Mesozoic rifting along the eastern seaboard of North America : insights from the seismic velocity structure of the Newfoundland margin and the northern Gulf of Mexico

Eddy, Drew Richard

10 February 2015

Passive margins along the eastern seaboard of North America formed during early Mesozoic continental rifting and seafloor spreading, tectonic processes that are not fully understood. Seismic refraction and reflection data at the northeastern and north-central Gulf of Mexico and the Grand Banks of Newfoundland, Canada, are used to interpret the deep seismic velocity structure of sediments, crust, and mantle. These interpretations allow for a better understanding of continental rifting, mantle upwelling, magmatism, and seafloor spreading. Magma-poor rifting of the Newfoundland-Iberian margin developed a wide continent-ocean transition zone (COT). I present an analysis of 2-D marine seismic refraction and reflection data from the SCREECH project, including a shear velocity model to constrain the composition of the Newfoundland COT. Comparing SCREECH Line 2 Vp/Vs ratios with depth to potential lithologies supports a COT comprised of hyperextended continental crust and serpentinized mantle. Reconstructions of the opening of the Gulf of Mexico basin are impeded by a lack of seafloor magnetic anomalies and an abundance of sediments that obscure acquisition of seismic refraction datasets. Accordingly, the roles of mantle upwelling, magmatism, and lithospheric extension in this small ocean basin are poorly known. I present new 2-D marine seismic refraction data from the U.S. Gulf of Mexico collected during the 2010 GUMBO project. Rifting in the eastern Gulf of Mexico developed above a zone of anomalously high mantle potential temperatures that led to abundant magmatism. Syn-rift basins in continental crust, high velocity lower crust, a narrow zone of crustal thinning, and seaward-dipping reflectors support this interpretation. Oceanic crust here is thick despite slow seafloor-spreading rates, implying continuation of a thermal anomaly after rifting. In the north-central Gulf of Mexico, transitional crust is consistently thin (~10 km) across a wide zone. Velocity-depth comparisons, asymmetry of the north-central Gulf with the Yucatán margin, and dating of onshore xenoliths support either stretched and magmatically intruded continental crust or a multi-stage episode of seafloor spreading with ridge jumps. I contend that although tectonic inheritance may ultimately influence the location of a passive margin, the rifting process is largely controlled by mantle potential temperature and upwelling rate. / text

Rifted margins

Continental extension

Seafloor spreading

Magmatism

From rifting to collision : the evolution of the Taiwan Mountain Belt

Lester, William Ryan

10 October 2013

Arc-continent collisions are believed to be an important mechanism for the growth of continents. Taiwan is one of the modern day examples of this process, and as such, it is an ideal natural laboratories to investigate the uncertain behavior of continental crust during collision. The obliquity of collision between the northern South China Sea (SCS) rifted margin and Luzon arc in the Manila trench subduction zone allows for glimpses into different temporal stages of collision at different spatial locations, from the mature mountain-belt in central-northern Taiwan to the 'pre-collision' rifted margin and subduction zone south of Taiwan. Recently acquired seismic reflection and wide-angle seismic refraction data document the crustal-scale structure of the mountain belt through these different stages. These data reveal a wide rifted margin near Taiwan with half-graben rift basins along the continental shelf and a broad distal margin consisting of highly-extended continental crust modified by post-rift magmatism. Magmatic features in the distal margin include sills in the post-rift sediments, intruded crust, and a high-velocity lower crustal layer that likely represents mafic magmatism. Post-rift magmatism may have been induced by thermal erosion of lithospheric mantle following breakup and the onset of seafloor spreading. Geophysical profiles across the early-stage collision offshore southern Taiwan show evidence the thin crust of the distal margin is subducting at the Manila trench and structurally underplating the growing orogenic wedge ahead of the encroaching continental shelf. Subduction of the distal margin may induce a pre-collision flexural response along the continental shelf as suggested by a recently active major rift fault and a geodynamic model of collision. The weak rift faults may be inverted during the subsequent collision with the continental shelf. These findings support a multi-phase collision model where the early growth of the mountain belt is driven in part by underplating of the accretionary prism by crustal blocks from the distal margin. The wedge is subsequently uplift and deformed during a collision with the continental shelf that involves both thin-skinned and thick-skinned structural styles. This model highlights the importance of rifting styles on mountain-building. / text

Marine geophysics

Rifted margins

Rifts

Structural geology

Taiwan

Collisions

Rifting

Mountain building

Orogeny

Continental shelf

South China Sea

Luzon arc

Manila trench

Évolution tectono-magmatique menant à l'océanisation sur les marges passives pauvres en magma : exemple des marges Australie-Antarctique / Tectono-magmatic evolution leading to the onset of oceanic spreading at magma-poor rifted margins : example of the Australia-Antarctica margins

Gillard, Morgane

04 December 2014

L’architecture crustale et l’évolution de la partie profonde des marges passives peu-magmatiques sont encore mal comprises. En prenant comme chantier principal les marges Australie-Antarctique, cette thèse montre que l’enregistrement de la déformation dans les sédiments met en évidence une évolution polyphasée des marges distales. Cette évolution polyphasée implique le développement de multiples systèmes de détachement présentant une organisation hors-séquence et menant à une architecture finale symétrique des domaines exhumés. Cette organisation des systèmes de failles est liée à des cycles de délocalisation / relocalisation de la déformation influencés par l’apport magmatique, par un niveau de découplage et par la remontée asthénosphérique. L’interaction faille / magma apparait particulièrement importante dans l’évolution des marges distales. Cette étude a permis de mieux caractériser la rupture lithosphérique, qui peut se définir comme un événement tectono-magmatique progressif. / The crustal architecture and evolution of the deepest part of magma-poor rifted margins is currently not well understood. Taking the Australia-Antarctica margins as main study area, this thesis shows that the record of the deformation in sediments highlights a clear polyphase evolution of distal margins. This polyphase evolution implies the development of multiple detachment systems presenting an out-of-sequence organization and leading to a final symmetric architecture of the exhumed domains. This organization of fault systems is linked to cycles of delocalisation / re-localisation of the deformation influenced by the magmatic supply, by a decoupling level and by the asthenospheric uplift. Fault / magma interaction appears particularly important during the evolution of distal margins. This study allowed a better characterization of the lithospheric breakup, which can be defined as a progressive tectono-magmatic event.

Marges passives

Australie-Antarctique

Interprétation sismique

Architecture sédimentaire

Exhumation

Rupture lithosphérique

Systèmes de détachement

Océanisation

Sismologie

Rifted margins

Australia-Antarctica

Seismic interpretation

Sedimentary architecture

Exhumation

Lithospheric breakup

Detachment systems

Oceanisation

Sismology

551.8

551.22

Linking tectonic evolution with fluid history in hyperextended rifted margins : examples from the fossil Alpine and Pyrenean rift systems, and the present-day Iberia rifted margin / Relation entre l'évolution tectonique et le rôle des fluides pendant la formation des marges de type rift : les exemples des Alpes, des Pyrénées et de la marge Ibérique

Pinto, Victor Hugo

03 December 2014

Cette thèse est centrée sur la caractérisation des traceurs des fluides qui interagissent avec les roches du socle et les roches sédimentaires dans les systèmes riftés hyper-amincis exposés dans la Téthys alpine, les Pyrénées et Ibérie-Terre Neuve. L’étude de ces fluides est basée sur les observations géologiques, les analyses géochimiques et les données géophysiques. Deux types de fluides ont été identifiés : les fluides associés à la croûte continentale, avec une signature caractérisée par Si et Ca, ainsi que les fluides liés au manteau en exhumation, avec une signature caractérisée par Si, Mg, Fe, Mn, Ca, Ni, Cr et V. La percolation des fluides est fortement liée à la formation des failles de détachement et à l’évolution des systèmes hyper-amincis. Le flux de fluides dans ces systèmes a des implications importantes pour les changements rhéologiques, pour la nature des sédiments et pour les modifications chimiques des réservoirs de la Terre. / This thesis focus in the identification of geochemical tracers and effects of fluid that interact with basement and sedimentary rocks in hyperextended systems. The investigation of such fluids is based on geological observation, geochemical analyses and geophysical data from fossil hyperextended rift systems exposed in the Alps and in the West Pyrenees, and the present-day distal margins of Iberia and Newfoundland. Two types of fluids were identified during this study. The first type, referred to as continental crust-related fluids, has a signature of Si and Ca. The second type, referred to as mantle-related fluids, has a signature of Si, Mg, Fe, Mn, Ca, Ni, Cr and V. The fluid percolation is strongly related to the formation of extensional detachment faults and the evolution of hyperextended systems. Fluid flow in these systems has major implications for the nature of sediments, rheological changes and chemical modifications of the Earth’s reservoirs throughout its evolution.

Fluides

Tectonique des marges riftées

Evolution des domaines hyper-amincis

Failles de détachement

Serpentinisation

Roche de faille

Exhumation mantélique

Saussuritisation

Fluids

Tectonics of rifted margins

Evolutions of hyperextended domains

Detachment faults

Serpentinization

Fault rocks

Mantle exhumation

Saussuritization

551.1

Evolution morpho-tectonique et magmatique polyphasée des marges ultra-distales pauvres en magma : la transition océan-continent fossile de l'Err et de la Platta (SE Suisse) et comparaison avec des analogues actuels / Morpho-tectono-magmatic evolution and reactivation of ultra-distal magma-poor rifted margins : the fossil Err-Platta Ocean-Continent-Transition (SE Switzerland) and comparison to present-day analogues

Epin, Marie-Eva

30 November 2017

Cette thèse a pour but d’étudier l’évolution morpho-structurale et magmatique des marges distales pauvres en magma ainsi que leur réactivation. Cette étude est focalisée sur les marges fossiles distales de la Téthys Alpine. L’étude de la réactivation de ces domaines (l’Err et la Platta, Suisse) montre que les chevauchements alpins réactivent principalement d’anciennes structures de rift. L’Err peut ainsi être restaurée et correspond à un ancien domaine de croute hyper-amincie caractérisé par un système de failles de détachement qui évolue en séquence et conduit à la rupture continentale et à l’exhumation du manteau. La Platta correspond à un domaine de manteau sous continental exhumé associé à une augmentation des additions magmatiques syn-tectoniques dans les parties distales. Ce domaine est interprété comme la relique d’une structure en dôme coiffée par une faille de détachement et recoupée par des failles normales favorisant la mise en place de magma et de fluides. L’approche utilisée a permis de mieux contraindre l’architecture d’une marge distale pauvre en magma et de discuter les processus de formation et de la réactivation des limites de plaque. / The aim of this study is to investigate the morpho-structural and magmatic evolution of magma-poor distal rifted margins, as well as their reactivation. This study is focused on the fossil distal margins of the Alpine Tethys. The study of the reactivation of these domains, (Err and Platta, Switzerland) shows that alpine thrusts principally reworked former rift structures. The Err nappe can be restored as a hyper-extended domain characterized by a system of detachment faults with a complex architecture evolving in-sequence and leads to the continental crust separation and the exhumation of mantle. The Platta nappe corresponds to a subcontinental exhumed mantle domain associated to an increase of syn-tectonic magmatic additions oceanwards. The distal domain is interpreted as the relic of a dome-shaped structure capped by a detachment fault and crosscut by latter normal faults facilitating the emplacement of basalts and fluid circulations. The approach developed in this thesis enabled a better understanding of one distal and ultra-distal magma-poor rifted margin, as well as to discuss processes related to the formation and reactivation of plate boundaries.

Marges distales pauvres en magma

Domaines hyper-étirées

Domaines de manteau exhumé

Architecture 3D

Réactivation

Nappe d’Err-Platta

Alpes

Distal magma-poor rifted margins

Hyper-extended domains

Exhumed mantle domains

3D architecture

Reactivation

Err-Platta nappe

Alps

551.8

Modes de déformation et implications cinématiques des marges hyper-étirées : les exemples du sud de l'Atlantique Nord / Deformation modes and kinematic implications of hyper-extended rifted margins : the examples of the southern North Atlantic

Nirrengarten, Michael

01 December 2016

Les modes de déformation des systèmes de rift hyper-étirés pauvres en magma évoluent dans le temps et dans l’espace. Ainsi les structures et architectures observées varient le long d’une section en profondeur ainsi que sur une carte. Cette étude vise à caractériser les modes de déformation des systèmes hyper-étirés et leur propagation en utilisant les exemples du sud de l’Atlantique Nord. L’architecture de la terminaison de la croûte continentale a été comparée à la théorie du prisme critique de Coulomb car sa forme est prismatique, la déformation finale est cassante/frictionnelle et ce prisme glisse sur un décollement basal. Cette théorie met en évidence le comportement distinct des deux marges conjuguées. De plus, elle contraint l’architecture crustale, permet l’intégration des failles contre-régionales et explique la formation des blocs allochtones dans un modèle de failles en séquence. L’intégration des modes de déformation dans un modèle évolutif 3D impose un contexte cinématique fiable, ce qui n’est pas le cas de l’ouverture océanique du sud de l’Atlantique Nord. Ceci est dû à l’interprétation de l’anomalie J comme un isochrone. L’investigation de cette anomalie indique une formation polygénique et polyphasée incohérente avec un isochrone ou une limite de domaine. Ainsi l’anomalie J est inutilisable pour les reconstructions cinématiques. L’évolution de la déformation de rift a été analysée grâce à une nouvelle reconstruction cinématique du sud de l’Atlantique Nord. Il apparait alors que la déformation de la croûte continentale est segmentée alors que la propagation de la croûte océanique forme un V. L’approche développée dans cette thèse pose également de nouvelles questions géodynamiques quant à l’influence de l’héritage et l’effet des points triple. / Deformation modes of magma-poor hyper-extended rift systems evolve through time and space. Hence the observed structures and architectures vary along a depth section as well as on a map. This study aims to characterize the deformation modes of hyper-extended systems and their propagation using the examples of the southern North Atlantic. The architecture of the continental crust termination has been compared to the critical Coulomb wedge theory because it has a wedge shape, the final deformation is brittle/frictional and this wedge is gliding over a basal detachment. This theory highlights the distinct behavior of the two conjugate margins. Moreover it constrains crustal architecture of the continental crust termination, integrates continentward dipping faults and explains the formation of extensional allochthons in a sequential faulting model. The integration of deformation modes in an evolving 3D model necessitates a reliable kinematic context, which is not the case for the opening of the southern North Atlantic Ocean. This is linked to the interpretation of the J-magnetic anomaly as an oceanic isochron. Re-investigations of this anomaly revealed its polygenic and polyphased formation, which is inconsistent for an oceanic isochrons or a domain boundary making it unusable for plate reconstruction. The evolution of rift deformation has been analyzed with a new plate reconstruction of the southern North Atlantic. It appears that the continental crust deformation is segmented whereas oceanic crust propagates in a V-shape. The approach developed in this thesis also asks new geodynamical questions on the influence of inheritance and the effect of triple junction.

Marges hyper-étirées

Mode de déformation

Sud de l'Atlantique Nord

Anomalie magnétique J

Reconstruction cinématique

Hyper-extended rifted margins

Deformation modes

Southern North-Atlantic

J-magnetic anomaly

Plate modelling

551.41