Precambrian alkyl granites and banded iron formation of.the Pilbara Shield and Hammersley Ranges. These Precambrian igneous rocks and metasediments mark the eastern boundary of the Barrow Sub-basin study area. To predict the distribution of sedimentary facies in the Upper Jurassic synrift sediments of the eastern Barrow Sub-basin, the interplay between the major controlling depositional processes, namely tectonics, sediment supply and eustasy must be understood. Subdivision of the synrift sedimentary section on the basis of lithostratigraphy can be misleading and does not adequately resolve the facies relationships observed in the well intersection. The results of this research form the basis for a regional sequence analysis and seismic stratigraphic study.
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Udgata, Devi Bhagabati Prasad. "DEPOSITIONAL AND STRATIGRAPHIC SIGNIFICANCE OF MARINE, GREEN-CLAY, MINERAL FACIES IN THE LOWER-MIDDLE MISSISSIPPIAN BORDEN AND FORT PAYNE FORMATIONS, WESTERN APPALACHIAN AND EASTERN ILLINOIS BASINS, KENTUCKY." UKnowledge, 2011. http://uknowledge.uky.edu/gradschool_diss/808.
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Detailed study of strata associated with the glauconite-rich Floyds Knob Bed in the western Appalachian and eastern Illinois basins have corroborated previous interpretations that the unit is a widespread, largely synchronous marker horizon. However, in some areas there are multiple glauconite beds; in others a distinct bed is lacking, but the glauconite is dispersed throughout many beds, forming an interval rather than a distinct bed. In Kentucky and adjacent states, the Floyds Knob interval, in upper parts of the Lower-Middle Mississippian Borden-Grainger delta sequence and in lower parts of the Fort Payne carbonate sequence, was deposited at the end of loading-type relaxation during a flexural cycle in the Neoacadian (final) tectophase of the Acadian Orogeny. Tectonic influence, combined with a major late Osagean sea-level lowstand, created conditions that generated sediment starvation and shallower seas across widespread parts of the western Appalachian and eastern Illinois basins. In the absence of major sediment influx, glauconite was deposited uniformly across many major depositional settings, ranging from delta-platform to basinal environments. Especially important, however, is the newly reported occurrence of the Floyds Knob interval in basinal Fort Payne environments from south-central Kentucky, where it is represented by a thick, pelletal, glauconite-rich horizon that separates clastics at the base of the Fort. Payne Formation from carbonates at top. The study also provides the first-ever radiometric dating of the Floyds Knob glauconites, which suggests a late Osagean origin. These results support the existing biostratigraphic studies that point to a late Osagean origin for the Floyds Knob interval.
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Andrade, Lygia Rodrigues de Moraes de. "Processos, fácies e geometria do sistema turbidítico da formação Taciba/Membro Rio Segredo, faixa aflorante norte catarinense /." Rio Claro : [s.n.], 2009. http://hdl.handle.net/11449/92828.
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Orientador: Joel Carneiro de CastroBanca: Maria Rita Caetano Chang
Banca: Luiz Carlos Weinschütz
Resumo: Os membros Lontras (Formação Campo Mourão) e Rio Segredo (Formação Taciba) constituem uma sucessão marinha de folhelhos e arenitos turbidíticos, que está encaixada entre diamictitos glaciais daquelas formações. O folhelho Lontras tem uma centena de metros na faixa aflorante norte catarinense, contendo em sua porção superior a fácies "folhelho várvico", na verdade um estrato com gradação de siltito a folhelho (Tde) em escala milimétrica e que é considerado como sendo o turbidito distal da sucessão. O turbidito Rio Segredo tem de 15 a 25 m e consiste de estratos gradacionais portando sequência Bouma em diversas escalas: muito delgado (1 a 3 cm; Tde e Tcde), delgado (3 a 10 cm; Tcde e Tbcde), médio (10 a 30 cm; Tbcde e Tabcde), espesso (30 a 100 cm; Tabc) e muito espesso (acima de 1,0 m; Tabc). Há ainda uma divisão "superior" do Membro Rio Segredo normalmente com 10 a 20 m de espessura, que contém turbiditos areno-argilosos muito delgados (Tcde e Tde). Foram levantados sete perfis faciológicos de detalhe, escala 1:50, de modo a registrar turbiditos com até 5 cm de espessura (1 mm no perfil). Posteriormente, quatro desses perfis foram cronocorrelacionados em uma seção norte-sul: Forcação, Wiegand, Laeisz e Dona Emma, numa extensão de 28 km. A esta seção foi acrescido o perfil Taiózinho, localizado 30 km a oeste do Forcação, entre os dois últimos (semelhança faciológica com o Laeisz). Identificaram-se sete sistemas deposicionais, com uma média de 3 m de espessura por sistema e contidos em três sequências de alta frequência. Os sistemas deposicionais são formados por ciclos turbidíticos de origem marinha, encontrados principalmente nos perfis Laeisz e Taiózinho, com uma organização ascendente de adelgaçamento e granodecrescência. Outros ciclos turbidíticos... (Resumo completo, clicar acesso eletrônico abaixo)
Abstract: The Lontras shale and overlying Rio Segredo sandstone are members of Campo Mourão and Taciba formations, corresponding to shelf marine and turbidite deposits; they are encased in glacial diamictites of those formations. The Lontras shale is 100 m thick in northern Santa Catarina outcrop belt and it displays a "varved shale" facies in its upper portion. In reality, it represents many mm-scale beds with Bouma sequence Tde, and therefore distal, argillaceous turbidites. The Rio Segredo Member is 15 to 25 m thick and contain beds of different thicknesses: very thin (1 to 3 cm; Tde and Tcde), thin (3 to 10 cm; Tcde and Tbcde), and medium beds (10 to 30 cm; Tbcde and Tabcde). Also, thick (30 to 100 cm) and very thick beds (thicker than 1 m) displays massive or graded sandstones with disperse laminations and cross-laminations resembling Ta, Tb and Tc intervals of Bouma sequence. There is also a Rio Segredo "upper" division with 10 to 20 m thick, consisting of very thin turbidites (Tcde and Tde). Seven detailed facies logs were constructed at 1:50 scale, to represent even 5 cm thin beds (1 mm). Later, four of the logs were put in a north-south stratigraphic section (28 km in length): Forcação, Wiegand, Laeisz and Dona Emma, in a 28 km extension. A fifth log, Taiózinho (distant 30 km west of Forcação), was added to the section between the last two logs, because of its facies similarity with Laeisz log. Seven depositional systems are identified, averaging 3 m thick in, thickness, and they belong to high frequency sequences. The systems are composed of turbidite cycles of marine origin, found mainly in Laeisz and Taiózinho logs: they form thinning- and fining-upward cycles. Turbidite cycles of deltaic origin are observed in Forcação and Dona Emma logs as thickening-up and coarsening-up cycles. In the latter, are included... (Complete abstract click electronic access below)
Mestre
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Abbott, Sunshine. "Depositional architecture and facies variability in anhydrite and polyhalite sequences : a multi-scale study of the Jurassic (Weald Basin, Brightling Mine) and Permian (Zechstein Basin, Boulby Mine) of the UK." Thesis, Imperial College London, 2016. http://hdl.handle.net/10044/1/45720.
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Quantifying the geometries of evaporite deposits at a <1 km scale is critical in our understanding of similar ancient depositional systems, but is challenging given evaporite mineral dissolution at surface conditions. Two high-resolution stratigraphic studies in mines provide insight into the geometries, dimensions, and spatial distributions of sedimentary bodies in 3-D at a <1-km scale in evaporites. A field mapping study was conducted in Brightling (Purbeck Group) and Boulby (Zechstein Group) mines, in southeast and northeast England, respectively. This is integrated with XRD, petrography, and δ13C and δ18O isotope analyses. The evolution and conditions of sedimentation during the Tithonian in the Weald Basin is also evaluated. A newly defined megasequence boundary at the base of the Purbeck Group is suggested to mark the onset of rifting of the Bay of Biscay and to the north of the Charlie-Gibbs Fracture Zone, which implies an earlier rifting phase than previously proposed. Basal Purbeck lateral facies changes are influenced by the position in the Weald Basin, normal fault systems, and relative sea level changes. In Brightling Mine, the basal Purbeck exhibits carbonate-evaporite shoaling upward cycles, likely controlled by localized high-frequency relative sea level changes and/or sabkha hydrology. The dynamic process of evaporite deposition led to subtle stratigraphic heterogeneities and changes in bed thicknesses, but largely continuous lateral bedding. Boulby Mine offers a unique opportunity to study early deformation structures in ancient polyhalite that formed in playa conditions. The controlling mechanism that formed these syndepositional polyhalite tepees is attributed to soft sediment deformation via polyhalite dewatering coupled with penecontemporaneous precipitation of halite during fluid escape. This study offers new insight into the types of heterogeneity observed in ancient evaporites formed in marginal playa and sabkha environments at a < 1 km-scale, which can include a variety of compositions and morphologies at a range of scales.
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Bállico, Manoela Bettarel. "Análise de fácies e sequências deposicionais em sistemas continentais e estuarinos do topo da Formação Tombador, Mesoproterozoico, Chapada Diamantina, Brasil." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2012. http://hdl.handle.net/10183/75668.
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A Formação Tombador, Mesoproterozoico, compreende diferentes sistemas deposicionais, depositados em um bacia sag, que abrangem desde sistemas aluviais a estuarinos. Os depósitos bem preservados e sua ampla ocorrência em escala regional (~300 km) faz com que a Formação Tombador seja um excelente caso de estudo no Proterozoico. Foram reconhecidas três sequências deposicionais, limitadas por superfícies erosivas em escala regional no topo da Formação Tombador. A Sequência I é composta na base por canais fluviais cascalhosos entrelaçados rasos, que são sotopostos por depósitos de dunas e lençóis de areia eólicos e inundações em lençol intermediário. O limite inferior desta sequência é caracterizado por uma discordância angular intra-Tombador sobre os sistemas fluvio-estuarinos, evidenciada por uma mudança abrupta de fácies e mudança nas paleocorrentes. Os sistemas fluvio-estuarinos abaixo da discordância apresentam paleocorrentes para noroeste enquanto que os sistemas fluviais acima do limite de sequências indicam um transporte para sul. Uma nova entrada abrupta de depósitos conglomeráticos relacionados a sistemas de leques aluviais sobre a sucessão fluvio-eólica, marca o limite da Sequência II. A Sequência III é caracterizada por sistemas fluvio-estuarinos na porção superior da Formação Tombador, que são progressivamente sucedidos por sistemas marinhos rasos (Formação Caboclo), definindo uma tendência geral transgressiva. As Sequências I e II refletem um soerguimento da área-fonte em resposta a movimentações tectônicas. A mudança abrupta de paleocorrentes dos fluviais basais da Sequência I indicam uma reestruturação regional das redes de drenagens, enquanto que os sistemas de leques aluviais da Sequência II sugerem sedimentos depositados por uma tectônica sin-deposicional. Os limites de sequências II e III é marcado por uma superfície erosiva regional. A discordâncias entre as sequências II e III revela um hiato significante no topo da Formação Tombador sugerindo uma origem tectônica para esta discordância.The Mesoproterozoic Tombador Formation encompasses different depositional systems deposited in a sag basin, ranging from estuarine to alluvial. The well preserved deposits and their wide occurrence in the regional scale (~300 km) define the Tombador Formation as an excellent case study for the depositional patterns prevailing during the Proterozoic. Three depositional sequences were recognized for the Upper Tombador Formation, bounded by three semi-regional scale unconformities. Sequence I is composed of shallow, gravel-bed braided channels at its base, which are overlain by fine- to coarse-grained sandstones related to aeolian sand sheets and dunes and intermediate sheetfloods. The lower boundary of this sequence is characterized by an angular unconformity cutting fluvio-estuarine deposits, evidenced by an abrupt change of facies and fluvial palaeocurrents. The fluvio-estuarine deposits below the sequence boundary display palaeocurrents to northwest, whereas the fluvial strata above the unconformity show southeastward palaeocurrents. A new abrupt entrance of conglomeratic deposits related to alluvial fans systems overlying the fluvio-aeolian successions marks the lower boundary of Sequence II. The Sequence III is characterized by fluvio-estuarine systems in the top of the Upper Tombador Formation, that are progressively covered by shallow marine systems (Caboclo Formation), defining a general transgressive trend. The pattern of sequences I and II probably reflects the uplift of source areas in response to tectonic movements. The palaeocurrent change in Sequence I indicates a regional rearrangement of the drainage networks, while the alluvial fan systems of sequence II suggest sin-depositional tectonic pulses. The regional erosive surface between sequences II and III reveals a significant hiatus close to the Tombador Formation top, what suggests a tectonic origin for this unconformity.
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Khalifa, Muftah. "Parameters Controlling Distribution of Diagenetic Alterations within Fluvial and Shallow Marine Sandstone Reservoirs : Evidence from the Libyan Basins." Doctoral thesis, Uppsala universitet, Mineralogi, petrologi och tektonik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-284581.
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This thesis demonstrates that geological setting, depositional facies, open system flux of hot basinal brines and descending of shallow waters have a strong impact on the distribution of the diagenetic alterations within continental and paralic/shallow marine sandstones which in turn control the quality and heterogeneities of the reservoirs. Geological setting controls the mineralogical and textural maturity of sandstone, whereas depositional facies control the pore water chemistry (marine, brackish or meteoric), sedimentary texture and sand body geometry. Eogenetic alterations in the fluvial deposits are dominated by precipitation of infiltrated clays, kaolinitization of detrital silicates, whereas the shallow marine deposits are dominated by precipitation of early calcite and kaolinite. Conversely mesogenetic alterations are dominated by clay minerals transformation, quartz overgrowths and Ferroan- carbonates, barite and anhydrite. Flux of hot basinal brines is evidenced by precipitation of mesogenetic minerals that lack of internal sources (e.g. barite, anhydrite and ferroan carbonate cements), which is evidenced by: (1) restricted occurrence of these minerals in downthrown blocks. (2) The high fluid inclusion homogenization temperatures (Th) of quartz overgrowths (Th > 110-139°C), and carbonate cements (T > 80-140°C), which also have light δ18OV-PDB(-17.6‰ to -6.7‰). Flux of hot basinal brines is further evidenced by occurrence of saddle Fe-dolomite along stylolites. Fluid inclusion microthermometry further revealed a dramatic shift in pore- water chemistry from NaCl dominated brines during precipitation of quartz overgrowths to NaCl-CaCl2 dominated brines during cementation by Fe-dolomite. Presence of mixed brine (NaCl+CaCl2) systems in the fluid inclusions suggests flux of descending waters, which have circulated in the overlying carbonate-evaporite successions. The restricted occurrence of oil- filled inclusion to quartz overgrowths and methane to Fe-carbonate cements suggest migration of oil during precipitation by quartz and migration of methane during precipitation by Fe- carbonate cements. The extensive mesogenetic cements in the down thrown blocks is attributed to flux of basinal brines along deep seated faults, i.e. open system diagenesis. Integration of fluid inclusion microthermometry, isotopes, Raman spectrometry and thermal tectonic evolution of basins are essential techniques for unraveling the evolution of basinal fluids, cementation conditions and relative timing of hydrocarbons migration.Errata: Felaktigt disputationsdatum på spikbladet.
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Nfor, Nformi Emmanuel. "Sequence stratigraphic characterisation of petroleum reservoirs in Block 11b/12b of the Southern Outeniqua Basin." University of the Western Cape, 2011. http://hdl.handle.net/11394/2924.
Full textAbstract:
Magister Scientiae - MScThe main purpose of this study was to identify and characterize the various sand prone depositional facies in the deepwater Southern Outeniqua Basin which generally tend to form during lowstand (marine regression) conditions producing progradational facies. It made use of sequence stratigraphy and turbidite facies models to predict the probable location of deepwater reservoirs in the undrilled Southern Outeniqua Basin using data from basin margin Pletmos Basin and the deepwater Southern Outeniqua Basin. Basin margin depositional packages were correlated in time and space with deepwater packages. It was an attempt at bridging the gap between process-related studies of sedimentary rocks and the more traditional economic geology f commercial deposits of petroleum using prevailing state-of-the-art in basin analysis. It enabled the most realistic reconstructions of genetic stratigraphy and offered the greatest application in exploration. Sequence stratigraphic analysis and interpretation of seismics, well logs, cores and biostratigraphic data was carried out providing a chronostratigraphic framework of the study area within which seismic facies analysis done. Nine (9) seismic lines that span the shallow/basin margin Pletmos basin into the undrilled deepwater Southern Outeniqua basin were analysed and interpreted and the relevant seismic geometries were captured. Four (4) turbidite depositional elements were identified from the seismic lines: channel, overbank deposits, haotic deposits and basin plain (basin floor fan) deposits. These were identified from the relevant seismic geometries (geometric attributes) observed on the 2D seismic lines. Thinning attributes, unconformity attributes and seismic facies attributes were observed from the seismic lines. This was preceded by basic structural analyses and interpretation of the seismic lines. according to the structural analysis and interpretation, deposition trended NW-SE and NNW-SSE as we go deepwater into the Southern Outeniqua basin. Well logs from six (6) of the interpreted wells indicated depositional channel fill as well as basin floor fans. This was identified in well Ga-V1 and Ga-S1 respectively. A bell and crescent shape gamma ray log signature was observed in well Ga-V1 indicating a fining up sequence as the channel was abandoned while an isolated massive mound-shape gamma ray log signature was observed in Ga-S1 indicating basin plain well-sorted sands. Core analyses and interpretation from two southern-most wells revealed three (3) facies which were derived based on Walker‘s 1978, turbidite facies. The observed facies were: sandstone, sand/shale and shale facies. Sequence stratigraphic characterisation of petroleum reservoirs in block 11b/12b of the Southern Outeniqua Basin. Cores of well Ga-V1 displayed fine-grained alternations of thin sandstone beds and shales belonging to the thin-bedded turbidite facies. This is typical of levees of the upper fan channel but could easily be confused with similar facies on the basin plain. According to Walker, 1978 such facies form under conditions of active fan progradation. Ga-S1 cores displayed not only classic turbidite facies where there was alternating sand and shale sections but showed thick uninterrupted sections of clean sands. This is typical of basin plain deposits. Only one well had biostratigraphic data though being very limited in content. This data revealed particular depth sections and stratigraphic sections as having medium to fast depositional rates. Such rates are characteristic of turbidite deposition from turbidity currents. This study as well as a complementary study by Carvajal et al., 2009 revealed that the Southern Outeniqua basin is a sand-prone basin with many progradational sequences in which tectonics and sediment supply rate have been significant factors (amongst others such as sea level change) in the formation of these deepwater sequences. In conclusion, the Southern Outeniqua basin was hereby seen as having a viable and unexplored petroleum system existing in this sand prone untested world class.
South Africa
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Almeida, Gabriela Menezes. "Estudo de proveniência da sedimentação aptiana aflorante na porção norte da sub-bacia de Alagoas." Universidade Federal de Sergipe, 2016. https://ri.ufs.br/handle/riufs/5399.
Full textAbstract:
The outcrops Praia de Japaratinga, Barreiras do Boqueirão and Morro de
Camaragibe, Alagoas sub-basin, are located in the cities of Japaratinga and Passo
de Camaragibe, northern state of Alagoas. These exposures show facies of the
deposits of a fluvial-deltaic-turbidity system, until now attributed to Maceió
Formation, Lower Aptian age. Their facies characterize deposits of catastrophic
flows with SW dominant paleocurrent, that are cuted by streams channeled oblique
paleocurrent the last, about to SE, indicating at least the existence of two distinct
sources areas. This study aimed to indicate the source of these sediments joining
stratigraphy, petrography, whole rock geochemistry and geochronology of detrital
zircon via LA-ICP-MS data. Both geochemical whole rock, as the geochronology of
zircons showed different chemistry and age patterns for facies paleocurrent SW
regarding the facies of SE paleocurrent. The detrital zircon ages found in the
samples, although. indicate origin of the Borborema Province, there was a
predominance of Neoproterozoic age crystals for the SW Paleocurrent facies, and
Neoproterozoic ages with contribution of Paleoproterozoic and Mesoproterozoic
terranes for facies paleocurrent SE. Regarding the stratigraphic position of the
studied outcrops, it was used palynology in siltstones and shales for obtaining
depositional age. The presence of pollen species Sergipea tenuiverrucata is
indicative of Upper Aptian age for the rich black shales in conchostracans and fish
fragments present in the top section of the outcrop Barreiras do Boqueirão. This
age puts such outcrops stratigraphically above the Maceió Formation, considered
deposited in Aptian Lower to Middle.Os afloramentos Praia de Japaratinga, Barreiras do Boqueirão e Morro de Camaragibe, sub-bacia de Alagoas, estão localizados nos municípios de Japaratinga e Passo de Camaragibe, ao norte do Estado de Alagoas. Essas exposições exibem fácies de depósitos de um sistema flúvio-deltaico-turbidítico, até então atribuídos à Formação Maceió, de idade eoptiana. As fácies caracterizadas nesses afloramentos compõem depósitos de fluxos gravitacionais catastróficos com duas direções principais de paleocorrentes: uma dominante para SW, a qual tem seus estratos em parte erodidos por fluxos canalizados com paleocorrente de direção SE, indicando no mínimo a existência de duas áreas fontes distintas. Este trabalho objetivou indicar a proveniência desses sedimentos unindo dados de análise faciológica, petrografia, palinologia, geoquímica de rocha total e geocronologia em zircão detrítico via LA-ICP-MS. O posicionamento estratigráfico dos afloramentos estudados, foi utilizada a palinologia em siltitos e folhelhos para obtenção de idade deposicional. A presença de pólen da espécie Sergipea tenuiverrucata, indicativa de idade eoaptiana, para os folhelhos negros ricos em conchostráceos e fragmentos de peixes, presentes no topo da seção no afloramento Barreiras do Boqueirão. Essa idade coloca tais afloramento estratigraficamente acima da Formação Maceió, considerada como depositada entre o Eoaptiano e Mesoaptiano. No tocante à proveniência, tanto a geoquímica de rocha total, quanto a geocronologia dos zircões mostraram assinaturas distintas para as duas principais direções de paleocorrentes. As idades de zircão detrítico encontradas nas amostras estudadas apontam a Província Borborema como área fonte. Duas frequências distintas de idades foram caracterizadas: o predomínio de cristais com idades neoproterozóicas para a fácies de paleocorrentes SW, e de idades neoproterozóicas com contribuição de terrenos paleoproterozóicos e mesoproterozóicos para a fácies de paleocorrente SE.
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Santos, Mauricio Guerreiro Martinho dos. "Evolução dos sistemas fluviais através do tempo geológico: fácies sedimentares, arquitetura deposicional e estruturas de deformação sinsedimentar em exemplos do Torridonian, Bacia do Camaquã e Old Red Sandstone." Universidade de São Paulo, 2014. http://www.teses.usp.br/teses/disponiveis/44/44141/tde-10102014-085051/.
Full textAbstract:
Uma série de pesquisas realizadas em depósitos de sistemas fluviais, desenvolvidos anterior e concomitantemente à colonização dos continentes por vegetação, são aqui apresentadas com o intuito de investigar as principais características deposicionais destes sistemas, particularmente suas assembléias de fácies e elementos arquitetônicos preservados. Esta pesquisa busca, desta maneira, propor modelos deposicionais para sucessões fluviais pré-vegetação e contribuir para o avanço do conhecimento sobre as mudanças seculares em padrões de sedimentação, principalmente em relação à evolução dos rios através do tempo geológico. Estudos sedimentológicos foram realizados em depósitos fluviais da Formação Applecross do Grupo Torridon (Toniano, Escócia), Formação Guarda Velha do Grupo Guaritas (Cambriano, Brasil) e no Old Red Sandstone do Midland Valley (Siluriano-Carbonífero, Escócia). Foram empregadas análises de associações de fácies e arquitetura deposicional por meio de estudos de alto detalhe em afloramentos, combinadas a análises de paleocorrentes, de proveniência, e de estruturas de deformação sinsedimentar. Depósitos de canais fluviais meandrantes pré-vegetação com espessos depósitos de planícies de inundação ricos em sedimentos de granulação fina são pela primeira vez descritos em detalhe nos estudos aqui apresentados sobre depósitos da Formação Applecross. Diversas estruturas de deformação sinsedimentar encontradas na unidade acima referida são analisadas, revelando que seus estilos podem ser relacionados a diferentes regiões de uma planície fluvial. Nos depósitos da Formação Guarda Velha, é registrada a inter-relação entre dois sistemas fluviais coevos, cuja arquitetura deposicional contrastante resultou da diferente localização destes sistemas em relação à estrutura da bacia, assim como de diferentes áreas de captação. São relatados os efeitos de distintos controles deposicionais, como ambiente tectônico e regimes hidráulicos, sobre a arquitetura deposicional preservada em sistemas fluviais pré-vegetação. Esses dados demonstram que o estilo entrelaçado-em-lençol, apontado como o estilo pré-vegetação predominante, engloba na verdade uma variedade de diferentes estilos fluviais. Estudos em depósitos do Siluriano ao Carbonífero do Old Red Sandstone revelam o crescente impacto da vegetação sobre depósitos fluviais, particularmente o aumento exponencial de formação de paleosolos, além de mostrar semelhanças entre alguns destes sistemas com os sistemas pré-silurianos. A integração desses estudos revela que sistemas fluviais pré-vegetação são relativamente mais complexos do que previsto pelos modelos atualmente disponíveis. Importantemente, sugere que a escassez de sedimentos de granulção fina, preservados em depósitos fluviais pré-silurianos, está mais relacionada à baixa competência destes sistemas em preservar tais sedimentos do que à sua suposta ausência em ambientes pré-vegetação. Foi também desenvolvida uma metodologia específica para o uso de estruturas de deformação em sedimentos inconsolidados como ferramentas na reconstrução de paleoambientes, através das relações entre diferentes estilos deformacionais e ambientes deposicionais, possibilitando a indicação de regimes hidráulicos em depósitos fluviais e a informação indireta de taxas de atividades tectônicas em bacias. A integração de dados de sedimentologia com estudos específicos de deformação sinsedimentar é uma ferramenta útil na reconstrução paleoambiental de sistemas fluviais.A series of studies were undertaken on fluvial systems deposits which developed prior to land-plant colonization, in order to investigate the main depositional characteristics of those systems, particularly their main facies assemblages and preserved depositional architecture. Main objectives are the proposal of depositional models for pre-vegetation fluvial systems, and the understanding of main secular changes in sedimentation processes and its influence on the evolution of rivers through geological times. Sedimentologic studies were undertaken in fluvial deposits from the Applecoss Formation of the Torridon Group (Tonian, NW Scotland), the Guarda Velha Formation (Cambrian, southern Brazil), and the Old Red Sandstone in the Midland Valley (Silurian-Carboniferous, NE Scotland). Highly-detailed sedimentary facies and depositional architecture analyses in outcrop scale were integrated with palaeocurrent and provenance studies, and soft-sediment deformation analysis. Pre-vegetation meandering channel deposits with relatively thick, fine-grained floodplain deposits from the Applecross Formation and here described for the first time. Analyses on sinsedimentary deformation structures preserved in the Applecross Formation reveal different styles which can be related to different parts of the fluvial plain. Studies on the Guarda Velha Formation revealed the inter-relationship between two coeval fluvial systems with markedly contrasting preserved depositional architecture, which developed as a result of the different location of the systems in relation to basin structure and different caption areas. The effects of different depositional controls on preserved pre-vegetation fluvial system architecture, such as tectonic environment and hydraulic regime, are recorded and interpreted. The present data demonstrate that the sheet-braided style, which is regarded as the prevailing fluvial style before the Silurian, in fact encompasses a varied number of different pre-vegetation fluvial styles. Studies on the Silurian to Early Carboniferous Old Red Sandstones in the Midland Valley of Scotland reveal the progressive impact of land plants on fluvial sedimentation, particularly the exponential increasing rates of soil production. Integration of the here presented data reveal that pre-vegetation fluvial styles. Studies on the Silurian to Early Carboniferous Old Red Sandstone in the Midland Valley of Scotland reveal the progressive impact of land plants on fluvial sedimentation, particularly the exponential increasing rates of soil production. Integration of the here presented data reveal that pre-vegetation fluvial systems are relatively more complex than previously described in the literature. Importantly, it suggests that the paucity of fine-grained sediments in pre-Silurian fluvial deposits is most likely related to various preservation issues than to the lack of such sediments. A particular methodology for the use of soft-sediment deformation structures as palaeoenvironmental tool was developed, allowing the interpretation of hydraulic regimes in fluvial deposits, indication of the basin\'s tectonic activity, and the relationship between different deformation styles and distinct depositional environments. The combined analyses of soft-sediment deformation structures and sedimentologic data is a powerful tool with which fluvial systems palaeoenvironmental can be reconstructed.
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Asghari, Afshin. "Environnement sédimentaire, stratigraphie séquentielle et paléogéographie du Paléozoique de succession pré-Khuff dans le sud de l'Iran (Zagros et le Golfe Persique)." Thesis, Dijon, 2014. http://www.theses.fr/2014DIJOS058/document.
Full textAbstract:
Au cours du Précambrien et du Paléozoïque, la zone Zagros faisait partie de la plate-forme Arabe. La succession Paléozoïque du Zagros s’étend du Cambrien au Permien. La zone d'étude se situe entre le Lurestan et le Fars au sud et le Golfe Persique. Au Paléozoïque, dans le secteur du Zagros, la série stratigraphique comprend quatre séquences de second ordre (ou cycles tectonostratigraphiques) séparées par d’importantes discordances. L’eustatisme est le principal facteur déterminant les changements d’espace d’accommodation, même si localement dans l'Ouest du Haut Zagros, le rôle de la tectonique régionale et des mouvements diapririques est important. Le premier cycle (Ordovicien) est composé des Fomrations Seyahou (Floien-Katien) et Dargaz (Hirnantien). Il enregistre une évolution depuis des milieux profonds à peu profonds de plate-forme siliciclastique. La Formation Seyahou est découpée en sept séquences de troisième ordre et la Formation Dargaz correspondant à des dépôts glaciogènes comprends deux séquences de troisième ordre. Le deuxième cycle (Silurien inférieur) correspond à la Formation Sarchahan. Il est caractérisé des environnements marins peu profonds à profonds comprenant des marnes riches en matière organique. Il est composé par deux séquences de dépôt de troisième ordre. Localement à Kuh e Gahkum, la base de cette Formation enregistre des dépôts peu profonds de transition continental-marin dont la présence est attribuée à la mise en place d’un diapir dans le secteur. Le troisième cycle (Dévonien) correspond à la Formation Zakeen. Les dépôts évoluent depuis des environnements continentaux à marins. La fin du Dévonien est marqué par des environnements marins carbonatés dans le sud de la région du Fars et dans le Golfe Persique. Il est divisé en trois séquence de troisième ordre. L’absence de la Formation Zakeen à Kuh e Surmeh et Kuh e Siah, et sa présence dans les régions voisines (Naura, West Agar, etc ...), suggèrent une activité diapirique, expliquant l’érosion locale des séries sédimentaires. Le dernier cycle de la succession pré-khuff dans la zone d'étude correspond à la Formation Faraghan du Permien inférieur. Il surmonte une discontinuité attribué au jeu de l'orogenèse Hercynienne et est déposé dans toute la région du Zagros et dans le Golfe Persique. La Formation Faraghan correspond à des environnements de plaine côtière à marins et est divisé en trois séquences de troisième ordre.La succession du Paléozoïque est marquée par plusieurs discordances majeures. Elles résultent de: (i) variations majeures du niveau marin en lien avec des variations glacioeustatiques comme pour le cas de la glaciation Hirnantien à la fin de l’Ordovicien et celle du Carbonifère; (ii) Un soulèvement du Moyen-Orient à la fin du Silurien associé aux mouvements épeirogéniques et à une baisse importante du niveau de la mer; et (iii) l'orogenèse Hercynienne allant de la fin du Dévonien à Carbonifère. Localement, les discordances peuvent aussi s’expliquer par le jeu de remontée diapirique induisant une érosion locale, comme c’est le cas dans les secteurs de Kuh e Surmeh et de Kuh e Gakhum pour des periodes de temps différentesDuring the Precambrian and trough the Palaeozoic, the Zagros area was part of the Arabian platform (Beydon, 1993). The Palaeozoic succession of the Zagros extends from Cambrian to well-developed Permian deposits. The study area ranges from the Lurestan to Southern Fars onshore and to the Persian Gulf offshore wells. From Ordovician to Early Permian Palaeozoic succession of the Zagros area comprises four second-order tectonostratigraphic depositional cycles separated by major unconformities. Eustatic sea-level variation is the main controlling factor for accommodation space changes, whereas in West High Zagros and Kuh e Gahkum, the role of regional and salt tectonic activities may be also important. The first cycle (Ordovician) is composed of the Seyahou (Floian-Katian) and Dargaz (Hirnantian) Formations. They are characterized by deep- to shallow-water (offshore to shoreface) siliciclastic deposits. The Seyahou Formation contains seven 3rd-order depositional sequences. The glaciogenic Dargaz Formation consists of one 3rd- order sequence. The second cycle (Early Silurian) corresponds to the Sarchahan Formation is composed of two 3rd-order depositional sequences. They are characterized by deep-marine offshore to upper offshore environments. Locally in Kuh e Gahkum the base of the Formation presented continental fan delta deposits due to the salt tectonic activity.The third cycle (Devonian) corresponds to the Zakeen Formation and divided in three 3rd-order depositional sequences. It started with the deposition of continental to near-shore marine clastic deposits. In Late Devonian, it evolved to carbonate marine deposits in the south of Fars area and the Persian Gulf. The lack of Zakeen Formation in Kuh e Surmeh and Kuh e Siah, and is presence in neighboring areas (Naura, Aghar, etc…), suggests structural salt plug activities (Jahani, 2008). This megasequence is capped by a major unconformity related to the Hercynian orogeny.The last deepening-upward cycle of the Pre-khuff succession in the study area is the Early Permian Faraghan Formation. It capped the Hercynian orogeny and deposited throughout the Zagros area from Lurestan (west) to Bandar Abbas (East) areas as well as in Persian Gulf. The Faraghan Formation divided into three 3rd-order depositional sequences and deposited in coastal plain to shallow-marin near-shore environment. Basinward, in the deeper part (e.g. Kuh e Faraghan), they are replaced by marine upper offshore deposits. The Palaeozoic succession is marked by several major unconformities associated with hiatus. They resulted from: (i) major sea level drops at the end of the Ordovician related to the Hirnantian glaciation (Ghavidel Syooki et al., 2011) and of during the Carboniferous related to the southern Hemisphere glaciation (Golonka, 2000); (ii) An uplift of the Middle East area at the end of the Silurian associated with epeirogenic movements (Ala et al., 1980; Berberian and King, 1981; Al-Sharhan and Nairn, 1997) and a major sea level drop at the end of Silurian (Al-Husseini, 1991,1992; Sharland et al., 2001; Konert et al., 2001; Haq and Al-Qahtani, 2005); and (iii) impact of the Hercynian orogeny spanning from the Late Devonian up to the Carboniferous (Al-Hosseini, 1992; Sharland et al., 2001; Konert et al., 2001, Faqira et al., 2009)
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Rojas, Fabio Enrique Malagon. "Estratigrafia de sequ?ncias do intervalo aptiano ao albiano na Bacia do Araripe, NE do Brasil." Universidade Federal do Rio Grande do Norte, 2009. http://repositorio.ufrn.br:8080/jspui/handle/123456789/18759.
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Previous issue date: 2009-02-27This study has as a main objective to make a detailed stratigraphic analysis of the Aptian-Albian interval in the east part of Araripe Basin, NE of Brazil which correspond, litostratigraphically, to Rio Da Batateira, Crato, Ipubi and Romualdo formations. The stratigraphic analysis was based on three different stages, the 1D, 2D and 3D analysis; these ones were adapted to the sequence stratigraphy concepts in order to create a chronostratigraphic framework for the study area within the basin. The database used in the present study contains field and well information, wells that belong to Santana Project, carried out by the Minist?rio de Minas e Energia- DNPM- CPRM from 1977 to 1978. The analysis 1D, which was done separately for each well and outcrop allowed the recognition of 13 sedimentary facies, mainly divided based on predominant litologies and sedimentary structures. Such facies are lithologically represented by pebble, sandstones, claystones, margas and evaporates; these facies are associated in order to characterize different depositional systems, that integrate from the continental environment (fluvial system and lacustre), paralic system (delta system and lagunar) to the marine environment (shelfenvironment). The first one, the fluvial system was divided into two subtypes: meandering fluvial system, characterized by fill channel and floodplain deposits; the facies of this system are associated vertically according to the textural thinning upward cycles (dirting-up trend pattern in well logs). Lacustrine environment is mainly related with the lithotypes of the Crato Formation, it shows a good distribution within the basin, been composed by green claystone deposits and calcareous laminated. Deltaic System represented by prodelta and delta front deposits which coarsening upward tendency. Lagunar system is characterised by the presence of anhydrite and gypsum deposits besides the black claystone deposits with vegetal fragments which do not contain a fauna typically marine. The marine platform system is composed by successions of black and gray claystone with fossiliferous fauna of Dinoflagellates (Spiniferites Mantell, Subtilisphaera Jain e Subtilisphaera Millipied genre) typical of this kind of depositional system. The sedimentary facies described are vertically arranged in cycles with progradational patterns which form textural coersening upward cycles and retrogradational, represented by textural thinning dowward cycles. Based in these cycles, in their stack pattern and the vertical change between these patterns, the systems tracks and the depositional sequences were recognized. The Low System Track (LST) and High System Track (HST) are composed by cycles with progradational stack pattern, whereas the Trangessive System Track (TST) is composed by retrogradational stack pattern cycles. The 2D stratigraphic analysis was done through the carrying out of two stratigraphic sections. For the selection of the datum the deepest maximum flooding surface was chosen, inside the Sequence 1, the execution of these sections allowed to understand the behaviour of six depositional systems along the study area, which were interpreted as cycles of second order or supercycles (cycles between 3 and 10 Ma), according to the Vail, et al (1977) classification. The Sequence 1, the oldest of the six identified is composed by the low, transgressive and high systems tracks. The first two system tracks are formed exclusively by fluvial deposits of the Rio da Batateira Formation whereas the third one includes deltaic and lacustrine deposits of the Crato Formation. The sequences 2 and 3 are formed by the transgressive systems tracks (lake spreading phase) and the highstand system track (lake backward phase). The TST of these sequences are formed by lacustrine deposits whereas HST contains deltaic deposits, indicating high rates of sedimentary supply at the time of it s deposition. The sequence 4 is composed by LST, TST and HST, The TST4 shows a significant fall of the lake base level, this track was developed in conditions of low relation between the creation rate of space of accommodation and the sedimentary influx. The TST4 marks the third phase of expansion of the lacustrine system in the section after the basin?s rift, the lacustrine system established in the previous track starts a backward phase in conditions that the sedimentary supply rate exceeds the creation rate of space accommodation. The sequence 5 was developed in two different phases, the first one is related with the latest expansion stage of the lake, (TST5), the basal track of this sequence. In this phase the base level of the lake rose considerably. The second phase (related to the TST5) indicates the end of the lacustrine domain in the Araripe Basin and the change to lagunar system ant tidal flat, with great portions in the supratidal. These systems were formed by restricted lagoons, with shallow level of water and with intermittent connections with the sea. This, was the phase when the Araripe Basin recorded the most several arid conditions of the whole interval studied, Aptian Albian, conditions that allow the formation of evaporitic deposits. The sequence 6 began its deposition after a significant fall of the sea (LST6). The sequence 6 is without any doubtlessly, the sequence that has deposits that prove the effective entrance of the sea into the Araripe Basin. The TST6, end of this sequence, represents the moment which the sea reaches its maximum level during the Aptian Albian time. The stratigraphic analysis of the Aptian Albian interval made possible the understanding that the main control in the development of the depositional sequences recognized in the Araripe Basin were the variations of the local base level, which are controlled itself by the climate changes
O presente trabalho tem como objetivo principal realizar uma an?lise estratigr?fica detalhada do intervalo Aptiano ao Albiano na parte leste da Bacia do Araripe, NE do Brasil, o qual corresponde, litoestratigraficamente, ?s forma??es Rio da Batateira, Crato, Ipub? e Romualdo. A an?lise estratigr?fica envolveu tr?s etapas distintas, a an?lise 1D, 2D e 3D, nas quais foram adaptados os conceitos da estratigrafia de seq??ncias visando elaborar um arcabou?o de car?ter cronoestratigr?fico para a por??o estudada da bacia. Tal estudo contou com uma base de dados integrada por informa??o de campo e de po?os pertencentes ao projeto Santana, realizado pelo Minist?rio de Minas e Energia- DNPM- CPRM nos anos de 1977 e 1978. A an?lise 1D, por meio da an?lise individual de cada afloramento e po?o, permitiu o reconhecimento de 13 f?cies sedimentares, individualizadas com base principalmente nas litologias predominantes e nas estruturas sedimentares. Tais f?cies s?o representadas litologicamente por conglomerados, arenitos, pelitos, calc?rios, margas e evaporitos. As mesmas se associam de forma a caracterizar diferentes sistemas deposicionais, que integram desde o ambiente continental (sistemas fluvial e lacustre), ambiente par?lico (sistemas deltaico e lagunar) at? o ambiente marinho (sistema plataformal). O primeiro deles, o sistema fluvial, foi dividido em dois sub-tipos: o sistema fluvial meandrante, caracterizado por dep?sitos de preenchimento de canal e dep?sitos de plan?cie de inunda??o, e o sistema fluvial entrela?ado formado principalmente por dep?sitos de preenchimento de canal; as f?cies deste sistema se associam verticalmente segundo ciclos de afinamento textural para o topo (padr?o em sino nos perfis geof?sicos). O sistema lacustre, relacionado principalmente aos lit?tipos da Forma??o Crato, apresenta uma boa distribui??o na bacia, sendo composto por dep?sitos de pelitos verdes e calc?rios laminados. O sistema deltaico, representado por dep?sitos de prodelta e de frente deltaica, os quais se disp?em verticalmente em ciclos com granocresc?ncia para o topo (padr?o em sino invertido nos perfis geof?sicos). O sistema lagunar caracteriza-se pela presen?a de dep?sitos de anidrita e gipsita, al?m dos dep?sitos de pelitos negros com restos vegetais, os quais n?o cont?m uma fauna tipicamente marinha. O sistema de plataforma marinha ? composto por sucess?es de pelitos pretos e cinza com faunas fossiliferas de Dinoflagelados (g?neros Spiniferites Mantell, Subtilisphaera Jain e Subtilisphaera Millipied), t?picas de este tipo de sistema deposicional. As f?cies sedimentares descritas se arranjam verticalmente de forma a compor ciclos com padr?es de empilhamento progradacional, os quais formam ciclos com engrossamento textural para o topo, e retrogradacional, representados por ciclos com afinamento textural para o topo. Com base nestes ciclos, em seus padr?es de empilhamento e na mudan?a verticais entre estes padr?es, foram reconhecidos os tratos de sistemas e as seq??ncias deposicionais. Os tratos de sistemas de N?vel Baixo e o de N?vel Alto s?o compostos por ciclos com padr?o de empilhamento progradacional; o Trato de Sistemas Transgressivo, por sua vez, ? formado por ciclos com padr?o de empilhamento retrogradacional. A an?lise estratigr?fica 2D foi elaborada por meio da realiza??o de duas se??es estratigr?ficas. Para a escolha do datum foi privilegiada a superf?cie de m?xima inunda??o mais basal, interna ? Seq??ncia 1. A elabora??o destas se??es possibilitou compreender o comportamento de seis seq??ncias deposicionais ao longo da ?rea de estudo, as quais foram interpretadas como ciclos de segunda ordem ou superciclos (ciclos com dura??es entre 3 e 10 Ma), segundo a classifica??o de Vail, et al (1977). A Seq??ncia 1, mais antiga das seis seq??ncias identificadas, ? composta pelos tratos de sistemas de N?vel Baixo, Transgressivo e de N?vel Alto. Os dois primeiros tratos s?o formados exclusivamente pelos dep?sitos fluviais da Forma??o Rio da Batateira, ao passo que o terceiro inclui dep?sitos deltaicos e lacustres da Forma??o Crato. As seq??ncias 2 e 3 s?o formadas pelos tratos de sistemas Transgressivo (TST; fase de expans?o do lago) e de N?vel Alto (TSNA; fase retra??o do lago). Os TST s destas seq??ncias s?o formados por dep?sitos lacustres, ao passo que os TSNA s cont?m dep?sitos deltaicos, indicando assim condi??es de alta taxa de suprimento sedimentar na ?poca da deposi??o deste. A seq??ncia 4 ? formada pelos tratos de sistemas de N?vel Baixo (TSNA), Transgressivo e de N?vel Alto. O TSNB registra uma queda importante do n?vel base do lago; este trato se desenvolveu em condi??es de baixa raz?o entre a taxa de cria??o de espa?o de acomoda??o e a taxa de influxo sedimentar. O TST marca a terceira fase de expans?o do sistema lacustre na se??o p?s rifte da bacia; o sistema lacustre implantado no trato anterior inicia uma fase de retra??o em condi??es em que a taxa de aporte sedimentar passa a suplantar a de cria??o de espa?o de acomoda??o. A seq??ncia 5 desenvolveu-se em duas fases distintas. A primeira relaciona-se com a ?ltima etapa de expans?o do lago, (TST), trato basal desta seq??ncia. Nesta fase, o n?vel base do lago subiu consideravelmente. A segunda fase, relacionada ao TSNA), indica o final do dom?nio lacustre na Bacia do Araripe e a mudan?a para sistemas lagunares e de plan?cie de mar?, com grande desenvolvimento das por??es de supramar?. Estes sistemas eram formados por lagunas restritas, com l?mina de ?gua rasa, e com conex?o intermitente com o mar. Esta foi a fase em que a Bacia do Araripe registrou as mais severas condi??es de aridez de todo intervalo estudado, Aptiano ao Albiano, condi??es estas que propiciaram a forma??o de dep?sitos evapor?ticos. A seq??ncia 6 iniciou sua deposi??o ap?s uma queda significativa do incipiente mar (TSNB). Esta seq??ncia ?, indubitavelmente, a que cont?m os dep?sitos que comprovam a efetiva entrada do mar na Bacia do Araripe. O TST, trato final desta seq??ncia, representa o momento em que o n?vel do mar atingiu o seu m?ximo durante todo o intervalo Aptiano ao Albiano. A an?lise estratigr?fica do intervalo Aptiano ao Albiano permitiu compreender que o controle principal no desenvolvimento das seq??ncias deposicionais reconhecidas na Bacia do Araripe foram ?s varia??es do n?vel de base local, as quais s?o controladas, por sua vez, pelas mudan?as clim?ticas
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Kattah, Senira da Silva. "Controls on deposition and resulting stratal architecture of coarse-grained alluvial and near-shore facies associations /." Digital version accessible at:, 1999. http://wwwlib.umi.com/cr/utexas/main.
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Hill, Robert E. (Robert Einar). "Stratigraphy and sedimentology of the Middle Proterozoic Waterton and Altyn Formations, Belt-Purcell Supergroup, southwest Alberta." Thesis, McGill University, 1985. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=63330.
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Malaval, Manon. "Enregistrement sédimentaire de l'activité diapirique associée à la ride du Jbel Azourki, Haut Atlas central, Maroc : impact sur la géométrie des dépôts et la distribution des faciès des systèmes carbonatés et mixtes du Jurassique inférieur." Thesis, Bordeaux 3, 2016. http://www.theses.fr/2016BOR30035.
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L’évolution des systèmes sédimentaires jurassiques (Pliensbachien-Bajocien) dans le secteur de Zaouiat-Ahançal (Haut Atlas, Maroc) est localement influencée par des mouvements diapiriques associés à la ride du Jbel Azourki. Cette structure tectonique complexe suit un tracé en baïonnette d’orientation globale OSO-ENE sur près de 60 kilomètres, ponctué par six affleurements de matériel diapirique triasique. L’objectif de cette thèse est de caractériser l’impact du diapirisme sur la géométrie des dépôts et sur la distribution des faciès au sein de trois systèmes de dépôt successifs : (1) un système carbonaté de plate-forme peu profonde (Formations d’Aganane, de Jbel Choucht et d’Assemsouk) (2) des systèmes de rampe mixte silicoclastique et carbonatée (Formations de Tamadout, d’Amezraï, de Tafraout et d’Aguerd-n-Tazoult), (3) et un système carbonaté oolitique (Formation de Bin-El-Ouidane). Une cartographie détaillée des unités stratigraphiques et des unités de faciès, ainsi qu’une série de quatorze coupes géologiques de la ride diapirique du Jbel Azourki ont ainsi été réalisées. L’étude des interactions entre sédimentation et diapirisme révèle un enregistrement continu de la déformation diapirique sur l’ensemble de la série sédimentaire, et a permis d’établir une chronologie de l’activité diapirique dans le secteur de Zaouiat-Ahançal. L’unité des calcaires inférieurs (1) enregistre une déformation polyphasée marquée par le développement localisé, au sein de la plate-forme, de bassins d’extension kilométrique caractérisés par une sédimentation hémipélagique et gravitaire (rim basins). Ces bassins circonscrits aux diapirs sont limités par des bordures de plate-forme bioconstruites à Lithiotis, de type aggradant ou érosif. À partir du Pliensbachien terminal, les déformations syndiapiriques se manifestent dans les unités mixtes (2), d’une part à l’échelle plurikilométrique avec l’accumulation de plusieurs milliers de mètres de dépôts, contrôlée par la variation latérale du taux de subsidence entre et au sein des compartiments nord et sud de la ride, et d’autre part à l’échelle hectométrique de la bordure du diapir avec des géométries caractéristiques et des variations de faciès (micro plates-formes à oolites et coraux). La ride diapirique perce en surface pendant le dépôt des unités mixtes, puis est recouverte par l’unité transgressive peu déformée des calcaires supérieurs (3) à l’Aalénien terminal. Les paramètres de contrôle de la géométrie des dépôts et de la distribution des faciès autour de la ride diapirique du Jbel Azourki correspondent aux variations locales de subsidence liées aux mouvements de la couche de sel en profondeur, au taux de sédimentation et à leur rapport relatif. Ils s’inscrivent dans un contexte tectonique régional, et climatique global, qui définit l’accommodation générale et le type de remplissage sédimentaire du bassin atlasique. Le type de sédimentation, carbonatée ou mixte, joue un rôle prépondérant dans ces manifestations tectono-sédimentairesThe evolution of the Jurassic sedimentary systems (Pliensbachian-Bajocian) in Zaouiat-Ahançal area (High Atlas, Morocco) is locally controlled by diapiric movements related to the Jbel Azourki ridge. This nearly-60-kilometer-long complex tectonic structure follows an overall WSW-ENE “bayonet-shape” outline, punctuated by six Triassic diapiric outcrops. The aim of this thesis is to characterize the role of diapirism on depositional geometries and facies distribution in three successive sedimentary systems: (1) a shallow-carbonate platform system, (2) mixed siliciclastic- and carbonate-ramp systems and (3) an oolitic-carbonate system. Therefore, a detailed geological map with the stratigraphic and facies units has been realized, as well as a set of fourteen geological sections across the Jbel Azourki diapiric ridge. The analysis of the interactions between sedimentation and diapirism has revealed a continuous recording of diapiric deformation by the entire sedimentary succession, allowing the establishment of a chronology of diapiric activity in the Zaouiat-Ahançal area. The lower-carbonate unit (1) records a polyphase deformation with the development of localized kilometer-scale basins within the platform, characterized by hemipelagic and gravity-flow deposits (rim basins). These basins are confined around the diapirs and bounded by Lithiotis-bioconstructed platform margins, which can be aggradational or erosional. From the late Pliensbachian, the mixed units (2) were affected firstly by syn-diapiric deformations at a pluri-kilometer scale, with the accumulation of several thousand-meter-thick deposits, controlled by lateral variations of the subsidence rate in and between the northern and southern flanks of the ridge, and secondly by syn-diapiric deformations at a hectometer- “diapir-edge” scale, with characteristic geometries and facies variations (oolite- and coral-rich micro platforms). The diapiric ridge reached the surface during the deposition of the mixed units and was finally capped by slightly deformed transgressive upper-carbonate unit (3) in the late Aalenian. The controlling factors on depositional geometries and facies distribution around the Jbel Azourki diapiric ridge are the local variations of the subsidence rate related to salt-movement, the sedimentation rate, and their relative ratio. They are part of the regional tectonic and global climate settings which defined the overall accommodation rate and the sedimentary filling of the atlasic basin. The type of sedimentation, carbonate- or mixed-dominated, played a major role in these tectonic-sedimentary responses
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Mekhnache, Rachid. "Étude sédimentologique des dépôts graveleux du corridor Métabetchouan - Larouche /." Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2005. http://theses.uqac.ca.
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Oliveira, Eduardo Roemers de [UNESP]. "Contexto deposicional da sequência Balbuena III (Maastrichtiano/ Daniano) da formação Yacoraite na sub-bacia metán-alemania, na região de Salta, Argentina." Universidade Estadual Paulista (UNESP), 2014. http://hdl.handle.net/11449/127651.
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000845833.pdf: 19604263 bytes, checksum: da5bf60d26d8d411729f62858518c5fb (MD5)A Bacia de Salta localiza-se no noroeste argentino e sua origem está relacionada a um rifte intracontinental, formado durante o Cretáceo e início do Paleógeno. Subdivide-se em quatro sub-bacias (Lomas de Olmedo a leste; Sey a oeste; Tres Cruces a norte; e Metán-Alemania a sul) que foram preenchidas por sedimentos das supersequências Pirgua (fase sin-rifte) e Balbuena (fase sag). A seção sedimentar que compõe a fase sag é dividida em quatro sequências: Balbuena I, II, III e IV, da base para o topo. O presente estudo aborda a caracterização faciológica e estratigráfica com base em afloramentos da Sequência Balbuena III (Maastrichtiano/Daniano) da Fm. Yacoraite, na Sub-bacia Metán-Alemania, região do dique Cabra Corral, distrito de Coronel Moldes, Argentina. Os dados foram obtidos no levantamento de 14 seções estratigráficas verticais na escala 1:40, nas quais foram adquiridos perfis de raios gama espectral e realizada coleta de amostras para análises sedimentológicas. A análise faciológica revelou que a Sequência Balbuena III é composta por fácies carbonáticas, siliciclásticas e mistas, depositadas em ambiente lacustre. As fácies carbonáticas são constituídas por grainstones oolíticos e/ou bioclásticos, packstones oolíticos e/ou bioclásticos, rudstones e floastones bioclásticos, mudstones, laminitos e estromatólitos. As fácies siliciclásticas correspondem a arenitos muito finos ondulados, siltitos e lamitos. As litofácies de deposição mista (com componentes siliciclásticos e carbonáticos) são constituídas por arenitos híbridos e margas. As litofácies identificadas foram agrupadas em quatro associações de fácies, que a partir das observações de campo, resultaram em duas sucessões verticais ideais de fácies (sequências elementares). Tais sucessões foram hierarquizadas em sequências de média e alta frequências e puderam ser rastreadas por dezenas de quilômetros na bacia. A partir do...
The Salta Basin is located in the northwest of Argentina and its origin is related to an intracontinental rift which was formed during the Cretaceous and early Paleogene. It is subdivided into four sub-basins (Lomas de Olmedo - east; Sey - west; Tres Cruces - north; and Metán-Alemania - south) that were filled by sediments from the Pirgua (synrift phase) and Balbuena (sag phase) supersequences. The sedimentary section that forms the sag phase is divided into four sequences: Balbuena I, II, III and IV, from bottom to top. This research covers the sedimentological and stratigraphical outcrops characterization of the Balbuena III Sequence (Maastrichtian/Danian) from Yacoraite Fm., in the Metán-Alemania sub-basin, Cabra Corral dam region, district of Coronel Moldes, Argentina. The data have been collected from the survey of 14 vertical stratigraphic sections measured in these outcrops at a 1:40 scale, where spectral gamma-ray logs have been acquired and samples for sedimentological analysis have been collected. Data analysis has shown that Balbuena III Sequence consists of carbonate, siliciclastic and mixed facies which have been deposited in a lacustrine environment. The carbonate facies are formed by oolitic/bioclastic grainstones, oolitic/bioclastic packstones, bioclastic rudstones and floatstones, carbonate mudstones, laminites and stromatolites.The siliciclastic facies correspond to very fine wavy sandstones, siltstones and mudstones.The lithofacies of mixed deposition (with carbonate and siliciclastic components) consist of hybrid sandstones and marls.The identified lithofacies have been grouped into four facies associations, which from field observations, could be grouped into two ideal vertical successions of facies (elementary sequences). The observed cycles have been ranked in sequences of medium and high frequencies and could be traced for tens of kilometers in the basin. From the understanding of the distribution of...
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Ivanova, Darya. "Plasma-Facing Components in Tokamaks : Material Modification and Fuel Retention." Doctoral thesis, KTH, Fusionsplasmafysik, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-105099.
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Fuel inventory and generation of carbon and metal dust in a tokamak are perceived to be serious safety and economy issues for the steady-state operation of a fusion reactor, e.g. ITER. These topics have been explored in this thesis in order to contribute to a better understanding and the development of methods for controlling and curtailing fuel accumulation and dust formation in controlled fusion devices. The work was carried out with material facing fusion plasmas in three tokamaks: TEXTOR in Forschungszentrum Jülich (Germany), Tore Supra in the Nuclear Research Center Cadarache (France) and JET in Culham Centre for Fusion Energy (United Kingdom). Following issues were addressed: (a) properties of material migration products, i.e. co-deposited layers and dust particles; (b) impact of fuel removal methods on dust generation and on modification of plasma-facing components; (c) efficiency of fuel and deposit removal techniques; (d) degradation mechanism of diagnostic components - mirrors - and methods of their regeneration.QC 20121116
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Van, der Merwe Willem C. "Stratigraphy and facies architecture of the uppermost fan system in the Tanqua sub-basin, Permian Ecca Group, South Africa." Thesis, Stellenbosch : Stellenbosch University, 2005. http://hdl.handle.net/10019.1/50454.
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Thesis (MSc)--Stellenbosch University, 2005.ENGLISH ABSTRACT: Fan System 5 forms the uppermost submarine fan system of the Permian-age Tanqua Fan Complex (Ecca Group) of the southwestern Karoo Basin. It is the most widespread system and represents the final phase of fan deposition in the Tanqua sub-basin. Depositional characteristics differ markedly from the rest of the fan systems, mainly because it lacks sedimentary features indicative of a single point source basin floor fan. The entire system consists of six different stages of fan growth and development in the lower slope settings. A hypothetical model was composed for Fan System 5 to understand the spatial/temporal distribution of reservoir and seal facies in slope turbidite settings. The facies vary from massive amalgamated sandstone beds to thin-bedded, ripple cross-laminated sand and siltstone beds. A thick shale unit identified as a regional marker layer overlies Fan System 5. lts base is defined by the presence of a regionally developed 20 cm thick hemipelagic shale unit. Six sand-rich units with channel-complexes are present in the Klein Hangklip, Groot Hangklip, Kalkgat, Tongberg, Skoorsteenberg and Blauwkop localities. The facies characteristics in the southernmost outcrops of Fan System 5 (Groot Hangklip, Tongberg and Kalkgat) reflect deposition in a lower slope setting where local structural control seems to have played a major role in the distribution and regional development of channel-fill and overbank depositional elements. The channel-fills are arranged in vertical to off-set stacking patterns and are comprised of massive, amalgamated [me to very fine-grained sandstone units up to 30 m in thickness. They are separated by thinner sandstone/siltstone units of varying thickness. The channelization displayed by the more proximal outcrops are interpreted to represent an upper fan, deposited in a lower- to mid-slope setting. In contrast to the channel-fill deposits at Skoorsteenberg, Klein Hangklip and Groot Hangklip, ripple cross-laminated overbank deposits, associated with smaller channel-fill units, predominate in the northeastern and eastern parts of the outcrop area. Massive- and thinbedded frontal sheet sandstones constitute the down-dip extensions to the most northern outcrops of Fan System 5. Highly erosive, stacked base-of-slope channel complexes, seemingly controlled by subtle early structural features, were able to construct significant thicknesses of regionally well-developed overbank deposits, marginal to the channel complexes. These facies changes occur over relatively short distances, which hold significant implications for the prediction of and the heterogeneity of reservoir facies in slope settings. Gradients are much steeper in the lower slope to mid-slope area than on the proximal basin floor. The occurrence of soft-sediment deformation in the overbank and upper parts of the channel-fill deposits supports a slope origin. Weakly developed wave-ripple marks in the uppermost layers of Fan System 5 further indicate that water depths approached wave base prior to deposition of the upper markerbed shales. Paleotransport for Fan System 5 was towards the north, northeast and east. The palaeocurrent directions of the channel-fill complexes in Klein- and Groot Hangklip seem to roughly correspond to the structural trend of synclinal depressions in this area. However, the effect and influences of basin floor topography and structural features on deposition were determined to be minimal on the regional development and local facies control of the fan.
AFRIKAANSE OPSOMMING: Waaiersisteem 5 vorm die laaste submarine waaiersisteem van die Perm-ouderdom Tankwa Waaierkompleks (Ecca Groep) in die suidwestelike Karoo-kom. Dit vorm die mees wydverspreide sisteem en verteenwoordig ook die fmale fase van waaierafsetting in die Tankwa sub-kom. Afsettingseienskappe verskil aansienlik van die onderliggende waaiersisteme, omdat kenmerkende sedimentêre eienskappe van 'n enkele toevoer bron ontbreek. Die hele sisteem bestaan uit ses verskillende periodes van waaiergroei en ontwikkeling in die laer kornhelling omgewmgs. 'n Voorspellingsmodel is opgestel vir Waaiersisteem 5 om die ruimtelike/temporele verspreiding van die reservoir en seël fasies in kornhelling turbidiet omgewings te kan verstaan. Hierdie fasies varieer van massiewe, geamalgameerde sandsteen tot dun gelaagde riffel- lamineerde sand- en sliksteenlae. 'n Dik regionale skalie eenheid oorlê Waaiersisteem 5 en vorm die boonste merkerlaag. Die basis word onderlê deur 'n 20 cm dik regionaalontwikkelde hemipelagiese skalie laag wat die onderste merkerlaag vorm. Ses sandige eenhede met geassosieerde kanaalkomplekse is onderskeidelik teenwoordig in: Klein Hangklip, Groot Hangklip, Kalkgat, Tongberg, Skoorsteenberg en Blauwkop omgewings. Die fasies-eienskappe van die mees suidelike dagsome van Waaiersisteem 5 (Tongberg, Groot Hangklip en Kalkgat) toon afsetting in 'n laer kornhelling omgewing, waar plaaslike tektoniese effekte moontlik 'n groot rol gespeel het in die verspreiding en regionale ontwikkeling van die kanaalvulsels en geassosieerde oewerwal-afsettings. Die gestapelde, wegstand kanaalvulsels-afsettings bestaan uit massiewe, geamalgameerde fyn tot baie fynkorrelrige sandsteen eenhede, wat diktes tot ongeveer 30 m kan bereik. Dit word van mekaar geskei deur dun sandsteenlsliksteen eenhede van afwisselende diktes. Die kanaal komplekse in die mees proksimale dagsome word interpreteer as 'n bo-waaier, wat afgeset is in 'n laer- tot middel kornhelling omgewmg. In teenstelling met die kanaalvulsels in die Skoorsteenberg, Klein Hangklip en Groot Hangklip omgewings, domineer riffel kruisgelamineerde oewerwal-afsettings, geassoseer met klein kanaalvulsels, die noordoostelike en oostelike dagsome van Waaiersisteem 5. Massiewe en dungelaagde frontale plaat sandstene, kom voor in die distale helling-omgewings in die mees noordelike dagsome van Waaiersisteem 5. Hoogs eroderende, gestapelde kanaalkomplekse, aan die basis van die komhelling wat moontlik beheer is deur vroeë komvloer topografie, was die oorsaak vir regionaal goed-ontwikkelde oewerwalafsettings. Hierdie fasies-verandering vind plaas oor 'n baie kort afstand wat betekenisvolle gevolge inhou vir die voorspelling van heterogeniteit van petroleum reservoir fasies in komhelling afsetting-omgewings. Die gradiënt vir die laer komhelling tot mid-komhelling omgewings is baie steiler as die distale komvloer omgewings. Die voorkoms van sagte-sediment deformasies in die oewerwal en boliggende dele van die kanaalvulsels weerspeël 'n moontlike komhelling omgewing. Swakontwikkelde golfriffelmerke in die boonste lae van Waaiersisteem 5 dui 'n waterdiepte aan wat nabyaan golf-basis is, voordat dit deur diepmariene skalies oorlê word. Paleovloeirigtings vir Waaiersisteem 5 was in 'n noord, noordoostelike en oostelike rigting. Die paleovloeirigting vir die Klein- en Groot Hangklip kanaalkomplekse stem min of meer ooreen met die strukturele grein van die sinklinale laagtes in die omgewing. Die effek en beheer van komvloer topografie en ander strukturele faktore op afsetting was minimaalop die regionale ontwikkeling en plaaslike fasies verspreiding van die waaier.
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Weckmann, Armin. "Material migration in tokamaks: Studies of deposition processes and characterisation of dust particles." Licentiate thesis, KTH, Fusionsplasmafysik, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-178026.
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Thermonuclear fusion may become an attractive future power source. The most promising of all fusion machine concepts is the tokamak. Despite decades of active research, still huge tasks remain before a fusion power plant can go online. One of these important tasks deals with the interaction between the fusion plasma and the reactor wall. This work focuses on how eroded wall materials of different origin and mass are transported in a tokamak device. Element transport can be examined by injection of certain species of unique and predetermined origin, so called tracers. Tracer experiments were conducted at the TEXTOR tokamak before its final shutdown. This offered an unique opportunity for studies of the wall and other internal components: For the first time it was possible to completely dismantle such a machine and analyse every single part of reactor wall, obtaining a detailed pattern of material migration. Main focus of this work is on the high-Z metals tungsten and molybdenum, which were introduced by WF6 and MoF6 injection into the TEXTOR tokamak in several material migration experiments. It is shown that Mo and W migrate in a similar way around the tokamak and that Mo can be used as tracer for W transport. It is further shown how other materials - medium-Z (Ni), low-Z (N-15 and F), fuel species (D) - migrate and get deposited. Finally, the outcome of dust sampling studies is discussed. It is shown that dust appearance and composition depends on origin, formation conditions and that it can originate even from remote systems like the NBI system. Furthermore, metal splashes and droplets have been found, some of them clearly indicating boiling processes.QC 20151203
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Bhatkar, Omkar S. "Facile Fabrication of Functionally Graded Graphene Films for Transient Electronics." University of Toledo / OhioLINK, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=toledo1544623828859207.
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Anderson, Alvin D. "Geology of the Phil Pico Mountain Quadrangle, Daggett County, Utah, and Sweetwater County, Wyoming." Diss., CLICK HERE for online access, 2008. http://contentdm.lib.byu.edu/ETD/image/etd2384.pdf.
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