Global ETD Search

41	Variation de la saisonnalité paléogène en Asie Centrale : apport d'une géochimie haute résolution sur des coquilles d'huîtres / Paleogene seasonal variability in Central Asia : constraints from high-resolution geochemistry on oyster shells Bougeois, Laurie 23 October 2014 (has links) Le climat asiatique est aujourd'hui caractérisé par une forte dualité entre un climat de moussons au Sud-Est et un climat aride en Asie centrale. Ces climats sont tous les deux définis par une saisonnalité marquée, que ce soit en terme de précipitations pour le premier ou de températures pour le second. Si l'intensification des moussons asiatiques au Néogène, liée à l'influence du soulèvement final du plateau tibétain sur les climats asiatiques, semble faire consensus dans la communauté scientifique, la caractérisation des climats paléogènes est encore peu établie. Ainsi la question de savoir quand cette dualité climatique s'est installée en Asie reste encore ouverte. Au Paléogène, les reliefs liés à la collision entre les plaques indienne et eurasiatique étaient encore naissant et la distribution entre les terres et les mers très différente de l'actuelle. Notablement, une vaste mer épicontinentale et peu profonde (la Proto-Paratethys) s'étendait à travers l'Europe et l'Asie Centrale. À la fin du Paléogène, la Proto-Parathetys se retire de l'Asie Centrale, et les hautes topographies asiatiques se mettent en place. Dans ce contexte géodynamique, cette thèse cherche à caractériser les fluctuations à haute fréquence du climat en Asie Centrale afin de comprendre l'évolution de la saisonnalité au cours du Paléogène, et plus précisément pendant la période de l'Éocène (-55 à -34 Ma). Pour cela une approche originale utilisant une méthode géochimique multi- proxy sur des coquilles d'huîtres a été établie. Grâce à l'apport de l'analyse incrémentielle de marqueurs élémentaires et isotopiques sur les coquilles nous accédons aux variations saisonnières de la température et de la salinité de l'eau de mer. Ceci nous permet de mieux cerner les bilans hydriques et thermiques à l'échelle de l'année et ainsi de caractériser le climat d'Asie Centrale à très haute résolution. Combinant cette approche géochimique avec une étude sédimentologique et une étude numérique à plus grande échelle, cette thèse cherche à mieux établir les causes de l'évolution du climat régional au cours du Paléogène. / The modern Asian climate is mainly characterized by a monsoonal duality between humid summers in southern and eastern Asia and arid winters in Central Asia resulting in a strong seasonality in terms of precipitation and temperature in these respective regions. Although Neogene monsoonal intensification - mainly attributed to Tibetan plateau uplift - is well established, Paleogene Asian climate is still poorly understood such that the question of how and when this climate duality was established remains open. During Paleogene times, paleoreliefs due to the ongoing Indo-Asia collision and the land-sea distribution were very different compared to modern. Notably, a shallow epicontinental sea (the Proto-Paratethys) covered part of Europe and Central Asia. During the Eocene (-55 to -34 Ma), the Proto-Paratethys retreated westward while high Asian topographies formed. In this peculiar context, this PhD thesis aims to characterize the evolution of high-frequency climatic fluctuations in Central Asia in order to better constrain the seasonality changes associated with sea retreat, topographic uplift or nascent monsoons. We develop a novel approach using a geochemical multi-proxy methodology on oyster shells. Thanks to incremental analyses of elements and isotopes on bivalve shells, we estimate seasonal variations of temperature and salinity in seawater at high resolution. This enables to constrain precisely the annual-scale water and thermal balances and, by applying this technique to successive oyster bearing deposits widely distributed over Central Asia, aims to characterize Central Asian climate evolution. Combining this geochemical approach with a sedimentological and a numerical studies at larger time- and geographic- scale, this PhD thesis is aiming at better understanding the causes of the Eocene regional climate evolution. Relations tectonique/climat Collision Inde-Asie Sclérochronologie Géochimie Ostréidés Saisonnalité Moussons asiatiques Paléogène Tectonic/climate relationships Indo-Asia collision Sclerochronology Geochemistry Ostreidae Seasonality Asian monsoons Paleogene
42	Dinoflagellate cysts across the Cretaceous–Paleogene (K/Pg) boundary in the North Pacific; biostratigraphy, diversity, and paleoenvironmental reconstructions McLachlan, Sandy Melvin Stuart 31 August 2021 (has links) The central objective of this study is to understand phytoplankton community response following the global mass extinction event at the Cretaceous–Paleogene (K/Pg) boundary. The objective is approached through analysis of dinoflagellate cyst assemblages across the boundary interval in the North Pacific. Dinoflagellate cysts are powerful tools for deep time paleoenvironmental reconstructions and this group of microfossils has been vastly underutilized in this region of the world. On this premise, comprehensive marine palynological surveys were undertaken for the Oyster Bay Formation of eastern Vancouver Island, British Columbia, Canada and Shatsky Rise in the northwest Pacific. The Oyster Bay Formation work resulted in the discovery of the first K/Pg boundary succession west of the Rocky Mountains based on biostratigraphic controls and refined taxonomy for the genus Cannosphaeropsis found within these strata. Three new taxa are described: Cannosphaeropsis franciscana subsp. vacuoseptata subsp. nov., Cannosphaeropsis franciscana subsp. vesiculata subsp. nov. and Phelodinium fensomei sp. nov. The cyst assemblages reveal endemic associations and signals of transition between offshore coastal to estuarine settings in keeping with global eustatic trends. Oyster Bay Formation results and interpretations are compared to analyses of core samples from Deep Sea Drilling Project Site 577 at Shatsky Rise. Contrast is seen between a diverse, highly productive coastal to estuarine environment in the Oyster Bay Formation as represented by organic-walled taxa and an oligotrophic bathyal environment at Shatsky Rise during the same interval as represented by a small number of calcareous taxa. These two regions form the basis for comparison between differing assemblages in order to ascertain the extent to which phytoplankton communities were affected by changes in sea-surface and water mass conditions in conjunction with the K/Pg event. The findings reveal measurable impacts of climate and paleoenvironmental change reflected by shifts in assemblage composition and cyst morphology. A lack of extinction among many forms is consistent with studies from around the globe as presented in an exhaustive review of the literature. The dinoflagellates were marginally impacted with the most specialized taxa presenting a record of sea-surface temperature fluctuation, nutrient supply and opportunistic niche exploitation. / Graduate / 2022-08-20 paleontology micropaleontology palynology fossils microfossils microscopy biostratigraphy dinoflagellates dinoflagellate cysts phytoplankton biostratigraphy paleoecology Cretaceous Paleogene K/Pg boundary extinction climate change North Pacific
43	Patterns and Processes in the Dental Evolution of North American Plesiadapiforms and Euprimates from the Late Paleocene and Early Eocene Schottenstein, Naava Hadassah 01 October 2020 (has links) No description available. Evolution and Development Climate Change Physical Anthropology Evolutionary rates morphological evolution dental evolution Omomyiforms Plesiadapiforms Paromomyids Phenacolemur Ignacius Tetonius Pseudotetonius Eocene primates Paleocene primates Bighorn Basin Paleogene Paleotemperature
44	An Integrated Geophysical and Geologic Study of the Paleogene-Age Volcanic Body and Possible Landslide Deposit on the South Slope of the Traverse Mountains, Utah Hoopes, John C. 08 December 2011 (has links) (PDF) Development of homes, roads, and commercial buildings in northern Utah has grown significantly during the last several decades. Construction has expanded from the valley floor to higher elevations of benches, foothills, and other elevated regions of the Wasatch Mountain Front. Construction in the higher elevation areas are a concern due to potential for landslides, both new and reactivated. Landslides have been identified in this region and are dated as Pleistocene to historical in age. A possible landslide of about 0.5 km2 on the south slope of Traverse Mountain has been mapped by the Utah Geological Survey in 2005. Its surface exhibits hummocky topography and is comprised of Oligocene-age volcanic ash, block and ash flow tuffs, and andesite lava. Landslides along the Wasatch Mountain Front are complex features usually characterized by dense vegetation and poor outcrop and require a combination geological and geophysical methods to study their thickness, slope, lateral extent, and style of emplacement. Our study incorporates trenching, boreholes, and LiDAR aerial imagery. Unique to the study of landslides is our use of seismic reflection with a vibroseis source over the mapped landslide deposit. The seismic parameters of source, station spacing, and processing method provide a coherent, albeit low-resolution, image of the upper 500 m of the subsurface beneath the landslide. A major reflector boundary in our seismic profiles has an apparent dip of 4° to the south, approximately parallel with the surface topography. Its elevation and seismic character are indicative of a contact between the Oligocene-age volcanic rocks on top of a portion of the Pennsylvanian-age Bingham Mine Formation, a mixed carbonate and siliciclastic sequence. The reflector defines an asymmetric graben-like structure bounded by a north-northwest-trending normal fault system. Analysis of trenches, boreholes and local geology reveals a faulted, chaotic body of block and ash flow tuffs, surrounded by andesite lavas. Using LiDAR and surface geological reconnaissance, a possible toe or margin of a landslide has been interpreted in the north-west portion of the study area. The combination weakened block and ash flow tuffs and abundant clay production from this unit contribute to the likelihood of a coalescence of landslides in this mapped landslide area. The integration of LiDAR, trenching, boreholes and reflection seismology provides the range and resolution of data needed to assess the complex geology of landslides. Traverse Mountains Utah landslides geophysics Tertiary Paleogene Eocene Oligocene volcanic andesite block and ash flow tuff andesite 2D seismic reflection seismology vibroseis boreholes trench LiDAR Geology
45	Taxonomie, Paläoökologie und Paläobiodiversitätsdynamik benthischer Mollusken an der Kreide-Paläogen-Grenze von Patagonien Weidemeyer, Sven 14 December 2009 (has links) Aus Patagonien lagen bisher wenige Daten zu paläoökologischen Veränderungen und zur Paläobiodiversität an der Kreide-Paläogen (K/Pg)-Grenze vor. Um diese Lücke zu schließen, wurden in den argentinischen Provinzen Neuquén und Chubut zahlreiche Profile im Bereich der K/Pg-Grenze detailliert beprobt. Während einer Planktonkrise, wie sie für die K/Pg-Grenze angenommen wird, werden für benthische Mollusken folgende Entwicklungen erwartet: 1. eine Abnahme der Individuenzahlen der Benthosorganismen, 2. eine Abnahme der vom Plankton als Nahrungsquelle direkt abhängigen Organismen, 3. eine Abnahme der Benthonten mit planktotrophen Larvalstadien, 4. eine Abnahme der mittleren Körpergröße der Individuen benthischer Faunengemeinschaften und 5. eine Abnahme der Organismen mit hoher Stoffwechselrate bzw. aktiver, mobiler Lebensweise. Tatsächlich waren die hungerresistenten Gruppen der Nuculoida (flach-infaunale Depositfresser) und der Lucinidae (Chemosymbionten) im Danium signifikant häufiger als im Maastrichtium, während der Faunenanteil der Suspensionsfresser im Danium im Vergleich zum Maastrichtium signifikant niedriger ist. In den Faunengemeinschaften des Daniums von Bajo de Añelo konnten Abnahmen der Individuenzahlen, der mittleren Mobilität und der mittleren Größe festgestellt werden. Die beobachteten paläoökologischen Veränderungen zeigen somit eine Selektivität, die sich auch in der Paläobiodiversitätsdynamik widerspiegelt. Auch hier sind Suspensionsfresser, die direkt vom Planktonangebot abhängig sind, stärker betroffen als Chemosymbionten und flach-infaunale Depositfresser. Die Aussterberaten für Bivalven sind mit 28% moderat. Insgesamt sind die festgestellten Selektivitätsmuster konsistent mit den zu erwartenden Folgen einer Planktonkrise. Trotz einiger regionaler Unterschiede handelte es sich um ein globales Ereignis an der K/Pg-Grenze, das Nord- und Südhalbkugel gleichermaßen betroffen hat. / From Patagonia only a few data on palaeoecological changes and on palaeobiodiversity at the Cretaceous/Paleogene (K/Pg)-boundary are available so far. Therefore detailed samples in different K/Pg-sections in the Argentinian provinces of Neuquén and Chubut were taken to increase the data set for this region. The following trends are expected from a crisis of primary productivity in the aftermath of the K/Pg-boundary: 1. a reduction in the number of individuals of benthic organisms, 2. a decrease in the relative abundance of organisms which rely directly on photosynthesis, 3. a lower proportion of individuals with planktotrophic larval stages, 4. a reduction in the average body size of individuals within palaeocommunities and 5. an increased abundance of organisms with low metabolic rates or inactive lifestyles. In fact the proportion of the starvation-resistant groups of the Nuculoida (shallow-infaunal deposit feeders) and Lucinidae (chemosymbionts) were significantly higher in the Danian compared to the Maastrichtian. In contrast to this, the proportion of suspension feeders in the palaeocommunities was significantly lower in the Danian in comparison with the Maastrichtian. In the Danian benthic assemblages of the Bajo de Añelo area, a decrease in number of individuals, mean mobility and mean size was recognised after the K/Pg-boundary. Thus the palaeoecological changes display a selectivity, which is also reflected in the palaeobiodiversity. Suspension feeders, which depend directly on plankton particles from the water column, show higher extinction rates than chemosymbionts and shallow-infaunal deposit feeders. The extinction rates of Patagonian bivalves are moderate (28%). Overall, the recognized selectivity patterns are consistent with the expected aftermath of a crisis in primary productivity. Despite some local differences, the results argue for a global event at the K/Pg-boundary during which the northern and southern hemispheres were similarly affected. Kreide-Paläogen-Grenze Bivalven Gastropoden Patagonien Paläoökologie Chicxulub-Impakt Suspensionsfresser Depositfresser Chemosymbionten Massenaussterbeereignis Cretaceous-Paleogene-boundary bivalves gastropods Patagonia paleoecology Chicxulub-Impact suspension feeders deposit feeders chemosymbionts mass extinction event 570 Biowissenschaften, Biologie 32 Biologie TT 1021 ddc:570
46	Investigating climate change and carbon cycling during the Latest Cretaceous to Paleogene (~67-52 million years ago) : new geochemical records from the South Atlantic and Indian Oceans Barnet, J. January 2018 (has links) The Late Cretaceous–early Paleogene is the most recent period of Earth history with a dynamic carbon cycle that experienced sustained global greenhouse warmth and can offer a valuable insight into our anthropogenically-warmer future world. Yet, knowledge of ambient climate conditions and evolution of the carbon cycle at this time, along with their relation to forcing mechanisms, are still poorly constrained. In this thesis, I examine marine sediments recovered from the South Atlantic Walvis Ridge (ODP Site 1262) and Indian Ocean Ninetyeast Ridge (IODP Site U1443 and ODP Site 758), to shed new light on the evolution of the climate and carbon cycle from the Late Maastrichtian through to the Early Eocene (~67.10–52.35 Ma). The overarching aims of this thesis are: 1) to identify the long-term trends and principle forcing mechanisms driving the climate and carbon cycle during this time period, through construction of 14.75 million-year-long, orbital-resolution (~1.5–4 kyr), stratigraphically complete, benthic stable carbon (δ13Cbenthic) and oxygen (δ18Obenthic) isotope records; 2) to investigate in more detail the climatic and carbon-cycle perturbations of the Early–Middle Paleocene (e.g., the Dan-C2 event, Latest Danian Event and the Danian/Selandian Transition Event) and place these in their proper (orbital) temporal context; 3) to investigate the Late Maastrichtian warming event and its relationship to the eruption of the Deccan Traps Large Igneous Province, as well as its role (if any) in the subsequent Cretaceous/Paleogene (K/Pg) mass extinction; 4) to provide the first orbital-resolution estimates of temperature and carbonate chemistry variability from the low latitude Indian Ocean spanning the Late Paleocene–Early Eocene, through analysis of trace element and stable isotope data from multiple foraminiferal species. Taken together, the results presented in this thesis provide a critical new insight into the dynamic evolution of the climate and carbon cycle during the greenhouse world of the early Paleogene, and shed light on the potential forcing mechanisms driving the climate and carbon cycle during this time.
47	Oceanic and atmospheric response to climate change over varying geologic timescales Woodard, Stella C. 2011 May 1900 (has links) Global climate is controlled by two factors, the amount of heat energy received from the sun (solar insolation) and the way that heat is distributed Earth's surface. Solar insolation varies on timescales of 10s to 100s of thousands of years due to changes in the path of Earth's orbit about the sun (Milankovitch cycles). Earth's internal boundary conditions, such as paleogeography, the presence/absence of polar icecaps, atmospheric/oceanic chemistry and sea level, provide distribution and feedback mechanisms for the incoming heat. Variations in these internal boundary conditions may happen abruptly or, as in the case of plate tectonics, take millions of years. We use geochemical and sedimentological techniques to investigate the response of ocean chemistry, regional aridity and atmospheric and oceanic circulation patterns to climate change during both greenhouse and icehouse climates. To explore the connection between orbitally-forced changes in solar insolation, continental aridity and wind, we generated a high-resolution dust record for ~58 Myr old deep-sea sediments from Shatsky Rise. Our data provide the first evidence of a correlation between dust flux to the deep sea and orbital cycles during the Early Paleogene, indicating dust supply (regional aridity) responded to orbital forcing during the last major interval of greenhouse climate. The change in dust flux was comparable to that during icehouse climates implying subtle variations in solar insolation have a similar impact on climate during intervals of over-all warmth as they do during glacial-interglacial states. The Carboniferous Period (359-299 Ma) marks a critical time in Earth's history when a series of tectonic and biological events caused a shift in the mean climate state from a global "greenhouse" to an "icehouse". Geochemical records extracted from sedimentary rocks deposited in shallow epicontinental seaways are increasingly being used to infer relationships between tectonism, carbon cycling and climate and therefore are assumed to reflect global ocean processes. We analyzed radiogenic isotopes in biogenic apatite along a North American transect to constrain the degree of geochemical coupling between the epicontinental seas and the open ocean. Our results argue strongly for decoupling of North American seaways from the open ocean by latest Mississippian time. orbital cycles (Milankovitch) eolian dust greenhouse climate Paleogene icehouse climate Carboniferous Nd isotopes Sr isotopes Th-232 crustal He-4 paleoceanography paleoclimate North American epicontinental sea Shatsky Rise Pacific Ocean ODP Site 1209
48	Geology and petrology of the Catface porphyry Cu-Mo deposit, Vancouver Island, and linkages to the Paleogene Cascade Arc Smith, Colin Michael 12 April 2012 (has links) The geology, petrology and geochemistry of Catface porphyry Cu (Mo-Au) deposit, located on the west coast of Vancouver Island are examined in detail. Detailed core logging and sampling was carried out to characterize the geometry and identity of different intrusive phases and alteration styles prevalent during the emplacement and formation of the deposit, as well as their geochemical affinity. Early- and late-stage potassic alteration is identified, as well as main-stage sodic-calcic and calcic-sodic alteration. Four distinct Paleogene intrusive phases vary from quartz diorite to granodiorite in composition. The rocks are broadly calc-alkaline, weakly peraluminous to moderately metaluminous, and have typical arc geochemical affinity. The timing of emplacement and mineralization is constrained by U-Pb and Re-Os geochronology at 40.4-41.4 Ma and 40.9 ±0.2 Ma, respectively. All four Paleogene Catface intrusive phases were emplaced close in time with a direct temporal correlation to mineralization. The chalcopyrite- and pyrite-bearing miarolitic cavities in the Halo Porphyry intrusive, combined with U-Pb and Re-Os dates suggest this intrusive phase is the most likely source of mineralizing fluids. The intrusions were emplaced at depths of less four kilometers in the crust, as evidenced by the presence of miarolitic cavities and confirmed through amphibole-plagioclase thermobarometry, which record conditions of 615–700 °C and <200 MPa. The lack of primary anhydrite and hematite, and the presence of pyrrhotite in the ore system indicate a reduced magmatic-hydrothermal event. The SO3 contents in apatites are <450 ppm, indicative of a degassed and/or sulphate-free (reduced) magma. The assemblage K-feldspar-quartz-biotite-ilmenite yields oxygen fugacities (fO2) which are 0.5 to 3.0 log units below the quartz-fayalite-magnetite (QFM) buffer at an assumed pressure of 300 MPa; orders of magnitude more reduced than typical porphyry deposits. Parental magmas to the Catface deposit were either derived from intrinsically-reduced mantle, or more typical oxidized arc magma that was subsequently reduced during ascent and emplacement. Further isotopic work is required to determine which process contributed to the reduction of these magmas in an arc setting. Nevertheless, recognition of reduced porphyry-related magmatism on west-central Vancouver Island is of similar age to that of North Fork (~36.8-38.9 Ma) deposit in Washington suggesting a consanguinity of reduced magmatism with the Paleogene Cascade arc. / Graduate North Fork porphyry copper deposit Paleogene reduced porphyry copper deposit oxygen fugacity thermobarometry thermometry barometry geochemistry mineral chemistry geochronology mineral exploration economic geology reduced magma paragenesis Eocene Vancouver Island, B.C.
49	Stratigraphy and Depositional History of the Pantano Formation (Oligocene-Early Miocene), Pima County, Arizona Balcer, Richard Allen January 1984 (has links) The Pantano Formation comprises 1,250 m of alluvial, fluvial, lacustrine, and volcanic rocks deposited in a basin formed in response to regional extension during mid- Tertiary time in southeastern Arizona. During deposition, the locations and composition of sediment source areas varied as contemporaneous uplift occurred adjacent to the basin. The lower half of the formation was deposited as alluvial fans that prograded northward, westward, and southward; the upper half was deposited during southwestward retreat of alluvial fan deposition and the onset of lacustrine deposition. An andesite flow separates the two depositional regimes. Radiometric dates of 24.4 ± 2.6 m.y. B.P. for the andesite and 36.7 ± 1.1 m.y. B.P. for a rhyolitic tuff disconformably underlying the formation indicate that deposition occurred during Oligocene to early Miocene time. Proper stratigraphic sequencing and description, paleocurrent analysis, and gravel provenance study aided in understanding the depositional history of the formation. absolute age alluvial fans andesites Arizona Basin and Range Province basins Cenozoic dates environment geochronology igneous rocks interpretation lacustrine environment Miocene Neogene North America Paleogene Pantano Formation Pima County Arizona provenance rhyolites sedimentary basins sedimentary rocks sedimentation southern Arizona terrestrial environment Tertiary United States volcanic rocks Geology, Stratigraphic -- Miocene Geology, Stratigraphic -- Oligocene
50	A Paleocene Paleomagnetic Pole from the Gringo Gulch Volcanics, Santa Cruz County, Arizona Barnes, Arthur E. January 1980 (has links) Paleomagnetic data from 25 sites (5 samples per site) in andesite flows of the Gringo Gulch Volcanics in Santa Cruz County, Arizona, were analyzed to determine a lower Paleocene paleomagnetic pole. Alternating-field demagnetization to 500 oe peak field was sufficient to erase secondary viscous components. The mean direction of magnetization (inclination = -58.8°, declination = 167.5 °) was obtained by averaging the site mean directions of the 25 sites, which are all reversed. The resultant lower Paleocene pole position is at lat. 77.0 °N, 1on. 201.0 °E (dp = 1.2 °, dm = 1.7 °). Arizona Cenozoic continental drift Gringo Gulch Volcanics igneous rocks Laramide Orogeny movement North America orogeny Paleocene Paleogene paleomagnetism Pima County Arizona plate tectonics polar wandering pole positions Santa Cruz County Arizona Santa Rita Mountains stratigraphy tectonophysics Tertiary United States volcanic rocks

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