Sequence Stratigraphy, Chemostratigraphy, and Biostratigraphy of Lower Ordovician units in Northeastern and Western Central Utah: Regional Implications

Davis, Colter R.

01 May 2017

The Lower to Middle Ordovician Garden City Formation and Pogonip Group are coeval successions of mixed carbonate and siliciclastic rocks deposited under normal marine conditions on a shallow carbonate ramp on the western margin of Laurentia. The Garden City Formation was deposited in the Northern Utah Basin and the Pogonip Group was deposited in the Ibex Basin. These two basins experienced different rates of thermal subsidence following Neoproterozoic rifting along the western margin of Laurentia resulting in significant thickness differences between rock units and varying lithologic expressions of eustatic change. This study provides a unique opportunity to examine the lithologic, geochemical, and paleontological responses to eustatic oscillations of two coeval sedimentary basins in Utah that formed under different tectonic settings and subsidence rates. The Garden City Formation is composed of fourteen lithotypes and the Pogonip Group is composed of eleven lithotypes. These lithotypes mainly represent depositional environments ranging from inner ramp and middle ramp with minor outer ramp deposits. Many lithologies appear to be storm influenced due to the presence of abundant rip-up clasts (intraclasts), fragmented bioclasts, and occasional mega-ripples. Other lithologies have been extensively bioturbated and burrowed. Nine stratigraphic sequences have previously been identified within the Pogonip Group. Eight equivalent, albeit compressed, sequences within the Garden City Formation were located using biostratigraphic and chemostratigraphic correlations, and increases in insoluble residues often found at the bases of sequence boundaries. Sequences are expressed as deepening-upward packages containing silty/sandy lowstand deposits that transition into wackestones and lime mudstone-rich highstand deposits. Several sequence boundaries appear to coincide with conodont and/or trilobite extinction events. Important sequence boundaries mark the Sauk III-m and Sauk IV-m transition and the Ibexian- Whiterockian Series boundary. Meter-scale cycles are common and likely related to Milankovitch cyclicity. Insoluble residue increases upsection at each location which may indicate a gradual overall drop in sea level due to the onset of the regressive upper portion of the Sauk III supersequence. Insoluble residue from the Pogonip Group ranges from 1.2 to 84.7 wt. % with an average of 16.0 wt. % ± 0.7 wt. %. Insoluble residue from the Garden City Formation ranges from 1.5 to 63.8 wt. % with an average of 13.4 wt. % ± 1.0 wt. %. New stable carbon isotope data (δ13C) from the Garden City Formation and the Pogonip Group range from -2.92 to 1.23 ‰ V-PDB and -2.19 to 0.56 ‰ V-PDB, respectively. Four distinct δ13C trends are recognized in both sections: 1) a drop in δ13C from positive values between 0.2-1.0 ‰ to negative values approaching -1.0 ‰ near the base of the Ordovician, 2) a 0.5 to 1.0 ‰ positive δ13C excursion near the top of the Rossodus manitouensis Zone, 3) a drop in δ13C values to near -2.0 ‰ through most of the Acodus deltatus –Oneotodus costatus Zone, and 4) a gradual increase in δ13C from - 2.0 ‰ to -1.0 ‰ throughout the remainder of the sections. δ13C of the Garden City Formation and the Pogonip Group appear to be correlative based on these distinct trends. This correlative relationship was verified by the lowest occurrence of conodont species Scolopodus filosus and Scalpellodus n. sp. A of the Low Diversity Interval which coincides with the positive δ13C excursion in both the Garden City Formation and the Pogonip Group. New δ13C data likely represent global primary seawater chemistry based on the correlation of similar δ13C trends from the Argentine Precordillera and western Newfoundland.

sequence stratigraphy

chemostratigraphy

biostratigraphy

lower ordovician

northeast utah

western utah

central utah

regional implications

Geology

Caractérisation des environnements sédimentaires hybrides (houle-marée) dans des systèmes anciens et actuels / Characterization of hybrid sedimentary environments (wave-tide) in ancient and modern systems

Vaucher, Romain

10 March 2017

La reconnaissance de systèmes sédimentaires hybrides (houle-marée) dans l'enregistrement sédimentaire n'est pas triviale lorsque l'un des processus (ici la marée) ne laisse pas de traces sédimentaires directes permettant de l'identifier. La succession sédimentaire de l'Ordovicien inférieur (formations des Fezouata et du Zini) de la région de Zagora (Anti-Atlas ; Maroc) enregistre une dominance de la houle. Cependant, de nombreuses structures et géométries de dépôts sédimentaires sont atypiques de l'action de la houle. L'explication proposée dans ce travail est la modulation de l'action de la houle par la marée qui va s'exprimer de différentes façons en fonction de la bathymétrie. Un modèle sédimentaire de dépôt est proposé pour ce système hybride. Les Fezouata ont non seulement un intérêt sédimentologique mais aussi un grand intérêt paléontologique par la présence de gisements à préservation exceptionnelle qui enregistrent les débuts de la Grande Biodiversification Ordovicienne. L'élaboration du modèle sédimentaire de dépôt a permis de contraindre les faciès sédimentaires associés aux fossiles retrouvés, permettant ainsi de définir un contexte paléoenvironnemental de vie de ces communautés primitives. Afin de mieux caractériser les différentes structures sédimentaires ainsi que leurs distributions au sein de la zone intertidale d'un environnement mixte, deux analogues, un méga- et un macro-tidal tout deux dominés par la houle, ont été choisis : Berck-Plage (Pas-de-Calais ; France) et la pointe du Cap-Ferret (Gironde ; France). La zone intertidale de Berck-Plage a permis de montrer que la quasi majorité des structures sédimentaires est formée par un courant oscillatoire et que la géomorphologie côtière (barres-et-bâches), induisant la réfraction des fronts d'ondes (houle) incidentes, joue un rôle majeur dans la distribution et la formation des structures sédimentaires. Des morphologies particulières en mamelons ont été observées à Berck-Plage mais l'homogénéité granulométrique de la zone d'étude n'a pas permis l'observation de leurs structures internes. Des morphologies similaires ont ainsi été étudiées à la pointe du Cap-Ferret. Cette dernière étude met en avant la formation de structures sédimentaires en mamelons comme étant le résultat de flux supercritiques initiés par le reflux de la houle préalablement réfractée par la géomorphologie non linéaire de la côte / Recognition of hybrid sedimentary systems (wave-tide) in the sedimentary record is not trivial when one of the processes (here, the tide) does not leave direct sedimentary traces allowing its identification. The Lower Ordovician sedimentary succession (Fezouata and Zini formations) of the Zagora region (Anti-Atlas, Morocco) records a dominance of wave action. However, many sedimentary structures and depositional geometries are atypical of a wave dominated sedimentary system. The explanation proposed in this work is a modulation of the wave action by tides, which is expressed in different manners depending to the bathymetry. A model of deposition is then proposed for this hybrid sedimentary system. The Fezouata not only have a sedimentological interest but also a great paleontological interest due to the presence of exceptionally well-preserved fossils dating from the initial steps of the Great Ordovician Biodiversification Event. The development of the model deposition allowed to constrain the sedimentary facies associated with the fossils discovered, thus allowing to provide a paleoenvironmental life context for these primitive communities. In order to better characterize the different sedimentary structures and their distribution through the intertidal zone of hybrid environments, two analogues, one mega- and the other macro-tidal, both dominated by wave action were chosen: Berck-Plage (Pas-de-Calais; France) and the tip of Cap-Ferret (Gironde; France). The analysis of the intertidal zone of Berck-Plage has shown that the majority of the sedimentary structures are formed under oscillatory flows and that the coastal geomorphology (in ridges-and-runnels), inducing refraction of the incident wave fronts, plays a major role in the distribution and formation of the sedimentary structures. Peculiar dome-like morphologies were observed at Berck-Plage but the grain size homogeneity in this area did not allow the observation of their internal structures. Similar morphologies have been studied at the tip of Cap-Ferret. This last study highlights that the formation of dome-like bedforms is the result of supercritical flows initiated by the backwash of waves previously refracted by the non linear coastal geomorphology

Houle

Marée

Ordovicien inférieur

Fezouata

Analogues actuels

Wave

Tide

Lower Ordovician

Fezouata

Modern analogues

552.5

ROTEIRO GEOLÓGICO NOS MUNICÍPIOS DE CASTRO E TIBAGI, PR – BRASIL.

Matsumura, Willian Mikio Kurita

19 April 2010

Made available in DSpace on 2017-07-21T18:13:42Z (GMT). No. of bitstreams: 1 Introducao.pdf: 3135387 bytes, checksum: 9e349e21896905091b64a491c6e94325 (MD5) Previous issue date: 2010-04-19 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The Campos Gerais region, Paraná, Brazil, holds unique geological, geomorphological e paleontological sets, which are target of numerous works and scientific researcher. This research present a geological and paleontological route using the outcrops occurring along existing roads in the municipalities of Castro and Tibagi, Parana State, Brazil. This roadmap is proposed as a tool to aid teaching and scientific support for fieldworks (classes or applied basic research) developed by teachers and researchers. Fieldwork carried out aimed to the regional recognition and description of stratigraphic sections of the surface, according to the geological context of the Castro and Paraná basins. For each outcrop were built columnar sections showing the following items: 1) lithological description, 2) sedimentary structures and 3) fossil content occurring. All outcrops were correlated with stratigraphic frameworks pre-existing. A total of 20 raised and described outcrops then organized in the form of stopping points along the road PR- 151, PR-340, BR-153 and secondary roads. Stratigraphically the roadmap begins in the volcanic and volcaniclastic rocks Ordovician of Castro Basin. Then cover the glacial rocks of Neo-Ordovician from Iapó Formation and the fluvial-marine rocks Siluro- Devonian from Formation Furnas, and pelitic rocks of the Devonian from Ponta Grossa Formation, ending with the glaciogenic rocks Neo-Carboniferous from Itararé Group (belonging to the Paraná Basin). This roadmap allows the monitoring of succession lithological, stratigraphic, sedimentological and paleobiological in the interval Lower Ordovician and Upper Carboniferous in the Campos Gerais region of Paraná, facilitating public access to new target areas of outcrops and providing a history of research and discoveries each point.. / A região fisiográfica dos Campos Gerais do Paraná é detentora de um conjunto singular de feições geológicas, geomorfológicas e paleontológicas que são alvos de inúmeros trabalhos e pesquisas científicas. Apresenta-se aqui um roteiro geológico e paleontológico utilizando-se de afloramentos rochosos ocorrentes ao longo de rodovias existentes nos municípios de Castro e Tibagi, Estado do Paraná, Brasil. Este roteiro é proposto como um instrumento de auxílio didático e apoio científico para atividades práticas de campo (aulas ou pesquisa básica aplicada) desenvolvidas por professores e pesquisadores. Trabalhos de campo realizados objetivaram o reconhecimento regional e a descrição das seções estratigráficas de superfície, segundo o contexto geológico das bacias de Castro e do Paraná. Para cada afloramento foram construídas seções colunares apresentando os seguintes ítens: 1) descrição litológica, 2) estruturas sedimentares e 3) conteúdo fossilífero ocorrente. Todos os afloramentos foram correlacionados a arcabouços estratigráficos pré-existentes. No total foram levantados e descritos 20 afloramentos rochosos organizados então sob a forma de pontos de parada ao longo das rodovias PR-151, PR-340, BR-153 e estradas secundárias. Estratigraficamente inicia-se nas rochas vulcânicas e vulcanoclásticas ordovicianas da Bacia de Castro. Em seguida abrange as rochas glaciais neo-ordovicianas da Formação Iapó e as rochas flúviomarinhas siluro-devonianas da Formação Furnas e pelíticas devonianas da Formação Ponta Grossa, encerrando com as rochas glaciogênicas neo-carboníderas do Grupo Itararé (pertencentes à Bacia do Paraná). O presente roteiro permite o acompanhamento das sucessões litológicas, estratigráficas, sedimentológicas e paleobiológicas no intervalo Ordoviciano Inferior e o Carbonífero Superior na região dos Campos Gerais do Paraná, facilitando o acesso do público alvo a novas regiões de afloramentos e fornecendo um histórico das pesquisas e descobertas de cada ponto.

roteiro Geológico e Paleontológico

Bacia do Paraná

Castro

Tibagi

Intervalo Ordoviciano Inferior

Carbonífero Superior

Castro

Tibagi

CNPQ::CIENCIAS HUMANAS::GEOGRAFIA

Laser-mapping and 3D reconstruction of the Lower Ordovician El Paso Group breccia collapse breccias, Franklin Mountains, Texas

Bellian, Jerome Anthony, 1971-

19 January 2011

The Lower Ordovician El Paso Group is a >400-m-thick carbonate succession exposed in the Franklin Mountains, El Paso, Texas. The El Paso Group contains multiple breccias related to collapsed-paleocave systems. These breccias have been documented as having formed during the top-Lower Ordovician Sauk depositional supersequence lowstand. Evidence presented in this study suggests that cave formation may have been as much as 350 million years younger and related to Laramide oblique right lateral compression. Regardless of the timing of formation, the breccias mapped in this study are of collapsed paleocave origin based on breccia clast organization and matrix content. Speleogenetic models are compared against observations of breccia distribution by direct field observations and mapping on sub-meter airborne light detection and ranging or lidar data. Point vectors were defined for every point within study area to highlight subtle changes in outcrop erosional profile for mapping geological features directly on the lidar point cloud. In addition, spectral data from airborne photography and hyperspectral image analysis were used assist in geological contact definition. A digital outcrop model was constructed from 3D geologic mapping results from which spatial statistic were extracted and used to reconstruct collapsed paleocave breccia bodies. The resultant breccia geometries were compared against laser-scanned modern cave dimensions, from Devil's Sinkhole, Rocksprings, Texas, and used in analysis of conceptual models for cave formation. The breccias of the southern Franklin Mountains follow linear trends that closely match Riedel shear fracture patterns predicted from right-lateral oblique compression. Stress orientations that match right-lateral oblique compression in the Phanerozoic of the El Paso region are related to the Laramide orogeny. The relationship of observed structures and the orientation of collapse breccias may indicate that southern Franklin Mountain breccia bodies are the result of a solution-enhanced tectonic karst system. / text

El Paso Group

Lower Ordovician

Franklin Mountains, Texas

El Paso, Texas

Breccias

Collapsed paleocave systems

Caves

Cave formation

Laser-mapping

Digital outcrop models

3D geologic mapping

Speleogenetic models

3D reconstruction