Descrição osteológica de um exemplar de Endothiodon (Synapsida, Dicynodontia) proveniente da Serra do Cadeado (Formação Rio Do Rasto, Permiano Superior) e suas implicações bioestratigráficas e paleobiogeográficas

Boos, Alessandra Daniele da Silva

January 2012

A presente dissertação de mestrado apresenta uma descrição detalhada do primeiro dicinodonte reportado para o Permiano da América do Sul. O material (PV 0226) é composto por um crânio parcial e mandíbulas associadas, proveniente da Serra do Cadeado, estado do Paraná, Formação Rio do Rasto. O espécime foi descrito preliminarmente na década de 70 e atribuído ao gênero Endothiodon. Tal classificação implicava em uma correlação direta com algumas das consagradas biozonas do Grupo Beaufort da África do Sul, já que este táxon é encontrado nesse depósito. Assim, o principal objetivo deste trabalho era verificar a identidade taxonômica do material brasileiro, e a partir da confirmação ou da proposição de outra identificação para o espécime, discutir brevemente as implicações bioestratigráficas e paleobiogeográficas da presença deste fóssil no Brasil. O exemplar em questão foi comparado com espécimes de Endothiodon da coleção do American Museum of Natural History, e uma extensa revisão bibliográfica foi realizada para obter informações sobre espécimes depositados em outras instituições. Por fim, o material brasileiro foi confirmado como pertencendo ao táxon Endothiodon, devido à presença de: forame pineal situado em uma bossa, protuberâncias em forma de bulbo localizadas na face antero-lateral dos dentários, bossa situada na margem ventral do jugal, grande número de dentes inseridos na superfície dorso-medial do dentário, sulco do dentário lateral à fileira de dentes na mandíbula, porção mais anterior da mandíbula em forma de um bico curvo e pontiagudo, entre outras características. Entretanto, não foi possível atribuir a este exemplar uma das quatro espécies do gênero, visto que a atual separação das espécies é dada basicamente por diferenças no comprimento do crânio. Esta feição pode refletir meramente o estágio ontogenético dos indivíduos e não diferenças em nível específico, exceto para E. mahalanobisi que aparenta ser uma forma de pequeno porte. Na realidade, outras características (região interorbital larga, presença de sínfise do dentário grácil ou robusta) apontadas como diagnósticas para o táxon são problemáticas e deveriam ser evitadas ou substituídas por outras mais informativas. Além disso, a forma de Endothiodon do Brasil apresenta uma estrutura denominada “dentary table”, recentemente identificada neste gênero. Em relação à bioestratigrafia, as correlações propostas para as faunas de tetrápodes da Formação Rio do Rasto ressaltam a semelhança dessas com associações faunísticas do Meso e Neopermiano da África do Sul e do Leste Europeu. Porém, até o momento, essas correlações são tentativas, pois poucos elementos dessas faunas são conhecidos para o Brasil e sobre estes, faltam informações relativas aos níveis estratigráficos em que foram coletados. Este último fator gera incertezas em relação à contemporaneidade dos fósseis encontrados em uma mesma localidade. Sobre a aparente escassez de vertebrados para esta formação, quando comparada a outros depósitos de mesma idade, esta parece advinda de um artifício de coleta, ou seja, o material conhecido até o momento não reflete a diversidade que essas localidades devem abrigar. O estudo detalhado de PV 0226 resultou em um artigo submetido para publicação em um periódico de cunho paleontológico. / The present master´s thesis presents a detailed description of the first dicynodont reported for the Permian of South America. The material (PV 0226) comprises a partial skull and associated lower jaws, collected in the Serra do Cadeado locality, Paraná state, Rio do Rasto Formation. The specimen was described preliminary during the 1970´s and assigned to the genus Endothiodon. This identification implied a direct correlation with some of the well-established biozones of the Beaufort Group, South Africa, since this taxon is found in this deposit. Thus, the main objective of this work was to verify the taxonomic identity of the Brazilian material and based on the confirmation or proposition of another classification for the specimen, to discuss briefly the biostratigraphic and palaeobiogeogrpahic implications of the presence of this fossil in Brazil. The specimen studied herein was compared with Endothiodon material housed in the collections of the American Museum of Natural History, and an extensive review of the literature was carried out in order to collect information about specimens housed in other institutions. Finally, it was confirmed the material from Brazil belongs to Endothiodon, due to the presence of: pineal foramen situated on a boss, prominent bulbous swellings on the anterolateral sides of the dentary, boss situated on the ventral margin of the jugal, extensive number of teeth on the mid-dorsal surface of the dentary, dentary sulcus lateral to the lower teeth row, anterior portion of the lower jaw prolonged into upwardly curved and pointed beak, among other characteristics. However, it was not possible to assign the material to one of the four species of the genus, as the current distinction of them is based mainly on differences in the skull lenghth. This feature may reflect merely the ontogenetic stage of the specimens and not differences at species level (except from E. mahalanobisi, which seems to be a small form). In fact, other characters (wide interorbital region, slender or robust dentary symphysis) pointed as diagnostic for this taxon are problematic and should be avoided or substituted for others more informative. Besides, the Brazilian form of Endothiodon bears a dentary table, recently indentified in this genus. Regarding biostratigraphy, the correlations proposed for the tetrapod faunas of the Rio do Rasto Formation highlight the similarities between these associations and others from the Mid and Late Permian of South Africa and Eastern Europe. But, until now, these correlations are tentative because few elements of these faunas were recovered from Brazil and most of them lack data about the stratigraphic levels from where they were collected. The latter leads to uncertainty concerning the age of the fossils found in the same locality. About the apparent poverty of vertebrates for this formation when compared to other deposits of the same age, it seems to be a collecting artifact, i.e. the amount of material recovered from this formation until the present does not reflect the potential diversity of it. The detailed study of PV 0226 resulted in an article submitted to a palaeontological journal.

Paleontologia

Bioestratigrafia

Dicinodontes

Dicynodontia

Biostratigraphy

Rio do Rasto formation

Permian

Paraná basin

Karoo basin

Palaeobiogeography

Descrição osteológica de um exemplar de Endothiodon (Synapsida, Dicynodontia) proveniente da Serra do Cadeado (Formação Rio Do Rasto, Permiano Superior) e suas implicações bioestratigráficas e paleobiogeográficas

Boos, Alessandra Daniele da Silva

January 2012

A presente dissertação de mestrado apresenta uma descrição detalhada do primeiro dicinodonte reportado para o Permiano da América do Sul. O material (PV 0226) é composto por um crânio parcial e mandíbulas associadas, proveniente da Serra do Cadeado, estado do Paraná, Formação Rio do Rasto. O espécime foi descrito preliminarmente na década de 70 e atribuído ao gênero Endothiodon. Tal classificação implicava em uma correlação direta com algumas das consagradas biozonas do Grupo Beaufort da África do Sul, já que este táxon é encontrado nesse depósito. Assim, o principal objetivo deste trabalho era verificar a identidade taxonômica do material brasileiro, e a partir da confirmação ou da proposição de outra identificação para o espécime, discutir brevemente as implicações bioestratigráficas e paleobiogeográficas da presença deste fóssil no Brasil. O exemplar em questão foi comparado com espécimes de Endothiodon da coleção do American Museum of Natural History, e uma extensa revisão bibliográfica foi realizada para obter informações sobre espécimes depositados em outras instituições. Por fim, o material brasileiro foi confirmado como pertencendo ao táxon Endothiodon, devido à presença de: forame pineal situado em uma bossa, protuberâncias em forma de bulbo localizadas na face antero-lateral dos dentários, bossa situada na margem ventral do jugal, grande número de dentes inseridos na superfície dorso-medial do dentário, sulco do dentário lateral à fileira de dentes na mandíbula, porção mais anterior da mandíbula em forma de um bico curvo e pontiagudo, entre outras características. Entretanto, não foi possível atribuir a este exemplar uma das quatro espécies do gênero, visto que a atual separação das espécies é dada basicamente por diferenças no comprimento do crânio. Esta feição pode refletir meramente o estágio ontogenético dos indivíduos e não diferenças em nível específico, exceto para E. mahalanobisi que aparenta ser uma forma de pequeno porte. Na realidade, outras características (região interorbital larga, presença de sínfise do dentário grácil ou robusta) apontadas como diagnósticas para o táxon são problemáticas e deveriam ser evitadas ou substituídas por outras mais informativas. Além disso, a forma de Endothiodon do Brasil apresenta uma estrutura denominada “dentary table”, recentemente identificada neste gênero. Em relação à bioestratigrafia, as correlações propostas para as faunas de tetrápodes da Formação Rio do Rasto ressaltam a semelhança dessas com associações faunísticas do Meso e Neopermiano da África do Sul e do Leste Europeu. Porém, até o momento, essas correlações são tentativas, pois poucos elementos dessas faunas são conhecidos para o Brasil e sobre estes, faltam informações relativas aos níveis estratigráficos em que foram coletados. Este último fator gera incertezas em relação à contemporaneidade dos fósseis encontrados em uma mesma localidade. Sobre a aparente escassez de vertebrados para esta formação, quando comparada a outros depósitos de mesma idade, esta parece advinda de um artifício de coleta, ou seja, o material conhecido até o momento não reflete a diversidade que essas localidades devem abrigar. O estudo detalhado de PV 0226 resultou em um artigo submetido para publicação em um periódico de cunho paleontológico. / The present master´s thesis presents a detailed description of the first dicynodont reported for the Permian of South America. The material (PV 0226) comprises a partial skull and associated lower jaws, collected in the Serra do Cadeado locality, Paraná state, Rio do Rasto Formation. The specimen was described preliminary during the 1970´s and assigned to the genus Endothiodon. This identification implied a direct correlation with some of the well-established biozones of the Beaufort Group, South Africa, since this taxon is found in this deposit. Thus, the main objective of this work was to verify the taxonomic identity of the Brazilian material and based on the confirmation or proposition of another classification for the specimen, to discuss briefly the biostratigraphic and palaeobiogeogrpahic implications of the presence of this fossil in Brazil. The specimen studied herein was compared with Endothiodon material housed in the collections of the American Museum of Natural History, and an extensive review of the literature was carried out in order to collect information about specimens housed in other institutions. Finally, it was confirmed the material from Brazil belongs to Endothiodon, due to the presence of: pineal foramen situated on a boss, prominent bulbous swellings on the anterolateral sides of the dentary, boss situated on the ventral margin of the jugal, extensive number of teeth on the mid-dorsal surface of the dentary, dentary sulcus lateral to the lower teeth row, anterior portion of the lower jaw prolonged into upwardly curved and pointed beak, among other characteristics. However, it was not possible to assign the material to one of the four species of the genus, as the current distinction of them is based mainly on differences in the skull lenghth. This feature may reflect merely the ontogenetic stage of the specimens and not differences at species level (except from E. mahalanobisi, which seems to be a small form). In fact, other characters (wide interorbital region, slender or robust dentary symphysis) pointed as diagnostic for this taxon are problematic and should be avoided or substituted for others more informative. Besides, the Brazilian form of Endothiodon bears a dentary table, recently indentified in this genus. Regarding biostratigraphy, the correlations proposed for the tetrapod faunas of the Rio do Rasto Formation highlight the similarities between these associations and others from the Mid and Late Permian of South Africa and Eastern Europe. But, until now, these correlations are tentative because few elements of these faunas were recovered from Brazil and most of them lack data about the stratigraphic levels from where they were collected. The latter leads to uncertainty concerning the age of the fossils found in the same locality. About the apparent poverty of vertebrates for this formation when compared to other deposits of the same age, it seems to be a collecting artifact, i.e. the amount of material recovered from this formation until the present does not reflect the potential diversity of it. The detailed study of PV 0226 resulted in an article submitted to a palaeontological journal.

Paleontologia

Bioestratigrafia

Dicinodontes

Dicynodontia

Biostratigraphy

Rio do Rasto formation

Permian

Paraná basin

Karoo basin

Palaeobiogeography

Hydrocarbon potential of the Prince Albert Formation, Ecca Group in the main Karoo Basin, South Africa.

Mosavel, Haajierah

January 2020

Philosophiae Doctor - PhD / This thesis focusses on the hydrocarbon potential of the Prince Albert Formation in terms of its shale gas potential. Unconventional gas production from hydrocarbon-rich shale formations, known as “shale gas”, is one of the most rapidly expanding trends in onshore oil and gas exploration and exploitation today. In South Africa, the southern portion of the main Karoo Basin is potentially favourable for shale gas accumulation and may become a game changer in the energy production regime of the country. The Prince Albert Formation was selected for research, since previous studies in South Africa have focused on shale from the Whitehill Formation, which together with the underlying Prince Albert Formation, occur within the lower Ecca Group in the main Karoo Basin. The petrophysical properties and shale gas potential of the Prince Albert Formation was determined using the parameters of mercury porosimetry, total organic carbon (TOC), vitrinite reflectance, Rock-Eval and residual gas measurements. The lithostratigraphy, rock classification, and depositional environment of the Prince Albert Formation, together with the adjacent parts of the overlying Whitehill Formation and underlying Dwyka Group within the southern part of the main Karoo Basin were addressed. Rock types were characterised using X-ray fluorescence (XRF), X-Ray diffraction (XRD) and statistical analysis. Geochemical proxies and stable isotopes (δ18O, δ13C and δ15N) were used to identify the depositional environment. Additionally, the Dwyka Group, Prince Albert and Whitehill formations were correlated with equivalent Southern Gondwanaland units to understand basin development. The results of the shale gas study of the Prince Albert Formation showed porosities ranging between 0.08 and 5.6%, permeabilities between 0 and 2.79 micro-Darcy, TOC between 0.2 and 4.9 weight % and vitrinite reflectance values between 3.8 to 4.9%. Rock-Eval analysis indicated that the kerogen in the shale was Type III and IV and hydrogen indices were less than 65 mg/g. Free or absorbed gas was not detected in the recently drilled boreholes KZF-01 and KWV-01 used in this study. It is probable that the absence of gas is a result of overmaturity due to tectonic duplication in KZF-01 and thermal degassing associated with dolerite intrusions in KWV-01. Although the porosity and TOC values of the Prince Albert Formation shales across the southern part of the main Karoo Basin are comparable with, but at the lower limits of, those of the gas-producing Marcellus shale in the United States (porosities between 1 and 6% and TOC between 1 and 10 weight %), the high vitrinite reflectance values indicate that the shales are overmature with questionable potential for generating dry gas. A comprehensive rock classification were compiled for the Prince Albert Formation, which consists of shale and minor ferruginous shale ranging between thicknesses of 30 and 168 m based on field work and core descriptions. Mineralogical, geochemical and statistical data, classified collected samples as Fe-shale, phosphatic shale, manganiferous shales, shale, wacke, Fe-sand and litharenite. In unconventional resources, understanding the depositional environment is important in delineating the depositional process and bottom water conditions. The Prince Albert Formation was interpreted as marine forming under dysoxic to euxinic conditions. δ 13C values range between -17.5 and -23.1 ‰ and δ 15N between 8.5 and 11.1 ‰ reflecting marine conditions. Sediments of the Prince Albert Formation were interpreted as middle to outer continental shelf deposits based on various lithologies identified and XRF data (geochemical proxies). Compiled literature of the karoo- type basins in Southern Gondwanaland provides a correlation of the Dwyka Group, Prince Albert and Whitehill formations in South Africa. Based on stratigraphy and radiometric dating, the Dwyka Group, Prince Albert and Whitehill formations have been correlated with lithostratigraphic units in the Falkland Islands, Namibia (Huab, Karasburg and Aranos basins), the Ellsworth Basin of Antarctica and the Sauce Grande and Parana basins of South America. This correlation suggest that the main Karoo foreland system was subjected to very similar tectonic influences present in the other karoo-type basins of Southern Gondwanaland. In conclusion, results from this research indicate that viable conditions for shale gas might exist within the “sweet spot” areas constrained by formation thickness being > 30 m, relative dolerite intrusion of < 20%, relative total organic carbon content > 4 weight %, and maturity of < 3.5%. It is essential that new exploration boreholes be drilled within the “sweet spot” areas to test whether the lower Ecca Group (Prince Albert and Whitehill formations) has the potential to generate viable shale gas.

Prince Albert Formation

Main Karoo Basin

Whitehill Formation

Dwyka Group

Shale

Geology, carbon isotope stratigraphy, and palaeomagnetism of the Karoo sequences of the Southern Morondava Basin, SW Madagascar

Rakotosolofo, Nicolas Albert

12 September 2012

M.Sc. / Please refer to full text to view abstract

Carbon - Isotopes

Geology, Stratigraphic.

Facies architecture and reservoir quality of Unit B, Permian Laingsburg Formation, southwestern Karoo Basin, South Africa

Lombard, Donovan Joseph

03 1900

Thesis (MSc)--Stellenbosch University, 2013. / This study presents a facies outcrop characterization and petrographical analysis of Unit B of the Permian Laingsburg Formation. Unit B is interpreted as a base-ofslope system, which represents a strikingly sand-rich succession. The base-of-slope system is defined by a channel-levee complex. The study provides systematically a clear understanding and description on reservoir heterogeneities, in terms of facies distribution, physical processes and architectural elements. The dataset included detailed sedimentary logs, photomosaic interpretations, supplemented by a petrographical study to determine the textural and compositional attributes of the studied sandstones. Seven lithofacies was recognised within Unit B, based on detail observation and description on grain size and sedimentary structures. They mainly consist of 1) thick to massive bedded ‘structureless’ sandstone, 2) horizontal and ripple cross-laminated thin-medium bedded sandstone, 3) silty sandstone, 4) structureless siltstone, 5) hemipelagic mudstone, 6) muddy slump, and 7) sandy slump. Palaeocurrent analysis indicates that the mean sediment transport direction of Unit B was to the E and NE. Lithofacies 1 comprises thickly to massive bedded, frequently amalgamated, mostly very-fined grained sand, mixed grading, irregular to sharp upper contacts, structured upper bedding planes, large floating mudstone clasts and granules, rare groove and flute casts. Also, scour and fill features have been documented. Lithofacies 1 has been interpreted to result from channelized sandy debris flow currents. Lithofacies 2 composes of thin-medium bedded, very fine-grained sand, ungraded, sharp upper contacts, discrete units with traction bed forms, horizontal and cross-lamination, mud-draped ripples, internal erosional surfaces and preserved crests. Lithofacies 2 shows diagnostic sedimentary features for a deep-water bottom reworking current. Lithofacies 5 composes of very fine–grained mud, ‘structureless’ to finely horizontally laminated, fissile mudstone. Deposition resulted from suspension settling of mud fractions out of a low-energy buoyant plume. Lithofacies 6 composes of contorted and convoluted bedding, steeply dipping layers and irregular upper contacts. Deposition occurred via slumping on an unstable slope. Lithofacies 7 composes of fine–grained ‘structureless’ sandstone, amalgamated units, with dark floating mudstone granules. Lithofacies 7 has been interpreted to form from channelized flows evolving into slump deposition on an unstable slope. The petrographic data reveals that the reservoir quality of the sandstones is strongly controlled by depositional processes and diagenetic products. The sediments of the Karoo Basin appear to be diagenetically controlled as a function of burial depth. The major diagenetic products controlling the reservoir quality of the sandstones, includes compaction (mechanical and chemical), and authigenic porefilling constituents (quartz cement, feldspar dissolution and partial to complete replacement, calcite cement, chlorite and illite). Compaction played a major role in the evolution of the sediment, as compared to the effect of quartz cementation, and is considered here to have caused irreversible destruction of depositional porosity and permeability. The sediment has undergone intense mechanical compaction during early-stage diagenesis, low temperature and shallow depth of burial (probably the first 2 km). The high burial palaeotemperature (250 ± 500C) or more specifically the high geothermal gradient of the Karoo Basin consequently increased the number of diagenetic reactions. The high burial temperatures may have increased pressure dissolution and quartz cementation. With compaction been limited, quartz cementation and the authigenesis of chlorite and illite at deeper depths may have had a profound effect on the permeability distribution of the studied sandstones. After the completion of diagenesis, the pore systems of these sandstones were completely destroyed by low-grade regional burial metamorphism.

Karoo Basin

Slope channel deposits

Diagenesis

Dissertations -- Earth sciences

Theses -- Earth sciences

Laingsburg Formation (South Africa)

Shelf-edge deltas : stratigraphic complexity and relationship to deep-water deposition

Dixon, Joshua Francis

08 November 2013

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

Basinfill of The Permian Tanqua depocentre, SW Karoo basin, South Africa

Alao, Abosede Olubukunola

03 1900

Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Basin subsidence analysis, employing the backstripping method, indicates that fundamentally two different basin-generating mechanisms controlled Tanqua depocentre development in SW Karoo Basin. The subsidence curves display initial dominantly decelerating subsidence, suggesting an extensional and thermal control possibly in a strikeslip setting during the depocentre formation; on the other hand, subsequent accelerating subsidence with time suggests that the dominant control on the depocentre formation in SW Karoo was flexure of the lithosphere. Based on these observations on the subsidence curves, it is possible to infer that the first stage of positive inflexion (~ 290 Ma) is therefore recognised as the first stage of Tanqua depocentre formation. Petrographic study show that most of the studied sandstones of the Tanqua depocentre at depth of ~ 7.5 Km were subjected to high pressure due to the overlying sediments. They are tightly-packed as a result of grains adjustment made under such pressure which led also to the development of sutured contacts. It is clear the high compaction i.e. grain deformation and pressure solution occurred on the sediments; leading to total intergranular porosity reduction of the quartz-rich sediments and dissolution of the mineral grains at intergranular contacts under non-hydrostatic stress and subsequent re-precipitation in pore spaces. Furthermore, siliciclastic cover in the Tanqua depocentre expanded from minimal values in the early Triassic (Early to Late Anisian) and to a maximum in the middle Permian (Wordian -Roadian); thereby accompanying a global falling trend in eustatic sea-level and favoured by a compressional phase involving a regional shortening due to orogenic thrusting and positive inflexions (denoting foreland basin formation). The estimate of sediment volume obtained in this study for the Permian Period to a maximum in the middle Permian is therefore consistent with published eustatic sea-level and stress regime data. In addition, this new data are consistent with a diachronous cessation of marine incursion and closure of Tanqua depocentre, related to a compressional stress regime in Gondwana interior during the late Palaeozoic. / AFRIKAANSE OPSOMMING: Die ontleding van komversakking met behulp van die terugstropingsmetode bring aan die lig dat die ontwikkeling van die Tankwa-afsettingsentrum in die Suidwes-Karoo-kom hoofsaaklik deur twee verskillende komvormende meganismes bepaal is. Die versakkingskurwes toon aanvanklike, hoofsaaklik verlangsaamde versakking, wat daarop dui dat ekstensie- en termiese beheer gedurende die vorming van die afsettingsentrum plaasgevind het, waarskynlik in strekkingwaartse opset. Aan die ander kant toon daaropvolgende versnellende versakking wat mettertyd plaasgevind het dat die vorming van die afsettingsentrum in die Suidwes-Karoo eerder oorwegend deur kromming van die litosfeer beheer is. Op grond van hierdie waarnemings met betrekking tot die versakkingskurwes, kan mens aflei dat die eerste stadium van positiewe infleksie (~ 290 Ma) dus as die eerste stadium van die vorming van die Tankwa-afsettingsentrum beskou kan word. Petrografiese studie toon dat die meeste van die sandsteen wat van die Tankwaafsettingsentrum bestudeer is, op diepte van ~ 7,5 Km aan hoë druk onderwerp was weens die oorliggende sedimente. Die sandsteen is dig opmekaar as gevolg van die korrelaanpassing wat onder sulke hoë druk plaasvind, wat op sy beurt ook tot die ontwikkeling van kartelnaatkontakte aanleiding gegee het. Dit is duidelik dat die sediment aan hoë verdigting, dit wil sê korrelvervorming en drukoplossing, onderwerp was, wat gelei het tot algehele afname in interkorrelporeusheid by die kwartsryke sedimente; die ontbinding van die mineraalkorrels in interkorrelkontaksones onder niehidrostatiese spanning, en daaropvolgende herpresipitasie in poreuse ruimtes. Voorts het silisiklastiese dekking in die Tankwa-afsettingsentrum toegeneem van minimale waardes in die vroeë Triassiese tydperk (vroeë tot laat Anisiaanse tydperk) tot hoogtepunt in die mid-Permiaanse tydperk (Wordiaans–Roadiaans). Dié ontwikkeling het gepaardgegaan met algemene dalingstendens in die eustatiese seevlak, en is verder aangehelp deur saamdrukkingsfase wat gekenmerk is deur regionale verkorting weens orogeniese druk en positiewe infleksies (wat met voorlandkomvorming saamhang). Die geraamde sedimentvolume wat in hierdie studie vir die Permiaanse tydperk bepaal is, met die hoogtepunt in die middel van dié tydperk, is dus in pas met gepubliseerde data oor die eustatiese seevlak en spanningstoestand. Daarbenewens strook hierdie nuwe data met diachroniese staking van mariene instroming en die afsluiting van die Tankwaafsettingsentrum wat met spanningstoestand in die Gondwana-binneland gedurende die laat Paleosoïkum verband hou.

Basins (Geology) -- South Africa

Karoo Basin (South Africa)

Dissertations -- Earth sciences

Theses -- Earth sciences

Geology, Stratigraphic -- Permian

Earth Sciences

Processes and controls on shelf margin accretion and degradation : Karoo Basin, South Africa

Gomis Cartesio, Luz

January 2018

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, &gt;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.

Controls on river and overbank processes in an aggradation-dominated system : Permo-Triassic Beaufort Group, South Africa

Gulliford, Alice Rachel

January 2014

The Permo-Triassic lower Beaufort Group fluvial deposits extend over 100s of kilometres within the Karoo Basin, South Africa. A detailed study of the depositional architecture and stacking patterns of sand bodies within a 900 m thick succession has enabled interpretation of the controls on ancient river channel and overbank processes. Facies include very fine- to medium-grained sandstone, intra-formational conglomerate, mudstone and palaeosols. Channel-belts are dominated by upper flow regime structures, consistent with a flashy to ephemeral fluvial system. The overbank deposits comprise splays interbedded with purple, green and grey mudstone; these floodplain colour changes signify water table fluctuations. A hierarchy of channel-related elements has been established that recognises beds, bedsets, storeys, channel-belts, complexes and complex sets. Each channel-belt may be single- or multi-storey, whereby one storey represents the complete cut and fill cycle of a single migrating river, comprising bar accretion elements and channel-abandonment fill. The abandonment fill elements often consist of heterolithic plugs of climbing ripple-laminated very fine-grained sandstone, or interbedded claystone with siltstone. The Beaufort channel-belts preserve either lateral- or downstream-accretion patterns, or a combination. Each belt has either a lenticular or tabular geometry, recognisable by an erosional base overlain by intra-formational conglomerate lag and barform deposits. Genetically related channel-belts cluster to form complexes, of which two broad styles have been identified: Type A) laterally and vertically stacked channel-belts, and Type B) sub-vertically stacked channel-belts. There is evidence of localised clustering of sub-vertically stacked channel-belts adjacent to extensive overbank mudstone deposits. The apparent lack of a well-defined ‘container’ surface with mappable margins, suggests that this stacked channel-belt architecture represents an avulsion complex rather than a palaeovalley-fill. The lateral and stratigraphic variability in fluvial-overbank architecture is interpreted as the interplay of several controls. Allogenic forcing factors include, tectonic subsidence that influences accommodation, sediment supply, and high frequency climate cycles associated with the flashy discharge regime and expressed in the mudrock colour changes and distribution of palaeosols. The depositional river style, variability in channel-belt stacking patterns and compensational stacking of some channel-belt/splay complexes is interpreted to be the result of autogenic channel avulsion, supported by an absence of significant erosion. The relative merits of basin-axial trunk river and distributive fluvial system (DFS) models are assessed from detailed architectural and stratigraphic outcrop studies.

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