Global ETD Search

31	Wave-dominated deltaic systems of the Upper Cretaceous San Miguel Formation, Maverick Basin, south Texas Weise, Bonnie R. 26 June 2013 (has links) Sandstone units of the Upper Cretaceous San Miguel Formation in South Texas are wave-dominated deltaic sequences deposited during a major marine transgression. San Miguel sediments were deposited in the Maverick Basin within the Rio Grande Embayment. Cross sections and sandstone maps reveal that during deposition of the San Miguel Formation, the Maverick Basin consisted of two subbasins. A western subbasin received sediments from the northwest; the eastern subbasin received sediments from the north. Net-sandstone patterns show that the thickest parts of the sandstone bodies are generally strike oriented; where not eroded, updip sand-feeder systems are indicated by dip-aligned components. The San Miguel deltas vary considerably in morphology and make up a spectrum of wave-dominated delta types. Modern analogs of these San Miguel deltas include the Rhone, Nile, Sao Francisco, Brazos, Danube, Kelantan, and Grijalva deltas. Final sandstone geometries depended on three primary factors: (1) rate of sediment input, (2) wave energy, and (3) rate of sea-level change. Delta morphology was determined by all three factors, but the degree of reworking of deltaic sediments after delta abandonment was determined by wave energy and rate of transgression. The most common vertical sequences in the San Miguel coarsen upward from silt and clay to fine sand. Burrows are the dominant structures. The few primary structures are of small scale; large-scale cross beds are observed only in outcrop. Strandplain or barrier-island facies sequences, which prevail in most wave-dominated deltaic deposits, are incomplete in the San Miguel. In most places, only the lower shoreface is preserved. The upper parts of the sequences, which normally bear large-scale primary structures, were lost by marine reworking during subsequent transgressions. Intense burrowing destroyed any primary structures at the tops of the truncated sequences. Most of the San Miguel sandstones are arkoses. Cements include sparry and poikilotopic calcite, quartz overgrowths, feldspar overgrowths, illite rims, and kaolinite. The primary destroyers of porosity are the two types of calcite cement, which tend to completely cement the coarsest, best sorted, and originally most porous zones of the San Miguel vertical sequences. Zones of secondary porosity resulted from leaching of shell material, calcite cement, and feldspars. Laterally, the zones of either high secondary porosity or calcite cementation are unpredictable. / text Deltas--Maverick Basin (Tex. and Mexico) San Miguel Formation (Tex.) Sandstone--Texas Geology, Stratigraphic--Cretaceous
32	A two-dimensional numerical model for the investigation of the effects of dams on the Zambezi River Delta Kime, Robyn Laura 04 1900 (has links) Thesis (MEng)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: The Zambezi River is the largest east-draining river in Africa. It captures runoff from 8 different countries before draining into the Indian Ocean in Mozambique through the Zambezi Delta which is recognised as a (Ramsar) Wetland of international importance. The Zambezi River flows are currently regulated by four large hydropower dams within its catchment. Much attention has been given in recent literature to the detrimental effects of the altered flow regime as a result of dams on the Zambezi River and the Delta in particular. Existing research relating to these negative effects includes many detailed ecological, hydrological and qualitative morphological studies but to date no detailed morphological modelling studies have been conducted in this regard. In this thesis a two-dimensional coupled hydrodynamic and morphological numerical model of the Zambezi Delta is created using topographical information obtained from a navigational study (Rio Tinto, 2011). The model hydrodynamics are calibrated using recorded water levels and flows at two gauging stations within the model domain. The bed load sediment transport is calibrated using field measurements (ASP, 2012b). The effects of dams on the Zambezi Delta are investigated by performing two 10 year simulations, one representing the current (post-dam) scenario and the other representing a pre-dam scenario. These simulation results show a significant decrease in flooded areas and sediment movement on the floodplains as a result of dams. Additional effects on channel widths and depth, on bed gradings, and on tidal water level variations are analysed. The model is then used to simulate a proposed environmental flood release scenario. Such releases have been recommended as a means to partially mitigate the negative impacts of dams on the Zambezi River. In this case an annual flood release supplying a peak flow of 8500 m3/s (slightly less than the pre-dam mean annual flood of 10 000 m3/s) was found to cause slightly more flooding of the close floodplains and to have small effects on the river channel width. The model predicts hydrodynamics and bed sediment transport of non-cohesive sediments with suitable accuracy but an issue with the suspended transport of cohesive sediments was identified. Recommendations are made for addressing the suspended sediment transport inaccuracy. The model, in its current form, can provide quantitative information regarding the hydrodynamics and course sediment transport of the general delta region on a coarse scale. With additional computational resources and accurate topographical information the model can be refined to give accurate predictions for localised areas within the delta. Such information would be valuable to specialist studies addressing the environmental effects of various proposed flooding scenarios or future dams. / AFRIKAANSE OPSOMMING: Die Zambezirivier is die grootste oos-dreineerende rivier in Afrika. Dit ontvang afloop van ag verskillende lande voor dit in die Indiese Oseaan in Mozambiek uitmond. Die Zambezidelta work erken as 'n RAMSAR vleiland van internasionale belang. Die vloei in die rivier word tans gereguleer deur vier groot hidro-elektriese damme binne sy opvangsgebied. Baie aandag is in die onlangse literatuur gegee aan die nadelige gevolge van die veranderde vloei as gevolg van damme op die Zambezi Rivier en spesifiek op die Delta. Bestaande navorsing met betrekking tot hierdie negatiewe effekte sluit in detail ekologiese, hidrologiese en kwalitatiewe morfologiese studies, maar tot op datum is geen gedetailleerde morfologiese modelleringstudies gedoen nie. In hierdie tesis is 'n twee-dimensionele gekoppelde hidrodinamiese en morfologiese numeriese model van die Zambezi Delta geskep met behulp van topografiese inligting wat verkry is uit 'n navigasiestudie (Rio Tinto, 2011). Die model hidrodinamika is gekalibreer deur teen watervlakke en vloei by twee meetstasies in die model domein. Die bedvrag sedimentvervoer is gekalibreer met behulp van veldmetings (ASP, 2012b). Die ȉnvloed van die damme op die Zambezi Delta is ondersoek deur twee 10-jarige simulasies, een wat die huidige ( na-dam ) scenario en die ander wat 'n voor-dam scenario ondersoek. Hierdie simulasie resultate toon 'n beduidende afname in die oorstroomde gebiede en sedimentbeweging op die vloedvlaktes as gevolg van damme. Bykomende effekte op kanaalbreedtes en -diepte, op die bedgraderings , en op getywatervlak variasies is ontleed. Die model is vervolgens gebruik om 'n voorgestelde omgewingings vloedloslaating te ondersoek. Sodanige loslaatings is aanbeveel om die negatiewe impak van damme op die rivier gedeeltelik te verminder. In hierdie geval gee 'n jaarlikse vloedloslaating met 'n piekvloei van 8500 m3/s (effens minder as die voor-dam gemiddelde jaarlikse vloed van 10 000 m3/s) effens meer oorstromings van die vloedvlaktes en het 'n klein uitwerking op die rivierkanaalbreedte. Die model voorspel die hidrodinamika en bedsedimentvervoer van nie-kohesiewe sedimente met betroubaarheid, maar 'n probleem met die vervoer van kohesiewe sedimente is geïdentifiseer. Aanbevelings word gemaak vir die aanspreek van die kohesiewe sedimentvervoer onakkuraatheid. Die model, in sy huidige vorm, kan kwantitatiewe inligting oor die hidrodinamika en natuurlik sedimentvervoer van die algemene delta streek by benadering verskaf. Met bykomende rekenaar hulpbronne en akkurate topografiese inligting kan die model verfyn word om akkurate voorspellings vir plaaslike gebiede binne die delta te gee. Sulke inligting kan waardevol wees vir spesialis-studies van die omgewingsimpakte van verskillende voorgestelde vloedloslaatings of toekomstige damme. River morphology Numerical modelling Dam -- Environmental aspects Sediment transport Zambezi River Valley Deltas -- Mozambique Dissertations -- Civil engineering UCTD Theses -- Civil engineering
33	Le Crétacé Supérieur - Paléogène du Bassin Compressif Nord-Pyrénéen (Bassin de l'Adour). Sédimentologie, Stratigraphie, Géodynamique. Serrano, Olivier 06 April 2001 (has links) (PDF) Les bassins sédimentaires sont l'expression de déformations lithosphériques. Plus la durée de vie d'un bassin est longue, plus sa probabilité de changer de nature géodynamique est forte. De nombreux bassins enregistrent le passage d'un régime extensif à un régime compressif. Cette évolution peut se traduire par un arrêt définitif de son fonctionnement, ou à l'inverse, par une réorganisation majeure de la subsidence et des faciès. Ces évolutions sont de type marge passive / marge active ou de type bassin intracratonique / bassin d'avant-pays, voire rift oblique / avant-pays. Si le premier type d'évolution a fait l'objet de nombreuses modélisations, ce n'est pas le cas du dernier. Le propos de ce travail est d'étudier les modalités de passage d'un rift oblique à un bassin d'avant-pays et ses conséquences sur l'enregistrement sédimentaire à partir de l'analyse 3D des géométries sédimentaires (Serrano et al., 2001). Le domaine étudié est le bassin d'Aquitaine du Crétacé supérieur au Paléogène, durant la 'convergence Ibérie-Eurasie et sa conséquence: la formation de la chaîne des Pyrénées. En effet, si l'histoire du Crétacé inférieur à l'Eocène supérieur est relativement bien connue, avec (1) un rift oblique au Crétacé inférieur et (2) la "phase" dite pyrénéenne à l'Eocène moyen-supérieur, les modalités d'évolution de l'un à l'autre demeurent sujettes à nombreuses discussions. Nous nous proposons donc, d'apporter de nouveaux éléments pour contraindre cette étape cruciale de l'histoire du bassin d'Aquitaine que constitue le passage d'un régime extensif à un régime compressif. Cette démarche repose sur une analyse 3D des géométries sédimentaires selon les principes de la stratigraphie séquentielle, sur puits et sismique. Aquitaine Crétacé supérieur / Paléogène bassin d'avantpays Pyrénées stratigraphie séquentielle sédimentologie sismique plates-formes carbonatées deltas
34	Shelf-edge deltas : stratigraphic complexity and relationship to deep-water deposition Dixon, Joshua Francis 08 November 2013 (has links) This research investigates the character and significance of shelf-edge deltas within the sedimentary source-to-sink system, and how variability at the shelf edge leads to different styles of deep-water deposition. Because the shelf-edge represents one of the key entry points for terrigenous sediment to be delivered into the deep water, understanding of the sedimentary processes in operation at these locations, and the character of sediment transported through these deltas is critical to understanding of deep-water sedimentary systems. The research was carried out using three datasets: an outcrop dataset of 6000 m of measured sections from the Permian-Triassic Karoo Basin, South Africa, a 3D seismic data volume from the Eocene Northern Santos Basin, offshore Brazil and a dataset of 29 previously published descriptions of shelf-edge deltas from a variety of locations and data types. The data presented highlight the importance of sediment instability in the progradation of basin margins, and deep-water transport of sediment. The strata of the Karoo Basin shelf margin represent river-dominated delta deposits that become more deformed as the shelf-edge position is approached. At the shelf edge, basinward dipping, offlapping packages of soft-sediment-deformed and undeformed strata record repetitive collapse and re-establishment of shelf-edge mouth bar packages. The offlapping strata of the Karoo outcrops record progradation of the shelf margin through accretion of the shelf-edge delta, for over 1 km before subsequent transgression. The Eocene Northern Santos Basin shelf margin, in contrast, exhibits instability features which remove kilometers-wide wedges of the outer shelf that are transported to the basin floor to be deposited as mass-transport packages. In this example, shelf-edge progradation is achieved through „stable. accretion of mixed turbidites and contourites. The data also emphasize the importance of the role of shelf-edge delta processes in the delivery of sediment to the basin floor. A global dataset of 29 examples of shelf-edge systems strongly indicates that river domination of the shelf-edge system (as read from cores, well logs or isopach maps) serves as a more reliable predictor of deep-water sediment delivery and deposition than relative sea level fall as traditionally read in shelf-edge trajectories or sequence boundaries. / text Shelf-edge deltas Karoo Basin Northern Santos Basin Predictive stratigraphy Basin-floor fan Source to sink Deep-water deposition South Africa 3D seismic data Brazil Sedimentation
35	L'évolution des formes et de la morphodynamique en domaine littoral volcanique : recherches dans l'archipel d'Hawaï Marie, Guillaume 17 December 2004 (has links) (PDF) Différents cycles ont été reconnus dans l'évolution des littoraux volcaniques de l'archipel d'Hawaï en lien avec des changements dans les processus d'érosion. Le développement d'un delta de lave dépend de l'extension du tapis de débris formés lors de réactions hydromagmatiques, elle-même tributaire de la topographie sous-marine. L'effondrement du delta lors d'un mouvement de masse dans le soubassement engendre des risques importants pour les promeneurs lorsque la forme est en construction et durant sa première année d'inactivité. La stabilisation rapide de l'assise de débris en quelques années diminue fortement le recul de la falaise qui s'effectue désormais par le biais des agents marins et de la gravité, surtout lors d'éboulements et de basculements de pans de falaise, dont l'occurrence est décroissante.<br /><br />Le recul par genèse de grottes et d'arches est également courant, entraînant une irrégularisation longitudinale du trait de côte avant sa simplification. La formation de gradins par délogement latéral élabore une plate-forme en escalier. Des banquettes d'érosion marine de haute mer, en partie structurales, peuvent aussi être façonnées, mais elles sont rapidement immergées par l'élévation du niveau relatif de la mer consécutive à la subsidence volcano-isostasique. Sur le long terme, les glissements de terrain deviennent plus fréquents sur les grandes falaises plus anciennes.<br /><br />Les formes de détail se développent également sur ces littoraux ayant subi une plus longue évolution. Lorsque les conditions sont favorables, des formes d'alvéolisation peuvent néanmoins être façonnées rapidement, notamment lorsque la texture plus résistante de la croûte superficielle permet la mise en surplomb. Les processus de météorisation semblent être confinés au niveau des discontinuités de la roche. Leur efficacité différenciée selon la durée d'émersion, notamment celle de l'haloclastie, façonne des plates-formes à rempart externe initiées à partir de banquettes d'origine eustatique. géomorphologie littoral volcanisme côtes rocheuses falaises deltas de lave microformes taffonis morphodynamique éboulements corrosion littorale risques volcaniques Hawaï États-Unis d'Amérique
36	Signatures des paléo-pollutions et des paléo-environnements dans les archives sédimentaires des ports antiques de Rome et d’Éphèse / Fingerprints of the paleo-pollutions and the paleo-environments in sedimentary archives of the ancient harbors of Rome and Ephesus Delile, Hugo 05 September 2014 (has links) Rome et Éphèse sont deux villes portuaires emblématiques de la Méditerranée antique ; la première fut le centre de l’Empire romain et la seconde devint la capitale romaine d’Asie mineure à la fin du 1er s. av. J.-C. Leur rayonnement économique et commercial en Méditerranée reposa notamment sur leur système portuaire. Cette étude a pour vocation de retranscrire le développement économique de ces deux cités par le signal des paléo-pollutions. Pour mener à bien ces travaux, nous avons prélevé des carottes dans les archives sédimentaires des bassins portuaires sur lesquels les isotopes du plomb ont été mesurés. La reconstitution des paléo-environnements par la géochimie élémentaire a été un préalable indispensable. Sur le temps long, la dynamique des masses d’eau portuaires fut visiblement soumise à la progradation des systèmes deltaïques, ainsi qu’aux interventions humaines qui modifièrent les environnements aquatiques initialement ouverts et bien oxygénés au profit de milieux fermés en déficit de dioxygène. Ce confinement des bassins portuaires franchit un seuil irréversible pour la navigation dès lors qu’un régime épilimnique se mit en place en raison d’une trop faible profondeur de la colonne d’eau. Les niveaux de contamination au plomb ont relativement bien enregistré l’état de santé économique de Rome et d’Éphèse qui évolua notamment au gré des périodes de prospérité et de troubles. Cependant, l’évolution des conditions environnementales et les multiples dragages semblent avoir altéré une partie de ces enregistrements. Les données isotopiques du plomb, converties en paramètres géologiques (Tmod, μ et к), nous ont également permis d’émettre des hypothèses sur les sources d’approvisionnement en minerais de plomb à l’origine de ces pollutions. On peut en retenir que les stratégies d’alimentation en plomb à l’époque romaine furent locales. En effet, il semble assez logique que ces deux cités aient dominé les espaces économiques environnants avec lesquelles elles étaient en contact. En revanche, alors que l’entrée dans le Moyen Âge s’accompagne du déclin de Rome, Éphèse retrouve sa prospérité passée avec l’importation de plomb hercynien d’Europe de l’Ouest produit massivement à la suite de la révolution économique médiévale. / Rome and Ephesus are two iconic harbor cities of the ancient Mediterranean; the first was the center of the Roman Empire and the second became the Roman capital of Asia Minor at the end of the 1st c. BC. The economic and commercial influence of these two ports in the Mediterranean depended heavily on their harbor systems. The aim of this study is to discern the economic development of Rome and Ephesus from the geochemical signals of the pollution they were exposed to. To this end, we drilled cores through the sedimentary archives of the two ancient harbors and measured major and trace element concentrations and Pb isotope compositions. Both harbors were subject to delta progradation, Rome by the Tiber and Ephesus by the Caÿster, which changed the aquatic environments from being initially open and well oxygenated to becoming closed and anoxic. The harbor basins finally shut down for shipping when an epilimnic system came into place due to too shallow a depth of the water column. Although changing environmental conditions and multiple dredgings appear to have altered some parts of the geochemical record, the pollution levels of lead quite accurately reflect the state of the economic health of Rome and Ephesus, which evolved the most during periods of prosperity and disorder. Pb isotope data, converted into geological parameters (Tmod, μ and к), further allowed deducing the provenance of the geological sources of lead ores at the origin of the pollution. Based on these results, it appears that lead ore supplies during the Roman period were of local origins, reflecting how Rome and Ephesus dominated the surrounding economic areas with which they were in contact. However, while the beginning of the Middle Ages is accompanied by a decline of Rome, Ephesus regains its past prosperity with the importation of Hercynian lead from western Europe. It was produced massively as a result of the medieval economic revolution that Europe experienced from the 10th century onward. Géoarchéologie Ports antiques Paléo-pollutions Paléo-environnements Géochimie Sédimentologie Plomb Isotopes du Pb Rome Éphèse Deltas du Tibre et du Caÿstre Italie Turquie Geoarcheology Ancient harbors Paleo-pollution Paleo-environments Geochemistry Sedimentology Lead Pb isotopes Rome Ephesus Tiber Caÿster Delta Italy Turkey
37	Controls on sedimentary processes and 3D stratigraphic architecture of a mid-Miocene to recent, mixed carbonate-siliciclastic continental margin : northwest shelf of Australia Sanchez, Carla Maria, 1978- 11 July 2012 (has links) Determining the relative importance of processes that control the generation and preservation of continental margin stratigraphy is fundamental to deciphering the history of geologic, climatic and oceanographic forcing imprinted on their sedimentary record. The Northern Carnarvon Basin (NCB) of the North West Shelf of Australia has been a site of passive margin sedimentation throughout the Neogene. Cool-water carbonate sedimentation dominated during the early-middle Miocene, quartz-rich siliciclastics prograded over the shelf during the late-middle Miocene, and carbonate sedimentation resumed in the Pliocene. Middle Miocene to Pliocene siliciclastics were deposited as clinoform sets interpreted as delta lobes primarily based on their plan-view morphology and their relief of 40-100 m. Shelf-edge trajectory analysis suggests that part of this stratigraphic succession was built during a long-term, third order, regressive phase, producing shelf-edge deltas, followed by an aggradational episode. These trends appear to correlate with third-order global eustatic cycles. Slope incisions were already conspicuous on the slope before deltas reached the shelf-break. Nevertheless, slope gullies immediately downdip from the shelf-edge deltas are wider and deeper (>1 km wide, ~100 m deep) than coeval incisions that are laterally displaced from the deltaic depocenter (~0.7 km wide, ~25 m deep). This change in gully morphology is likely the result of greater erosion by sediment gravity flows sourced from shelf-edge deltas. Total late-middle to late Miocene margin progradation increased almost three times from 13 km in the southwest to 34 km in the northeast, where shelf-edge deltas were concentrated. Flat-topped carbonate platforms seem to have initiated on subtle antecedent topographic highs resulting from these deltaic lobes. A reduction of siliciclastic supply to the outer paleo-shelf during the Pliocene combined with the onset of a southwestward-flowing, warm-water Leeuwin Current (LC) most likely controlled the initiation of these carbonate platforms. These platforms display marked asymmetry, likely caused by an ancestral LC, which created higher-angle, upcurrent platform margins, and lower-angle, downcurrent clinoforms. The along-strike long-term migration trend of the platforms could be the result of differential subsidence. These platforms constitute the first widespread accumulation of photozoan carbonates in the Northern Carnarvon Basin. They became extinct after the mid-Pleistocene when the LC weakened or became more seasonal. / text Deltas Shelf-margin Progradation Slope gullies Carbonate platforms Shelf-edge trajectory Sea level Northern Carnarvon Basin Sedimentary processes Mid-Miocene Siliciclastics Continental margin stratigraphy Northwest shelf of Australia Leeuwin current Northern Carnavorn Basin
38	The terraces of the Conway Coast, North Canterbury: Geomorphology, sedimentary facies and sequence stratigraphy McConnico, Tim January 2012 (has links) A basin analysis was conducted at the Conway Flat coast (Marlborough Fault Zone, South Island, New Zealand) to investigate the interaction of regional and local structure in a transpressional plate boundary and its control on basin formation. A multi-tiered approach has been employed involving: (i) detailed analysis of sedimentary deposits; (ii) geomorphic mapping of terraces, fault traces and lineaments; (iii) dating of deposits by 14C and OSL and (iv) the integration of data to form a basin-synthesis in a sequence stratigraphy framework. A complex thrust fault zone (the Hawkswood Thrust Fault Zone), originating at the hinge of the thrust-cored Hawkswood anticline, is interpreted to be a result of west-dipping thrust faults joining at depth with the Hundalee Fault and propagating eastwards. The faults uplift and dissect alluvial fans to form terraces along the Conway Flat coast that provide the necessary relief to form the fan deltas. These terrace/fan surfaces are ~9 km long and ~3 km wide, composite features, with their upper parts representing sub-aerial alluvial fans. These grade into delta plains of Quaternary Gilbert-style fan deltas. Uplift and incision have created excellent 3D views of the underlying Gilbert-style fan delta complexes from topsets to prodelta deposits. Erosive contacts between the Medina, Rafa, Ngaroma and modern Conway fan delta deposits, coupled with changes in terrace elevations allow an understanding of the development of multiple inset terraces along the Conway Flat coast. These terraces are divided into five stages of evolution based on variations in sedimentary facies and geomorphic mapping: Stage I involves the uplift of the Hawkswood Range and subsequent increased sedimentation rate such that alluvial fans prograded to the sea to form the Medina fan delta Terrace. Stage II began with a period of incision, from lowering sea level or changes in the uplift and sedimentation rate and continued with the deposition of the Dawn and Upham fan deltas. Stage III starts with the incision of the Rafa Terrace and deposition of aggradational terraces in the upper reaches. Stage IV initiated by a period of incision followed by deposition of estuarine facies at ~8ka and Stage V began with a period of incision and continues today with the infilling of the incised valley by the modern fan delta of the Conway River and its continued progradation. New dates from within the Gilbert-type fan deltas along the Conway Flat coast are presented, using OSL and 14C dating techniques. Faulting at the Conway Flat coast began ~ 94 ka, based on the development of the Medina Terrace fan delta with uplift rates ~1.38~1.42 m/ka. The interplay of tectonics and sea level fluctuations continued as the ~79 ka Rafa Terrace fan deltas were created, with uplift rates calculated at ~1.39 m/ka. Detailed 14C ages from paleoforest (~8.4-~6.4 ka) in the Ngaroma Terrace and from the mouths of smaller streams have established uplift rates during the Holocene ~1-3 m/ka, depending on sea level. Gilbert-type Fan Deltas Hawkswood Thrust Fault Zone Marlborough Fault Zone Sequence Stratigraphy Clast Imbrication Fabric Sediment Gravity Flows Foreset Processes Slumps Incision Terrace Geomorphology Geomorphic Mapping Conway Flat Coast New Zealand
39	Processes and controls on shelf margin accretion and degradation : Karoo Basin, South Africa Gomis Cartesio, Luz January 2018 (has links) The interaction of numerous sedimentary processes at key transition points along the depositional profile results in a complex heterogeneity in ancient basin margin successions. This complexity is generally well studied along depositional dip sections, but lateral (strike) variability and consequent implications for sediment distribution and stratigraphic architecture is commonly less well constrained. In the Karoo Basin, continuous NW-SE-oriented exposure over 80 km has been characterized by 53 logs with 9910 m of cumulative thickness, >2500 palaeocurrent measurements, and ground-, drone- and helicopter-based photo panels. Palaeoflow indicators suggest dominant sediment transport was to the N-NE, with E-W and NE-SW bidirectional components. These are consistent with a strike orientation of the outcrop belt relative to the NE-N margin progradation direction and a NE-SW reworking by waves orientation. In the south of the study area, upper slope and shelf edge parasequences (50-75 m-thick), show current ripples and inverse-to-normal grading in micaceous and organic-rich siltstones and sandstones. They are interpreted as river-dominated prodelta and mouth bar deposits, locally incised by distributary channels (100 m-thick, 1.5 km-wide). Overlying shelf parasequences are thinner (15-50 m) with symmetrical ripple tops, HCS and low angle cross bedding, interpreted as wave-influenced deltaic or shoreface deposits. They transition upward into erosive-based, fining-up sandstones and isolated sharp-based tabular climbing-rippled sandstones, interpreted as channels and crevasse splays within delta plain mudstones. Along strike to the north, upper slope parasequences show more wave reworking indicators and no evidence of gullying or incision. Overlying shelf parasequences are sandier, more amalgamated and strongly influenced by wave action. They are interpreted as offshore, shoreface, foreshore and strandplain deposits. Southern nearshore environments were therefore more river-dominated with bypass and sediment delivery to deeper parts of the basin across a steep, more erosive margin. Wave and storm current redistribution along strike to the northern, lower gradient margin resulted in higher net-to-gross and sand connectivity on a wider shelf, without major incision, bypass and sand supply to the upper slope. No evidence of major avulsions in the upstream tributary and distributary systems are interpreted because the bypass and fluvial-dominated characteristics are persistent in the southern areas through time, whereas the northern margin maintained a sand-starved upper slope and a wave dominated shelf succession. The overall thicker and delta- dominated succession in the south, and the thinner, more condensed and wave dominated stratigraphy in the north are interpreted to be controlled by a combination of basement and basin configuration and differential basin margin physiography. However, relative sea level fluctuations controlled the stacking patterns, with an overall shallowing-upward profile that can be subdivided into two prograding phases, separated by a transgressive phase. At parasequence scale, climate, autocyclicity and coastal processes influenced the equilibrium between sediment input, redistribution and compensational stacking. This study demonstrates that although basin margin successions may be consistently progradational, the interaction of mixed coastal processes and differential spatial configuration can result in a complex along-strike sedimentary architecture, with major implications for sediment distribution through time and space.

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