Metamorphism of the Helanshan Complex: implications for the tectonic evolution of the Khondalite Belt,North China Craton

Leung, Wing-hang, Allen., 梁穎行.

January 2009

published_or_final_version / Earth Sciences / Master / Master of Philosophy

Cratons - China - Ningxia Huizu Zizhiqu.

Regional tectonic deformation of the northern Oregon coast as recorded by Pleistocene marine terraces

Mulder, Richard Alan

01 January 1992

Pleistocene marine terraces of the northern Oregon coast are an important factor in understanding the tectonics and paleoseismicity of the central Cascadia subduction zone. The lowest marine terrace, tentatively correlated to 80,000 year old Whiskey Run terrace of southern Oregon, is intermittently exposed in the present day sea cliff along an 80 km section of coastline between Tillamook Head and Cape Kiwanda. Terrace sediments consist largely of fine material such as clay, silt and fine sand with several locations containing large amounts of gravel derived from nearby headlands and steep bedrock hills. The terrace sediments are interpreted to be deposited in back-barrier marine environments, such as a bay, very similar to the bays which presently exist on the northern Oregon coast. Interbedded with terrace sediments are peat horizons which represent buried marsh or forest surfaces. These peat horizons have gradational lower contacts and abrupt upper contacts with terrace sediments indicating that the marsh or forest surfaces formed gradually above sea level and were suddenly downdropped below sea level to be buried by bay sediments. Such features are consistent with a seismically active Cascadia subduction zone which produces interseismic coastal uplift and coseismic coastal subsidence.

Plate tectonics -- Oregon

Geology -- Oregon -- Clatsop County

Geology -- Oregon -- Tillamook County

Stratigraphic geology -- Pleistocene

Geology

Stratigraphy

Tectonics and Structure

Tectonic reconstruction of the Alpine orogen in the western Mediterranean region

Rosenbaum, Gideon

January 2003

Abstract not available

Orogenic belts -- Western Mediterranean

Alpine regions -- Western Mediterranean

Orogeny -- Western Mediterranean

Plate tectonics

Subduction zones

Back-arc basins

Slabs (Structural geology)

Morphotectonics

Geological modeling

Geological Modeling of Dahomey and Liberian Basins

Gbadamosi, Hakeem B.

16 January 2010

The objective of this thesis is to study two Basins of the Gulf of Guinea (GoG), namely the Dahomey and the Liberian Basins. These Basins are located in the northern part of the GoG, where oil and gas exploration has significantly increased in the last 10 years or so. We proposed geological descriptions of these two Basins. The key characteristics of the two models are the presence of channels and pinch-outs for depths of between 1 km and 2 km (these values are rescaled for our numerical purposes to 600- m and 700-m depths) and normal faults below 3 km (for our numerical purposes we use 1 km instead of 3 km). We showed that these models are consistent with the plate tectonics of the region, and the types of rocks and ages of rocks in these areas. Furthermore, we numerically generated seismic data for these two models and depth-migrated them. We then interpreted the migrated images under the assumption that the geologies are unknown. The conclusions of our interpretations are that we can see clearly the fault systems in both models. However, our results suggest that seismic interpretations of the channels and pinch-outs associated with the geology of the Dahomey and Liberian Basins will generally be difficult to identify. In these particular cases, we missed a number of channels and pinch-outs in our interpretations. The limited resolution of seismic images is the key reason for this misinterpretation.

Dahomey

Liberian

Basins

Gulf of Guinea

Plate tectonics

Geological models

Pinch-outs

Channels

Finite-difference

Pre-Stack Depth Migration (PSDM)

Shot-gathers

Zero-offset gathers

Metamorphism of the Helanshan-Qianlishan Complex and its implications for tectonic evolution of the Khondalite Belt in the western block,North China Craton

Yin, Changqing., 尹常青.

January 2010

published_or_final_version / Earth Sciences / Doctoral / Doctor of Philosophy

Cratons - China - Ningxia Huizu Zizhiqu.

Mass transport processes and deposits in offshore Trinidad and Venezuela, and their role in continental margin development

Moscardelli, Lorena Gina

28 August 2008

Not available / text

Continental margins--Venezuela

Sedimentation and deposition--Venezuela

Sea-floor spreading

Plate tectonics

Submarine geology

Mass transport processes and deposits in offshore Trinidad and Venezuela, and their role in continental margin development

Moscardelli, Lorena Gina, 1977-

22 August 2011

Not available / text

Continental margins--Venezuela

Sedimentation and deposition--Venezuela

Sea-floor spreading

Plate tectonics

Submarine geology

The seismic structures of the U.S. Pacific Northwest and the scaling and recurrence patterns of slow slip events

Gao, Haiying

03 1900

xv, 136 p. : ill. (some col.) / The Pacific Northwest of the United States has been tectonically and magmatically active with the accretion of the Farallon oceanic terrane "Siletzia" ∼50 Ma. The accretion of Siletzia terminated the flat-slab subduction of the Farallon slab and initiated the Cascadia subduction zone. In this dissertation, I focus on both the large-scale tectonic structures preserved seismically in the crust and upper mantle, and the small-scale, short-term aseismic processes on the plate interface. I measure the shear-wave splitting trends around eastern Oregon with a dataset of ∼200 seismometers from 2006-2008 to analyze the upper-mantle anisotropy. The delay times between splitted shear-waves range from 0.8 s to 2.7 s. In the High Lava Plains, the fast polarization direction is approximately E-W with average delay time ∼1.8 s. I infer that there must be significant active flow in a roughly E-W direction in the asthenosphere beneath this area. The splitting pattern is more variable and complicated in NE Oregon, where the crust and mantle lithosphere may be a significant contribution. In terms of the imaged seismic velocity structures, I infer that the Eocene sedimentary basins in south-central Washington lie above a magmatically underplated crust of extended Siletzia lithosphere. Siletzia thrusts under the pre-accretion forearc, and its southeast termination is especially strong and sharp southeast of the Klamath-Blue Mountains gravity lineament. Magmatic intrusion has increased upper crustal velocity as in the less active Washington Cascades, but the higher temperatures beneath the magmatically active Oregon Cascades have a dominating effect. To better understand the physical mechanism of slow slip events on the plate interface, I explore the scaling relationships of various source parameters collected mainly from subduction zones worldwide and also other tectonic environments. The source parameter scaling relationships of slow slip events highlight the similarities and differences between slow slip phenomena and earthquakes. These relationships hold implications for the degree of heterogeneity and fault healing characteristics. The recurrence statistics of northern Cascadia events behave weakly time predictable and moderately anti-slip predictable, which may indicate healing between events. This dissertation includes co-authored materials both previously published and submitted for publication. / Committee in charge: Eugene Humphreys, Chairperson; David Schmidt, Member; Ray Weldon, Member; James Isenberg, Outside Member

Pacific Northwest

Subduction zones -- Northwest, Pacific

Shear-wave splitting

Slow slip

Sedimentary basins -- Northwest, Pacific

Geophysics

Plate tectonics -- Northwest, Pacific

Northwest, Pacific

Reconstitution de la convection du manteau terrestre par assimilation de données séquentielle / Reconstruction of Mantle Circulation Using Sequential Data Assimilation

Bocher, Marie

25 November 2016

Cette thèse vise à proposer de nouvelles méthodes permettant de reconstruire la circulation dans le manteau terrestre et l'évolution de la tectonique de surface pour les deux cents derniers millions d'années. Nous utilisons des modèles numériques de convection mantellique dans lesquels la dynamique de surface est comparable à la tectonique terrestre. En combinant ces modèles avec des reconstructions de la tectonique des plaques il est possible d'estimerla structure et l'évolution du champ de température dans le manteau. Jusqu'à présent, l'inclusion des reconstructions de la tectonique des plaques se faisait en imposant des conditions aux limites du modèle (équilibre des forces, vitesses imposées...). Ces techniques, bien que permettant de tester la validité de différents scénarios tectoniques alternatifs, n'autorisent pas de rétroaction dynamique de la convection mantellique sur la tectonique de surface.Dans ce travail, nous avons développé des techniques d'assimilation de données permettant d'intégrer les reconstructions de la tectonique des plaques dans un modèle numérique tout en laissant se développer de manière auto-cohérente cette rétroaction. Les techniques développées permettent également de prendre en compte les incertitudes associées aux reconstructions de la tectonique des plaques et de calculer les erreurs sur l'estimation finale de la circulationmantellique.Dans un premier temps, nous avons développé un filtre de Kalman suboptimal qui permet d'estimer la structure et l'évolution de la circulation mantellique la plus probable à partir d'un modèle numérique de convection et d'une sérietemporelle d'observations de surface, ainsi que de leurs incertitudes respectives.Ce filtre a été testé sur des expériences synthétiques. Celles-ci consistent à tenter de retrouver une évolution témoin à partir d'une série temporelle de données issues de cette évolution. Ces expériences ont montré qu'il était possible, enprincipe, de reconstruire la structure et l'évolution de l'ensemble du manteau à partir d'observations de vitesses et de flux de chaleur à la surface.Dans un second temps, nous avons développé un filtre de Kalman d'ensemble. Ce filtre permet non seulement d'estimer de manière plus précise la géométrie des structures mantelliques, mais aussi les incertitudes sur cette estimation. / This dissertation focuses on the developpement of data assimilation methods to reconstruct the circulation of the Earth's mantle and the evolution of its surface tectonics for the last 200~Myrs. We use numerical models of mantle convection in which the surface dynamics is similar to the Earth's. By combining these models with plate tectonics reconstructions, it is possible to estimate the structure and evolution of the temperature field of the mantle. So far, the assimilation of plate tectonics reconstructions was done by imposing specific boundary conditions in the model (force balance, imposed velocities...). These techniques, although insightful to test the likeliness of alternative tectonic scenarios, do not allow the full expression of the dynamical feedback between mantle convection and surface tectonics. We develop sequential data assimilation techniques able to assimilate plate tectonics reconstructions in a numerical model while simultaneously letting this dynamicalfeedback develop self-consistently. Moreover, these techniques take into account errors in plate tectonics reconstructions, and compute the error on the final estimation of mantle circulation.First, we develop a suboptimal Kalman filter. This filter estimates the most likely structure and evolution of mantle circulation from a numerical model of mantle convection, a time series of surface observations and the uncertainty on both. This filter was tested on synthetic experiments. The principle of a synthetic experiment is to apply the data assimilation algorithm to a set of synthetic observations obtained from a reference run, and to then compare the obtained estimation of the evolution with the reference evolution. The synthetic experiments we conducted showed that it was possible, in principle, to reconstruct the structure and evolution of the whole mantle from surface velocities and heat flux observations.Second, we develop an Ensemble Kalman Filter. Instead of estimating the most likely evolution, an ensemble of possible evolutions are computed. This technique leads to a better estimation of the geometry of mantle structures and a more complete estimation of the uncertainties associated.

Méthodes inverses

Assimilation de données

Convection mantellique

Filtre de Kalman

Tectonique des Plaques

Inverse Theory

Lithosphere and Mantle Dynamics

Data Assimilation

Mantle Convection

Kalman Filter

Plate Tectonics

Apport de la géodésie à l'étude de la jonction triple de l'Afar / Geodetic study of the Afar triple junction

Deprez, Aline

18 September 2015

L'Afrique de l'est représente un site idéal pour étudier les mécanismes à l'origine de la mise en place et du maintien d'une région en extension. Le rift est africain marque la séparation intra-continentale entre les plaques Nubie et Somalie, dans un contexte principalement tectonique dominé par l'activité de failles normales, alors qu'au niveau des rides de la Mer Rouge et d'Aden l'Arabie se détache du couple de plaques Somalie/Nubie dans un contexte principalement magmatique avec accrétion océanique. Ces trois frontières de plaques se rejoignent au niveau de la dépression Afar. Elles forment une jonction triple qui correspond à une zone de transition entre une lithosphère continentale étirée et des axes d'accrétion océaniques où la présence du point chaud sous la lithosphère a fortement influencé l'extension. À partir de mesures et de traitements géodésiques (GPS, InSAR), l'objectif de ce travail de thèse est de décrire les mouvements actuels de la surface dans cette région de l'Afrique de l'est, où trois plaques s'éloignent les unes des autres, et où les différentes frontières de plaques sont à des stades différents de rifting. L'analyse de la déformation actuelle permet de préciser la dynamique des zones d'extension à court terme, en tenant compte de leur stade d'évolution et notamment des variations de l'activité magmatique et de l'activité sismique. Ainsi trois études ont été menées à des échelles spatiales différentes. La première porte sur l'ensemble du REA (3000 km), la seconde sur la partie centrale de la dépression Afar où se localise la jonction triple (quelques centaines de km), et la troisième sur le rift d'Asal Ghoubbet à Djibouti (quelques dizaines de km). / Eastern Africa is a natural laboratory for investigating rifting and break-up. Along the East African Rift, the divergence between Nubia and Somalia plates is accommodated within a mainly tectonic framework dominated by active normal faulting. While Arabia plate moves apart from the African plate couple at the Red Sea and Aden Ridges within a mainly magmatic framework with seafloor spreading. These three plate boundaries meet in Afar Depression forming a triple junction, which correspond to a transition zone between stretched continental lithosphere and oceanic spreading axes, where the role of the mantle plume impacts is determinant. In this thesis, current deformation of the Earth's surface is monitored using geodetics data (GPS, InSAR), in the East African zone where three plates are splitting apart and where the different boundaries encompass areas in all stages of rifting. The current deformation analysis allows clarify extension zone dynamics at short term, taking into account their stage of rifting evolution and especially the variations of magmatic and/or seismic activity. Three studies were carried out at three different spatial scales. The first one considers the whole East African Rift (3000 km), the second one is about the central part of the Afar Depression where the triple junction is situated (a few hundreds of km) and the third focuses on the Asal-Ghoubbet rift in Djibouti (a few tens of km).

Mouvement des plaques

Tectonique des plaques

Déformation extensive

Afrique de l’Est

Sismologie

Plate motions

Plate tectonics

Extensive deformation

East Africa

Sismolgy

551.136

551.22

551.4