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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
111

Planktonic foraminiferal biostratigraphy and correlation of the aquia formation in the type area, along the Potomac River, Virginia

Faris, Craig Duncan January 1982 (has links)
Planktonic Foraminifera were examined from the Aquia Formation (Late Paleocene) from 2 localities in the Aquia type area along the Potomac River 7 miles southeast of Stafford, Virginia to: identify taxa present, and to effect biostratigraphic correlation with other Paleocene studies on the Virginia Coastal Plain. Two genera and twenty-two species were recovered, allowing recognition of the Globorotalia pseudomenardii and Globorotalia velascoensis zones, and correlation with The Oak Grove Core, 23 miles to the southeast (Gibson, et al. 1980), and a Pamunkey River locality 50 miles to the south (Seaton, 1982). This correlation shows equal thicknesses of the Aquia within zonal boundaries over the Potomac River - Oak Grove - Pamunkey River area, suggesting uniform rates of Aquia sedimentation in this portion of the Salisbury Embayment. Correlation of the Oak Grove Core, which was zoned via the Tertiary NP zonation indicates the presence of NP zones 5,6-?7,8,9 in the Aquia type area. / Master of Science
112

Stabilní izotopy uhlíku a kyslíku ve schránkách foraminifer jako klíč k interpretaci paleoprostředí ve středním miocénu karpatské předhlubně (Centrální Paratetyda) / Carbon and Oxygen Stable Isotope Ratio from Foraminiferal Tests as a Key to the Paleoenvironmental Interpretations in the Middle Miocene of the Carpathian Foredeep (Central Paratethys)

Scheiner, Filip January 2015 (has links)
The (Lomnice) LOM-1 borehole records a nutrient-rich quiet environment of the outer shelf to upper bathyal in the Mid Badenian (sensu Hohenegger et al. (2014)) of the Carpathian Foredeep. The LOM-1 borehole is rich of a fossil content with a relatively good preservation. The studied section can be correlated with the interval from 14.6 Ma (the FO of Orbulina spp.) to 13.42 Ma (the LO of Sphenolithus heteromorphus) which agrees with the beginning of the "Middle Miocene Climate Transition". The foraminifera for the carbon and oxygen stable isotope analysis were picked from the fraction 0.063-2 mm. The suitability for the stable isotope analysis was carefully evaluated based on the inner wall preservation. The isotopic analysis was done for fifteen samples with total 373 tests analyzed. Each analysis was performed from exactly one test. The following foraminiferal genera from different paleobiotops were used for the isotope analysis: Globigerina bulloides; Orbulina universa, Praeorbulina glomerosa; Globigerinoides spp.; Uvigerina spp.; Heterolepa dutemplei; Cibicidoides spp.; Gyroidinoides spp. and Melonis pompilioides to document the isotopic signal for the superficial and bottom waters. The oxygen and carbon isotope analysis from foraminiferal tests were used for the verification of the...
113

Planktic foraminifers of the California Current at 42��N : last glacial maximum and present

Ortiz, Joseph D. 02 May 1995 (has links)
MOCNESS plankton tows, sediment traps and sedimentary material are used to determine the linkage between bio-physical forcing and foraminiferal response over a range of time scales from the event scale to the glacial interglacial cycle. The annually averaged planktic foraminiferal fauna of the modem California Current is a diverse community composed of individuals from subarctic, transitional, and subtropical foraminiferal assemblages. This community is more diverse, but less abundant in total standing stock and shell flux than the subarctic community of the Gulf of Alaska. The use of plankton tow and isotopic data allow us to partition the foraminiferal community into shallow dwelling euphotic zone species and deep dwelling sub-thermocline species. On both the event and seasonal time scales, heterotrophic species were most abundant in cold, biomass rich coastal waters. In contrast, species which harbored endosymbionts were more abundant in oligotrophic waters with higher ambient light levels. During the Last Glacial Maximum (LGM), the diverse modern fauna was replaced with a low diversity, high flux, heterotrophic community similar to that of the modern Gulf of Alaska. Modern analog temperature estimates suggest the California Current was roughly 3��C cooler during the LGM than today. Coupled with oxygen isotopic results from G. bulloides, the surface thermal structure implies an equatorward flowing glacial California Current at these sites. The Polar Front thus remained north of these locations during the LGM. Comparison of glacial G. bulloides carbon isotopes and shell accumulation rates with organic carbon flux estimates implies the glacial California Current was (1) higher in nutrient content, (2) lower in plankton biomass, and (3) lower in export carbon flux than its modem counterpart. This description suggests that during the LGM the plankton community of the California Current was very similar to the modern plankton community of the Gulf of Alaska. / Graduation date: 1996
114

Responses of a shallow-water ecosystem to the early Paleogene greenhouse environmental conditions : evolution of Larger Foraminifera and coral communities from the Northern Tethys

Zamagni, Jessica January 2009 (has links)
Modern anthropogenic forcing of atmospheric chemistry poses the question of how the Earth System will respond as thousands of gigatons of greenhouse gas are rapidly added to the atmosphere. A similar, albeit nonanthropogenic, situation occurred during the early Paleogene, when catastrophic release of carbon to the atmosphere triggered abrupt increase in global temperatures. The best documented of these events is the Paleocene-Eocene Thermal Maximum (PETM, ~55 Ma) when the magnitude of carbon addition to the oceans and atmosphere was similar to those expected for the future. This event initiated global warming, changes in hydrological cycles, biotic extinction and migrations. A recently proposed hypothesis concerning changes in marine ecosystems suggests that this global warming strongly influenced the shallow-water biosphere, triggering extinctions and turnover in the Larger Foraminifera (LF) community and the demise of corals. The successions from the Adriatic Carbonate Platform (SW Slovenia) represent an ideal location to test the hypothesis of a possible causal link between the PETM and evolution of shallow-water organisms because they record continuous sedimentation from the Late Paleocene to the Early Eocene and are characterized by a rich biota, especially LF, fundamental for detailed biostratigraphic studies. In order to reconstruct paleoenvironmental conditions during deposition, I focused on sedimentological analysis and paleoecological study of benthic assemblages. During the Late Paleocene-earliest Eocene, sedimentation occurred on a shallow-water carbonate ramp system characterized by enhanced nutrient levels. LF represent the common constituent of the benthic assemblages that thrived in this setting throughout the Late Paleocene to the Early Eocene. With detailed biostratigraphic and chemostratigraphic analyses documenting the most complete record to date available for the PETM event in a shallow-water marine environment, I correlated chemostratigraphically for the first time the evolution of LF with the δ¹³C curves. This correlation demonstrated that no major turnover in the LF communities occurred synchronous with the PETM; thus the evolution of LF was mainly controlled by endogenous biotic forces. The study of Late Thanetian metric-sized microbialite-coral mounds which developed in the middle part of the ramp, documented the first Cenozoic occurrence of microbially-cemented mounds. The development of these mounds, with temporary dominance of microbial communities over corals, suggest environmentally-triggered “phase shifts” related to frequent fluctuations of nutrient/turbidity levels during recurrent wet phases which preceding the extreme greenhouse conditions of the PETM. The paleoecological study of the coral community in the microbialites-coral mounds, the study of corals from Early Eocene platform from SW France, and a critical, extensive literature research of Late Paleocene – Early Eocene coral occurrences from the Tethys, the Atlantic, the Caribbean realms suggested that these corals types, even if not forming extensive reefs, are common in the biofacies as small isolated colonies, piles of rubble or small patch-reefs. These corals might have developed ‘alternative’ life strategies to cope with harsh conditions (high/fluctuating nutrients/turbidity, extreme temperatures, perturbation of aragonite saturation state) during the greenhouse times of the early Paleogene, representing a good fossil analogue to modern corals thriving close to their thresholds for survival. These results demonstrate the complexity of the biological responses to extreme conditions, not only in terms of temperature but also nutrient supply, physical disturbance and their temporal variability and oscillating character. / Die anthropogene Beeinflussung der Chemie der Atmosphäre in der modernen Zeit wirft die Frage nach dem Schicksal des Systems Erde auf, wenn tausende von Tonnen an Treibhausgasen in kurzer Zeit in die Atmosphäre einströmen. Im Känozoikum trat bereits eine ähnliche Situation während des frühen Paläogens auf, als eine katastrophale Freisetzung von Kohlenstoff in die Atmosphäre einen plötzlichen Anstieg der globalen Temperatur hervorrief. Das am besten dokumentierte dieser Ereignisse stellt das Paläozän-Eozäne Temperatur Maximum (PETM, ~55 Ma) dar, bei welchem die Größenordnung der Kohlenstoffzufuhr in Ozeanen und Atmosphäre jener ähnelte, die in der Zukunft zu erwarten ist. Das damalige Ereignis initiierte eine globale Erwärmung, Veränderungen hydrologischer Kreisläufe, biotische Auslöschung und Abwanderungen. Eine kürzlich veröffentlichte Hypothese zu Veränderungen in marinen Ökosystemen postuliert, dass diese globale Erwärmung die Biosphäre der Flachwässer stark beeinflusste, indem sie Aussterben und Fluktuation innerhalb der Gemeinschaft der Großforaminiferen (GF) sowie den Niedergang einiger Korallen bewirkte. Die Abfolgen der Adriatischen Karbonatplattform (SW-Slovenien) stellen einen idealen Ort dar, um die Hypothese des kausalen Zusammenhangs zwischen dem PETM und der Evolution der Flachwasserorganismen zu überprüfen, da sie aufgrund ihrer kontinuierlichen Sedimentation vom Spätpaläozän bis zum Früheozän und ihres Reichtums an Biota, insbesondere an GF, fundamentale Voraussetzungen für eine detaillierte biostratigraphische Studie erfüllen. Um die Paläoumweltbedingungen während der Sedimentablagerung zu rekonstruieren, wurde der Schwerpunkt dieser Arbeit auf eine sedimentologische Analyse und eine paäoökologische Studie benthischer Vergesellschaftungen gesetzt. Während dem Spätpaläozan bis zum frühesten Eozän fand die Sedimentation auf einem Flachwasser-Rampensystem statt, welches durch ein erhöhtes Nährstoffangebot gekennzeichnet war. GF stellen jenen häufigen und verbreiteten Bestandteil der benthischen Vergesellschaftungen dar, welcher in dieser Umgebung durch das Spätpaläozän hindurch bis ins Früheozän gedeihen konnte. Mit den in dieser Arbeit vorgestellten detaillierten bio- und chemostratigraphischen Analysen, deren Dokumentation den zur Zeit vollständigsten Datensatz für das PETM-Ereignis in einem flachmarinen Milieu repräsentieren, wurde die Evolution der GF zum ersten Mal mit δ¹³C -Kurven chemostratigraphisch korreliert. Diese Korrelation zeigte, dass in den GF-Gemeinschaften keine großmaßstäbliche Fluktuation zeitgleich mit dem PETM auftrat, und dass daher die Evolution der GF hauptsächlich durch endogene biotische Einflüsse kontrolliert worden sein muss. Die Studie mikrobiell-überkrustete Korallenhügel im Größenbereich zwischen einigen Metern und einigen Zehnermetern, die sich im Spätthanetium im mittleren Teil der Rampe entwickelten, dokumentiert das erste Auftreten mikrobiell-zementierter Erhebungen während des Känozoikums. Die Entwicklung dieser Erhebungen, mit einer zeitweiligen Dominanz der mikrobiellen Gemeinschaften gegenüber den Korallen, spricht für ein Auftreten Umwelt-gesteuerter "Phasenverschiebungen" im Zusammenhang mit häufigen Wechseln von Nahrungsangebot und Trübung während wiederkehrender nasser Phasen, welche dem extremen Treibhaus der PETM vorausgingen. Die paläoökologische Studie der Korallen-Gemeinschaften in den mikrobiell-überkrusteten Korallenhügeln, die Studie der Korallen der früheozänen Plattform in SW-Frankreich sowie eine kritische, ausgedehnte Literaturrecherche zum Auftreten spätpaläozäner bis früheozäner Korallen in der Tethys, im Atlantik und in der Karibik sprechen dafür, dass diese Korallentypen – selbst wenn sie nicht ausgedehnte Riffe formen – in der Biofazies häufig als kleine isolierte Kolonien, Berge von Geröll oder kleine Kuppelriffe auftreten. Diese Korallen könnten 'alternative' Überlebensstrategien entwickelt haben, um mit den rauen Bedingungen (hohes/wechselndes Nahrungsangebot, schwache/starke Trübung, schwankende Temperaturen, häufige physikalische Störungen) fertig zu werden, die während den Zeiten des paläogenen Treibhauses vorherrschten, und stellen damit ein gutes fossiles Analog zu modernen Korallen dar, welche nahe an ihrer Überlebensgrenze gedeihen. Diese Ergebnisse zeigen die Komplexität der biologischen Reaktionen auf extreme Bedingungen, nicht nur im Hinblick auf Temperaturen, sondern auch hinsichtlich Nahrungsangebot, physikalische Beeinträchtigungen sowie deren zeitliche Schwankungen und deren oszillierenden Charakter.
115

Albian-Cenomanian foraminifera in northeastern British Columbia and western Alberta: paleoecology and integration of biostratigraphy with allostratigraphy /

Mans, David, January 1900 (has links)
Thesis (M.SC.) - Carleton University, 2007. / Includes bibliographical references (p. 146-160). Also available in electronic format on the Internet.
116

Une approche du paleoenvironnement oceanique les foraminiferes benthiques calcaires, traceurs de la circulation abyssale /

Gofas, Serge. January 1978 (has links)
Thesis (docteur)--Université de Bretagne occidentale, Centre océanologique de Bretagne, 1978. / Includes bibliographical references (leaves [99]-107) and index.
117

Biostratigraphy of the Type Yamhill Formation, Polk County, Oregon

Gaston, Larry R. 01 January 1974 (has links)
One hundred and seventy-four species and varieties of fossil Foraminifera are recorded from thirty-eight localities in the Siletz River Volcanics, Yamhill and Nestucca Formations exposed along Mill and Gooseneck Creeks, in the Northern Coast Range of Oregon. Marginulina holmesi is described as new. The Foraminifera indicate that this sequence was deposited during late Ulatisian and Narizian time, in marine waters at bathyal or lower neritic depths, with cool surface temperatures. The Yamhill Formation can be correlated with Moody Shale member of the Toledo Formation and the Coaledo Formation of Oregon; the McIntosh and Aldwell Formations of Washington; and the upper part of the Canoas siltstone member of the Kreyenhagen Formation and the Alhambra Formation of California. It is proposed to modify, in part, the type section of the Yamhill Formation. Approximately 2.2 miles of the section, south of the Yamhill River Fault, are excluded from the original type area. Biostratigraphic studies of foraminiferal faunae from adjacent sides of the Yamhill River Fault suggest only minor vertical displacement.
118

The distribution of ostracoda and foraminifera in the Bennett shale

Sloan, Kenneth William. January 1963 (has links)
Call number: LD2668 .T4 1963 S63 / Master of Science
119

Holocene relative sea-level changes in south Hinnøya, Arctic Norway

Barnett, Robert Langdon January 2013 (has links)
This study develops techniques for the preparation and counting of testate amoebae for Holocene sea-level reconstructions. In addition, this study provides a ~3000 year relative sea-level reconstruction for south Hinnøya in the Vesterålen islands off mainland Norway, adding new data to a poorly defined period of the Holocene sea-level history of north-western Norway. This is important to quantify rates of glacial-isostatic adjustment (GIA), to refine GIA models, and to establish baseline (pre-industrial) rates of relative sea-level change. Surface sediments from two salt marshes (Storosen and Svinøyosen) in south Hinnøya are used to assess the effects of using different preparation procedures and count totals when analysing for testate amoebae. Analytical efficiency can be improved upon by using a mild alkali, chemical disaggregant (5 % KOH) to break up fibrous salt-marsh sediment and concentrate tests prior to counting. A count total of 100 individuals, rather than 150, can be used to make time gains with little or no effects on assemblages. Training sets of salt-marsh surface testate amoebae, foraminifera and elevational data are established for the two field sites. For testate amoebae, species – elevation relationships are constructed using regression modelling and applied to downcore fossil samples using a transfer function to derive estimates of sea level for the past ~100 years. The greater water depths reconstructed between ~3000 and ~100 years ago are not covered by modern foraminiferal training sets and are therefore estimated qualitatively from the fossil foraminiferal assemblages supplemented by information derived from fossil molluscs. Chronology is based on a combination of AMS14C, 210Pb, 137Cs and a suite of geochemical markers. At south Hinnøya, sea level has been falling at a rate of ~0.5 mm yr-1 over the last 3000 years.
120

Dissolução do carbonato na Bacia de Santos durante o último ciclo glacial (150 mil anos): registros micropaleontológicos, geoquímicos e sedimentares / Carbonate dissolution in the Santos Basin during the last glacial cycle (150 kyrs): micropaleontologic, geochemical and sedimentary records

Battaglin, Beatriz Bidoli Fernandes 19 July 2018 (has links)
A dissolução do carbonato está ligada à circulação dos oceanos e às variações climáticas. Através desse estudo foi possível identificar, durante o último ciclo glacial (150 mil anos), três eventos de dissolução na Bacia de Santos, durantes os estágios isotópicos marinhos 5d, 5b e 4. Para isso foram utilizados indicadores de dissolução micropaleontológicos, geoquímicos e sedimentares. Através destes indicadores foi possível inferir quais processos estão associados à dissolução do carbonato durante estes períodos. Os indicadores micropaleontológicos densidade área (ρA), espécies resistentes à dissolução (ERD e BDI) e índice de fragmentação (IF) foram capazes de identificar o início dos eventos de dissolução, enquanto os indicadores de variação tamanho de grão no sedimento bruto, teor de carbonato de cálcio (%CaCO3) em diferentes frações de tamanho, razão entre foraminíferos bentônicos e planctônicos (B/P) e peso normalizado (SBW) foram relacionados ao auge da dissolução. Os indicadores com base em cocolitoforídeos (CEX\'), índice Broecker/Clark e índice Chiu/Broecker apresentaram resultados inconclusivos. Observou-se que durante os três eventos de dissolução houve um aumento na contribuição de uma massa d\'água de origem sul (mais corrosiva ao carbonato) na região, indicado a partir da variação de δ13Cbentônico. Os eventos de dissolução também coincidiram com o aumento do aporte de sedimento não-carbonático (indicador de aporte continental, Fe/Ti e Ti/Ca). Os indicadores de paleoprodutividade (PP, RN e razão G. bulloides/G. ruber) não indicaram um aumento de produtividade primária durante os eventos de dissolução, de modo que a produtividade não foi considerada como um dos processos principais que induziram os eventos de dissolução neste estudo. As profundidades em que estes testemunhos se encontram (∼2000 m) também eliminam a possibilidade de que a dissolução tenha ocorrido em função da variação da posição da lisoclina, mesmo considerando que esta tenha estado ∼1000 m mais rasa durante o último período glacial. Desta forma, acreditamos que os eventos de dissolução estejam relacionados com a maior contribuição de uma massa d\'água de sul, mais corrosiva ao carbonato, em torno de 2000 m de profundidade, durante os MIS 5d, 5b e 4, como resultado da reorganização das massas d\'água profundas na região (uma redução na intensidade da AMOC) nestes períodos. / The calcium carbonate dissolution is linked to ocean circulation and climate change. Through this study it was possible to identify, during last glacial cycle (150 kyrs), three dissolution events occurring in the Santos Basin, during MIS 5d, 5b and 4. For this, micropaleontological, geochemical and sedimentary proxies were used. Through these proxies it was possible to infer which processes are associated with the carbonate dissolution during this period. The micropaleontological proxies of area density (ρA), dissolution resistent species (ERD and BDI) and fragmentation index (IF), were able to identify the beginning of the dissolution events, while the proxies of grain size variation, calcium carbonate content in different size fractions, benthic/planktonic ratio (B/P) and size normalized weight (SBW) were related with the dissolution peak. The proxies based in cocoliths (CEX\'), Broecker/Clark Index and Chiu/Broecker Index presented inconclusive results. It was observed that during the three dissolution events there was an increase in the contribution of the water mass of southern origin (more corrosive to the carbonate) in the region, indicated from the variation of δ13C in benthic foraminifera. This increase also coincided with the increase in the contribution of non-carbonate sediment (continental input indicator -IAC, Fe/Ca and Ti/Ca). The paleoproductivity proxies (based in cocoliths - PP, RN, and G. bulloides/G. ruber ratio) did not indicate an increase in primary productivity during dissolution events, therefore productivity was not considered as one of the processes that led to dissolution in this study. The depths at which these sediment cores are found (∼2000 m) also eliminate the possibility that the dissolution occurred as a function of the variation of the position of the lysocline, even if considering that it was ∼1000 m shallower during the last glacial period. In this way, we believe that the dissolution events are related to an increased southern-sourced water mass more corrosive to the carbonate during MIS 5d, 5b and 4, which implies the reorganization of the water masses in the region and a reduction in the strength of AMOC during these periods.

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