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An Isostatic Earth Crustal Model : and Its ApplicationsBagherbandi, Mohammad January 2011 (has links)
The Mohorovičič discontinuity (Moho), which is the surface separating the Earth’s crust from the mantle, is of great interest among geoscientists. The Moho depth can be determined by seismic and gravimetric methods. The seismic methods are expensive, time-consuming and suffer from lack of global coverage of data, while the gravimetric methods use inexpensive and mostly already available global and regional data based on an isostatic model. The main reasons for studying an isostatic model are on one hand the gaps and uncertainties of the seismic models, and, on the other hand, the generous availability of gravity data from global models for the gravimetric-isostatic model. In this study, we present a new gravimetric-isostatic Moho model, called the Vening Meinesz-Moritz (VMM) model. Also, a combined Moho model based on seismic and gravimetric models is presented. Classical isostatic hypotheses assume that the topographic potential is fully compensated at all wavelengths, while is not the case in reality. We found that the maximum degree of compensation for the topographic potential based on the new Moho model is 60, corresponding to the resolution of about 330 km. Other (dynamic) isostatic effects (such as temporal compensation, plate tectonics, post-glacial rebound, etc) should be considered as well, which are disregarded in this thesis. Numerical results imply that the dynamic phenomena affect mostly the long-wavelengths. The VMM model is applied for different purposes. The Moho density contrast is an important parameter for estimating the Moho depth, and we present a technique to simultaneously estimate Moho depth and density contrast by the VMM and seismic models. Another application is the recovery of gravity anomaly from Satellite Gravity Gradiometry (SGG) data by a smoothing technique, and we show that the VMM model performs better than the Airy-Heiskanen isostatic model. We achieved an rms difference of 4 mGal for the gravity anomaly estimated from simulated GOCE data in comparison with EGM08, and this result is better than direct downward continuation of the data without smoothing. We also present a direct method to recover Moho depth from the SGG mission, and we show that the recovered Moho is more or less of the same quality as that obtained from terrestrial gravimetric data (with an rms error of 2 km). Moreover, a strategy is developed for creating substitutes for missing GOCE data in Antarctica, where there is a polar gap of such data. The VMM model is further used for constructing a Synthetic Earth Gravity Model (SEGM). The topographic-isostatic potential is simple to apply for the SEGM, and the latter can be an excellent tool to fill data gaps, extending the EGMs to higher degrees and validating a recovery technique of the gravity field from a satellite mission. Regional and global tests of the SEGM yield a relative error of less than 3 % vs. EGM08 to degree 2160. / QC 20110405
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Reconstitution de l'évolution du niveau marin relatif holocène dans le Finistère (Bretagne, France) : dynamiques régionales, réponses locales / Holocene Relative Sea-Level reconstruction in the Finistère region (Brittany, France) : regional dynamics, local responsesGoslin, Jérôme 14 February 2014 (has links)
Depuis la fin de la dernière période glaciaire, chaque région du globe a connu une évolution du niveau marin relatif - ou niveau marin « ressenti » - qui lui est propre, principalement conditionnée par la conjonction de la remontée globale « eustatique » du niveau marin et des dynamiques isostatiques, responsables des mouvements verticaux de la surface terrestre. Ces derniers, encore en cours aujourd’hui, jouent un rôle majeur dans l’augmentation actuelle du niveau marin. Malgré d’importants travaux menés au Royaume-Uni au cours des dernières décennies, la connaissance de l’évolution du niveau marin relatif holocène et des dynamiques isostatiques sur la façade Atlantique ouest-européenne demeure largement imparfaite, notamment en ce qui concerne les côtes françaises. De par sa position géographique, le Finistère se pose comme un jalon idéal afin de renforcer les connaissances dans ce domaine. A ce titre, cette thèse a eu pour principaux objectifs d’obtenir une courbe fiable de remontée du niveau marin relatif holocène pour le Finistère et d’évaluer l’apport de nouvelles connaissances à ce sujet pour la compréhension des dynamiques isostatiques régionales. Dans un premier temps, un important travail de terrain a été réalisé sur différents sites répartis tout autour de la péninsule Finistérienne. Une nouvelle méthode multi-proxies, développée à partir de l’utilisation novatrice d’indicateurs géochimiques et microstratigraphiques, a permis de reconstituer l’évolution du niveau marin au cours des 8000 dernières années à partir des séquences sédimentaires prélevées. Nos résultats démontrent que le Finistère a connu une remontée continue du niveau marin relatif à des rythmes décroissants durant l’Holocène. Cette évolution a provoqué de profonds bouleversements dans l’organisation et le fonctionnement des systèmes sédimentaires côtiers dont les implications sont discutées. En particulier, de nouvelles hypothèses sont proposées quant à l’origine de la baisse pluri-métrique du niveau marin jusqu’alors invoquée autour de 3000 B.P. Dans un second temps, nos résultats ont été confrontés aux reconstitutions du niveau marin obtenues dans le sud-ouest de l’Angleterre ou dans le sud du golfe de Gascogne, ainsi qu’aux résultats produits par des modèles géophysiques de réajustement isostatique. Ces comparaisons ouvrent de nouvelles perspectives quant à la compréhension de l’amplitude et de la chronologie des dynamiques isostatiques holocène à l’échelle du nord-ouest de l’Europe. / Since the Last Glacial Maximum, the different regions of the world underwent specific relative sea-level evolutions, principally under the joint influences of the worldwide “eustatic” sea-level rise and regional isostatic dynamics. The latter, still going on today, appear to play a major role in the contemporaneous sea-level rise. Despite of the several studies made on the subject in the UK within the last decades, only little knowledge appears available on the relative sea-level evolution and on the isostatic dynamics at the scale of the Western Europe Atlantic façade, and particularly on the French Atlantic coasts. Due to its geographical position, the Finistère region stands out as a potentially ideal region for providing new material on the subject.This PhD work aimed to produce a new and reliable Holocene relative sea-level curve for the Finistère region. At first, sedimentary sequences were retrieved from several sites located all around the Finistère peninsula. In order to reconstruct RSL from these sequences, an innovative multi-proxy method was developed, conjointly using geochemical and microstratigraphic indicators. Our results bear out that, in the Finistère region, the Holocene RSL followed a continuous rise at progressively decreasing rates during the last 8000 yrs B.P. This evolution led to massive disruptions in the organization and functioning of the coastal sedimentary systems which are discussed. In particular, new hypotheses are proposed to explain the pluri-metric drop in RSL that was formerly invoked ca. 3000 B.P. The results we obtained were then compared to the RSL data available in the south-western UK or the south of the Bay of Biscay, along with glacio-isostatic adjustment geophysical models. These comparisons provide new enlightments on both the amplitude and the chronology of isostatic dynamics at the scale of the north-western Europe during the Holocene.
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Sea level change and archaeological site locations on the Dundas Island Archipelago of north coastal British ColumbiaMcLaren, Duncan 01 May 2008 (has links)
Coastal archaeological sites dating to the late Pleistocene and early Holocene are rare on the northwest coast of North America, as they are in many regions of the world, due to changing environmental factors, in particular glacial isostasy and eustasy, resulting in low visibility and survival of archaeological deposits. This dissertation outlines methods and results used to locate late Pleistocene and early Holocene archaeological sites on the Dundas Island Archipelago on the Northwest Coast culture area of British Columbia, Coast Tsimshian Territory, where archaeological sites older than 5,000 years BP are not known. Part of the reason for this is that masses of glacial ice accumulated on the Cordilleran Mountains of North America during the last glacial maximum, which depressed mainland coastal regions isostatically in relation to sea levels. As a result of lateral displacement of subcrustal material, areas to the west of the Cordillera bulged and landforms were raised relative to the sea. With deglaciation, the depressed crust began to rebound and the forebulge subsided resulting in rapidly dropping sea levels along the mainland to the east and rapidly rising sea levels along outer coastal islands to the west. These processes occurred in concert with sea levels that began rising eustatically following the last glacial maximum. Between the inner and outer coasts lies the Dundas Island Archipelago. This research project hypothesized that the study area was close to a sea level hinge lying between these two regions with very different sea level histories. With less significant shoreline movement, it was further anticipated that shoreline situated archaeological sites dating to the late Pleistocene and early Holocene might be found in close proximity, although slightly higher than the present day shoreline. This dissertation addresses the following question: Where are late Pleistocene and early Holocene archaeological sites situated on the Dundas Island Archipelago? To address this question, this dissertation details the methods and results used to determine a sea-level and vegetation history for the Dundas Island Archipelago and the archaeological prospection that was undertaken along relict shorelines.
Pollen analysis of sediments from a lake core identified a sequence of six vegetation zones beginning before 12,385 BP. Based on diatom identification of cores from four lake basins, combined with supporting indicators, a sea level curve for the Dundas Islands was constructed showing a slow regression of shorelines from 13 m above the barnacle line to present day elevations over the last 12,000 years BP.
Drawing upon these palaeo-environmental data, areas were selected for archaeological survey and prospection. Field testing of these selected areas resulted in the identification of five archaeological sites dating to the early Holocene. These are the first archaeological sites dating older than 5,000 years BP that have been found and dated in Coast Tsimshian Territory. The elevations and radiocarbon dates on all archaeological deposits are consistent with the sea level curve based on palaeo-environmental data points.
Overall, this dissertation draws upon palaeo-environmental methods and results for the purpose of identifying and interpreting archaeological sites situated on raised marine landforms.
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