Weathering history of a late Cretaceous palaeosol, Northeast Ireland

Mc Cann, Oonagh

January 1999

No description available.

551

Dinoflagellate Cyst Biostratigraphy, Palynofacies and Paleoenvironmental Analysis of the Maastrichtian and Basal Danian, Brazon River, Texas

Aydin, Tuba

16 December 2013

This study aims to document the dinoflagellate cyst biostratigraphy and paleoenvironmental record of the Maastrichtian Neylandville and Corsicana Formations and the lower part of the Danian Kincaid Formation from the Brazos River, Texas. Rock samples are exposed to standard palynological methods for biostratigraphic interpretations. The quantitative data collected from palynological samples are combined with δ13C and δ18O stable isotope geochemistry and TEX86 and BIT Index organic geochemistry data for paleoenvironmental interpretations. Biostratigraphically important species of dinoflagellates divide the section into three intervals. Interval 1 occurs within the Neylandville Formation, and the presence of Alterbidinium acutulum, Xenascus ceratioides and Isabelidinium cooksoniae indicate that this interval is not younger than early Maastrichtian. Interval 2 represents the Corsicana Formation. The presence of the late Maastrichtian species Disphaerogena carposphaeropsis, Palynodinium grallator and Deflandrea galeata at the base of the Corsicana Formation indicate that this interval is of late Maastrichtian age. Interval 3 occurs within the Kincaid Formation. The presence of Carpetalla cornuta and Damassadinium californicum at the base of the Kincaid Formation indicates that this interval is of Danian age. Previously published Gulf of Mexico palynology studies, as well as planktonic foraminifera and nannoplankton data confirm the age assignments of the studied interval. Dinoflagellate species assemblages increase in diversity upwards from Interval 1 to Interval 2, and then show a small decrease above the K-Pg boundary within Interval 3, indicating that the K-Pg event was not catastrophic for the dinoflagellates. The Cerodinium spp. and Spiniferites spp. complex comprise a large proportion of the species within the section. High abundance peaks of Glaphyrocysta spp., Cribroperidinium spp., and Yolkinigymnium lanceolatum occur within Interval 2. Two intervals in the section are dominated by peridinioid dinoflagellates, measured by the Peridinioid/Gonyaulacoid (P/G) ratio. The first one occurs within Interval 2 and contains peaks of the P/G ratio that correlate with increases in δ13C, suggestive of an increase in paleoproductivity. Two more peaks occur within Interval 3. Bottom water δ18O temperatures determined from benthic foraminifera and sea surface temperatures determined from TEX86 organic geochemistry show an overall cooling trend from Early Maastrichtian to the K-Pg boundary.

maastrichtian

dinoflagellates

Brazos River

K-Pg boundary

Late cretaceous (Campanian and Maastrichtian) sequence stratigraphy, southeastern North Carolina, USA /

Pierson, Jessica A.

January 2003

Thesis (M.S.)--University of North Carolina at Wilmington, 2003. / Vita. Includes appendixes. Includes bibliographical references (leaves : [60]-65).

Late Campanian-Maastrichtian Planktic Foraminiferal Biostratigraphy, Taxonomy, and Isotope Paleoecology of Odp Leg 198 Sites 1209 and 1210, Shatsky Rise

Clark, Kendra R

01 January 2012

Well-preserved and diverse assemblages of late Campanian-Maastrichtian age (76.5-65.5 Ma) planktic foraminifera from Ocean Drilling Program Sites 1209 and 1210 on Shatsky Rise provide an excellent source of data to better understand the environmental and biotic changes of the end-Cretaceous Period in the tropical Pacific. A thorough taxonomic and biostratigraphic study of planktic foraminifera has revealed significant differences in species ranges when compared to detailed studies from the western North Atlantic and eastern South Atlantic. These observations are attributed to site locations with different ocean current and productivity conditions. During the globally recognized “mid-Maastrichtian Event”, inoceramid clams, rare at Shatsky Rise, dramatically increased (~69.3 Ma) before suddenly going extinct (69.1 Ma). This Inoceramid Acme Event (IAE), occurs during high sedimentation rates (~21.8-m/myr) and is indicated in planktic foraminifera by a 0.50‰ positive shift in δ18O values (~2 °C cooling), a 0.24‰ negative shift in δ13C values of and high species richness. A simultaneous decrease in both the δ18O and δ13C gradients between surface and thermocline dwelling planktic foraminifera indicate the IAE was possibly initiated by an increase in surface productivity due to the upwelling of cooler, nutrient-rich waters. A dissolution event was identified at ~66.1 Ma lasting to the Cretaceous/Paleogene boundary (65.5 Ma) and is characterized by chalky, highly fragmented planktic foraminifera, increased dissolution of larger Globotruncanids, increased small (< 63 μm) planktic foraminifera, large and increasingly abundant benthic foraminifera, a sharp decrease in species richness and increased sedimentation rates (~19.9-m/myr). This event follows a transitional interval at ~66.7 Ma where preservation is highly variable. The dissolution event, reported in previous studies at Shatsky Rise (Caron, 1975; Premoli Silva et al., 2005), is not reported in the North and South Atlantic but may help to explain the high diachroneity in species occurrences between ocean basins. These events may indicate that the calcite carbonate compensation depth (CCD) shoaled to shallower depths than previously reported (Theirstein, 1979) due to changing deep or intermediate water mass sources. Alternatively, the timing the dissolution is approximately coincident with the main pulse of Deccan Trap volcanism on the Indian subcontinent suggesting a possible link through ocean acidification.

late Campanian-Maastrichtian

Shatsky Rise-tropical Pacific

paleoceanography

Mid-Maastrichtian Event

dissolution

Climate

Geology

Oceanography

Paleontology

Stratigraphy

Correlated biostratigraphy and palaeoecology of microplankton from the Bearpaw Formation (Campanian-Maastrichtian) of Alberta, Canada

Dalzell, Matthew Thomas John

28 March 2007

Marine palynomorph assemblages from the Campanian-Maastrichtian Bearpaw Formation, consisting of 34 genera and 69 species of dinoflagellate cysts and 8 forms of acritarchs, were recovered from a composite section in the Cypress Hills and the Research Council of Alberta Castor borehole in southern Alberta, Canada. Correlation of the sections with magnetostratigraphy and radiometric dates of bentonites within the Bearpaw Formation provided a chronostratigraphic control that enabled correlation between the two sections and the Campanian-Maastrichtian Boundary Global Stratotype Section and Point at Tercis les Bains, France. Correlation of first and last occurrence data of key taxa in the boundary section at Tercis with the same taxa in the studied sections support the placement of the Campanian-Maastrichtian Boundary at the transition between magnetochrons 32n.1n and 31r within the <i>Baculites baculus</i> ammonoid range zone of the Western Interior of North America.<p>Semi-quantitative analyses of the assemblages record the transgressive-regressive episodes of the Bearpaw cyclothem. Increases in the relative abundances of gonyaulacacean cysts, numbers of dinocysts compared to terrestrial palynomorphs and assemblage diversity correlate with transgressive episodes, with the richest assemblages occurring during periods of open, offshore to neritic conditions correlated with the cyclothems transgressive peak.<p>Two new species of dinoflagellate cyst are described. The first, Dinoflagellate sp. 1, is a novel taxon, while the second, Downiesphaeridium sp. A, is a chorate cyst similar to Mesozoic forms previously ascribed to <i>Cleistosphaerdium diversispinosum</i> Davey et al. emend. Eaton et al.

stratigraphy

Campanian-Maastrichtian Boundary

magnetostratigraphy

magnetobiostratigraphy

dinocyst

dinoflagellate

Western Interior Basin

Correlated biostratigraphy and palaeoecology of microplankton from the Bearpaw Formation (Campanian-Maastrichtian) of Alberta, Canada

Dalzell, Matthew Thomas John

28 March 2007

Marine palynomorph assemblages from the Campanian-Maastrichtian Bearpaw Formation, consisting of 34 genera and 69 species of dinoflagellate cysts and 8 forms of acritarchs, were recovered from a composite section in the Cypress Hills and the Research Council of Alberta Castor borehole in southern Alberta, Canada. Correlation of the sections with magnetostratigraphy and radiometric dates of bentonites within the Bearpaw Formation provided a chronostratigraphic control that enabled correlation between the two sections and the Campanian-Maastrichtian Boundary Global Stratotype Section and Point at Tercis les Bains, France. Correlation of first and last occurrence data of key taxa in the boundary section at Tercis with the same taxa in the studied sections support the placement of the Campanian-Maastrichtian Boundary at the transition between magnetochrons 32n.1n and 31r within the <i>Baculites baculus</i> ammonoid range zone of the Western Interior of North America.<p>Semi-quantitative analyses of the assemblages record the transgressive-regressive episodes of the Bearpaw cyclothem. Increases in the relative abundances of gonyaulacacean cysts, numbers of dinocysts compared to terrestrial palynomorphs and assemblage diversity correlate with transgressive episodes, with the richest assemblages occurring during periods of open, offshore to neritic conditions correlated with the cyclothems transgressive peak.<p>Two new species of dinoflagellate cyst are described. The first, Dinoflagellate sp. 1, is a novel taxon, while the second, Downiesphaeridium sp. A, is a chorate cyst similar to Mesozoic forms previously ascribed to <i>Cleistosphaerdium diversispinosum</i> Davey et al. emend. Eaton et al.

stratigraphy

Campanian-Maastrichtian Boundary

magnetostratigraphy

magnetobiostratigraphy

dinocyst

dinoflagellate

Western Interior Basin

Dynamic stratigraphy and sediment partitioning of high-supply fluvial succession in Maastrichtian source-to-sink system

Ned, Allison Marie

30 October 2013

The sediment budget and paleogeography was reconstructed for the Maastrichtian fluvial to coastal plain Lance Formation (>200m thick) that developed coevally with the shoreline/shelf Fox Hills Sandstone (>200m thick) and deep-water Lewis Shale (>750m thick) in a complete source-to-sink system in the Washakie and Great Divide Basins of south central Wyoming. The system initiated during the final Western Interior Seaway (WIS) transgression and the onset of the Laramide Orogeny rapid subsidence (>2km in 1.9 My) that largely outpaced sediment flux into the basin so the system became and remained a deep-water (>500m water depth) basin beyond the Lance-Fox Hills shelf prism. The active tectonic setting and rapid subsidence caused the Lance fluvial and coastal plain deposits to aggrade and accumulate behind the generally rising shoreline trajectory of the Fox Hills Sandstone. The depositional succession is subdivided into 15 clinothem units and the Lance Formation is best exposed in outcrops in clinoforms 10, 11, and 12. Subsurface analysis correlates key stratigraphic surfaces across the basin to define the sediment budget and clinoform architecture. Field analysis along clinoform 12 on the east side of the basin details facies and paleohydraulic dimensions. Sediment partitioning shows the regressive and transgressive systems tracts (RST and TST) form complementary wedges such that the RST thickens basinward and the TST thins basinward, reflecting the preferential storage of sediment. Channels measured in the field and subsurface datasets are similar in thickness (2m-16m) and suggest braided channel morphology with channel belts from 6.2-8.4km. N/NE paleocurrent trends departing from the subsurface dataset and previous studies of the system provide evidence of possible tidal influences in a developed shoreline embayment or an east to west supply from the basement-cored Rawlins and Sierra Madre Uplifts in the east. The fluvial Lance Formation paleogeography associated with the RST and TST is primarily driven both by modest, Late Cretaceous relative sea level changes and sediment supply linked to the tectonic setting and climate. / text

Lance Formation

Washakie Basin

Paleogeography

Stratigraphy

Sediment

Fluvial

Maastrichtian

Source-to=sink system

Paleogeology

Taxonomic revision of latest Cretaceous North american basal neonithischian taxa and a phylogenetic analysis of basal ornithischian relationships

Boyd, Clint Aaroen

08 November 2013

The systematic relationships of basal ornithischian dinosaurs remain contentious, especially the position of basal neornithischians (i.e., ‘hypsilophodontids’). Prior analyses of basal ornithischian relationships have been hampered by the fact that the hypodigm material of many basal neornithischian taxa is fragmentary, denying access to character data crucial to resolving their relationships. The recent discovery of several new basal neornithischian taxa and the referral of more complete specimens to known taxa provide important new data pertinent to resolving these relationships. The results of this study supplement those recent advances by improving our understanding of the anatomy and systematic relationships of basal neornithischian taxa from the Late Cretaceous of North America. These new insights are accomplished through a taxonomic revision of the Maastrichtian taxa Bugenasaura and Thescelosaurus, a detailed anatomical description of the cranial anatomy of Thescelosaurus neglectus based on the referral of a specimen that includes a nearly complete skull (NCSM 15728), and description of a new basal neornithischian taxon from the Kaiparowits Formation (Campanian) of Utah. All of these new data are compiled into a dataset composed of 255 characters for 65 terminal taxa (all species exemplars) focused on assessing basal ornithischian relationships. The recovered strict consensus topology is the most highly resolved, stratigraphically congruent phylogenetic hypothesis of basal ornithischian relationships yet proposed. This analysis places all basal neornithischians except Hypsilophodon foxii outside of Cerapoda, substantially reducing the taxonomic contents of Ornithopoda. A new clade containing fourteen basal neornithischian taxa is recovered as the sister taxon to Cerapoda and includes all North American basal neornithischians from the Cretaceous. The historical biogeography of Ornithischia is also reconstructed using a method that incorporates time calibrated branch lengths that represent the implied missing fossil record of each taxon. The results of this analysis support two dispersals of neornithischian taxa into South America during the Cretaceous: one consisting of basal iguanodontians dispersing from Australia (possibly via Antarctica) and a second consisting of basal neornithischians dispersing from Asia through North America. / text

Ornithischian

Maastrichtian

Neornithischian

Phylogeny

Skaladromeus

Thescelosaurus

Cretaceous

Basal

North America

Taxonomy

High palaeolatitude record of Late Maastrichtian-Early Danian climate change, Seymour Island, Antarctica

Frost, Peter Alan

January 2017

The Latest Cretaceous period was characterised by global cooling, superimposed on this pattern of climate change were perturbations in global climate. In high palaeolatitude settings in the Southern Hemisphere short term glacial episodes may have occurred through the latest Cretaceous. The extensive sedimentary succession within the James Ross Basin, Antarctica, provided an opportunity to test the possibility of late Cretaceous glaciation in particular through the succession exposed on Seymour Island. A high resolution oxygen and carbon stable isotope record through the Late Maastrichtian – Early Danian was generated by analysing diagenetically unaltered aragonite nacre shell material from a molluscan fauna collected from the López de Bertodano Fm., part of the Marambio Group present on Seymour Island, Antarctica. The Marambio Group forms an extensive 1100 m thick Late Maastrichtian section that crops out over ~70 km2 of the southernmost part of the island. Coverage of stable isotope data for the measured stratigraphy was good with 213 screened analyses that included data from within 1 m of the K-Pg boundary located at 1029 m above datum, determined from the first occurrence of the dinoflagellate cyst Senegalinium obscurum. Stable isotope data (‰ VPDB) for primary aragonite from bivalves, cephalopods and gastropods exhibited screened stable isotope data ranges of -0.06 to +2.05‰ for δ18O and -7.54 to +3.7‰ for δ13C. Data showed that at individual stratigraphic levels the range in measured δ18O exhibited significant variability. Benthic specimens provided the majority of the stable isotope data, bivalves exhibited the widest range of δ18O and δ13C values. Data show that individual specimens from the same genus can exhibit significant variability for δ18O and δ13C and that analysis of single samples at discrete stratigraphic levels may provide an erroneous interpretation of climate change. Higher oxygen isotope values were seen mid-section and complement previous records of periods of cooler climate identified from palynology, clumped isotopes and sea level. Palaeotemperatures were calculated for δ18O values for a seawater composition of SMOW = -1.0‰, representing an ice free ocean, 6 to 14°C for bivalves, 9 to 12°C for gastropods and 9 to 15°C for cephalopods. Temperatures indicated relatively stable benthic temperatures (~10°C) with a cooling phase that commenced at ~450 m (~69.5 Ma) with the coolest temperatures developed at ~630 m (~69 Ma). Cooling trends showed a good correlation with the position of seawater lowstands. Thereafter temperatures recovered towards the K-Pg boundary before a cooling trend developed that closely correlated with the PaDa1 lowstand. Acceptance of Deccan Traps volcanism as a causal mechanism for the limited degree of observed warming close to the K-Pg event was limited by a lack of suitable specimens.

Evolução, geometria e preenchimento do complexo de canyons de brejo Grande, bacia de Sergipe-Alagoas

Silva, Braulio Oliveira

January 2007

Este estudo teve como objetivo principal a definição da origem, evolução, geometria e preenchimento do Complexo de Canyons de Brejo Grande. Este complexo está incluído no intervalo maastrichtiano do Grupo Piaçabuçu, que é composto por uma cunha sedimentar progradante, depositada num sistema plataforma-talude-bacia, do Cretáceo Superior ao Quaternário, na Bacia de Sergipe-Alagoas. Foram utilizados dados sísmicos, perfis de poços, dados bioestratigráficos e descrições de testemunhos e amostras de calha. O complexo é composto de três canyons: Canyon de Brejo Grande, o mais antigo; Canyon do Rio Praúnas e Canyon de Aroeira, o mais novo. A localização e orientação dos canyons foram controladas por falhas da fase rift, reativadas antes da escavação. Foram reconhecidas quatro fases de preenchimento: fase inicial, fase de by-pass, fase dos complexos de canais e fase da cunha progradante. Na fase inicial, foram depositados os complexos de transporte de massa. Eles estão melhor preservados quando preenchem calhas na base do canyon. Na fase de by-pass o canyon atuou como um conduto e apenas depósitos de lags foram preservados. A fase dos complexos de canais ocorreu quando os fluxos gravitacionais não mais transportavam suas cargas para a bacia e depositavam a maior parte de sua carga dentro do canyon. A fase da cunha progradante corresponde à parte do preenchimento depositada no começo da subida do nível relativo do mar. Os complexos de canais são os componentes mais importantes do preenchimento dos canyons. Seus canais são frequentemente isolados espacialmente. Eventos sísmicos anômalos produzidos pelos canais mostram que eles são estreitos, com baixa sinuosidade e continuidade longitudinal variável. Os canais empilham-se verticalmente na parte inferior, mais confinada, do preenchimento dos canyons, e lateralmente na parte superior, menos confinada, dos canyons assimétricos. Os canais migram das partes mais confinadas para as menos confinadas. O método da estratigrafia de seqüências foi usado para estabelecer a evolução do complexo de canyons, definindo as seqüências que os preencheram, as relações de tempo entre aorigem e o preenchimento dos canyons e as superfícies limitantes e internas das seqüências. Foram definidas três seqüências de 3ª ordem. Cada canyon foi preenchido por uma seqüência deposicional composta pelos tratos de sistemas de mar baixo e transgressivo. Nos tratos de mar baixo das seqüências 1,2 e 3 foram identificados o equivalente proximal do leque de fundo de bacia e o complexo de canais do leque de talude. Na seqüência 3, além destes, foi também observada a cunha progradante. O limite inferior da seqüência 1 corresponde à base da biozona de nanofósseis N-280. O limite inferior da seqüência 2 coincide com a base da biozona de nanofósseis N-290. / Canyon The channels stack vertically in the lower, more confined portion of canyons, and laterally in the upper, less confined part of asymmetric canyons. Lateral migration of channels is from the side of steeper to the side of less steep wall, where confinement is smaller. The sequence stratigraphy method was used to establish the evolution of the canyon complex, defining the sequences that filled the canyons and the time relationship between the origin and filling of canyons and the boundary and internal surfaces of sequences. Three third order depositional sequences were defined. Each canyon is filled by a depositional sequence compounded of lowstand and transgressive system tracts. In the lowstand system tracts of the first, second and third sequences were identified a proximal equivalent of the basin floor fan andthe channel complexes of the slope fan. In the third sequence, besides those parts, was also observed the progradational wedge. The inferior limit of the first sequence corresponds to the N- 280 nannofossil biozone base and the inferior limit of the second sequence coincides with the N- 290 nannofossil biozone base.

Estratigrafia de sequencias

Canyon

Piaçabuçu Group

Maastrichtian

Sequence stratigraphy