Description: The Davis Strait is located between Canada and Greenland and connects the Labrador Sea and the Baffin Bay basins. Both basins formed in Cretaceous to Eocene time and were connected by a transform fault system in the Davis Strait. Whether the crust in the central Davis Strait is oceanic or continental has been disputed. This information is needed to understand the evolution of this transform margin during the separation of the North American plate and Greenland. We here present a 315-km-long east–west-oriented profile that crosses the Davis Strait and two major transform fault systems—the Ungava Fault Complex and the Hudson Fracture Zone. By forward modelling of data from 12 ocean bottom seismographs, we develop a P -wave velocity model. We compare this model with a density model from ship-borne gravity data. Seismic reflection and magnetic anomaly data support and complement the interpretation. Most of the crust is covered by basalt flows that indicate extensive volcanism in the Davis Strait. While the upper crust is uniform, the middle and lower crust are characterized by higher P -wave velocities and densities at the location of the Ungava Fault Complex. Here, P -wave velocities of the middle crust are 6.6 km s –1 and of the lower crust are 7.1 km s –1 compared to 6.3 and 6.8 km s –1 outside this area; densities are 2850 and 3050 kg m –3 compared to 2800 and 2900 kg m –3 . We here interpret a 45-km-long section as stretched and intruded crust or as new igneous crust that correlates with oceanic crust in the southern Davis Strait. A high-velocity lower crust (6.9–7.3 km s –1 ) indicates a high content of mafic material. This mantle-derived material gradually intruded the lower crust of the adjacent continental crust and can be related to the Iceland mantle plume. With plate kinematic modelling, we can demonstrate the importance of two transform fault systems in the Davis Strait: the Ungava Fault Complex with transpression and the Hudson Fracture Zone with pure strike-slip motion. We show that with recent poles of rotation, most of the relative motion between the North American plate and Greenland took place along the Hudson Fracture Zone.

Description: We present the combined results of deep multichannel reflection and refraction seismic surveys across the Flemish Cap–Goban Spur conjugate margin pair (North Atlantic), which we use to infer rifting style and breakup. Profiles on both margins cross magnetic anomaly 34 and extend into oceanic crust, making it possible to observe the complete history from continental rifting through to the formation of initial oceanic crust. The deep multichannel seismic (MCS) reflection data have previously been used to support a model of symmetric pure shear extension followed by asymmetric breakup and a sharp continent-ocean boundary. Using both types of seismic data, our results indicate instead that asymmetric structures are formed during all stages of rifting, breakup, and complex transition to oceanic spreading. The differing nature of the two ocean-continent transition zones is particularly striking. For Flemish Cap, our reprocessed image of the MCS profile clearly shows tilted fault blocks beneath back-tilted sediment packages, consistent with a wide region of highly thinned continental crust inferred from wide-angle seismic data. In contrast, normal incidence and wide-angle seismic data for the Goban Spur transition zone indicate the presence of exhumed serpentinized mantle.

Description: The Davis Strait is a bathymetric high that separates the southern Baffin Bay and the northern Labrador Sea. These basins are the result of Cretaceous and Paleogene rifting and seafloor spreading between the North American plate and Greenland. Being one of the main tectonic features of the Davis Strait, the Ungava Fault Zone is associated with transform motion related to a northward movement of Greenland relative to North America during rifting and seafloor spreading in Baffin Bay and Labrador Sea. The plate tectonic reconstruction of the Davis Strait contributes significantly to the understanding of the geodynamic history of the North-American - Greenland plates, not only the Davis Strait area but also the area of Lancaster Sound and Nares Strait, where it could shed light into the so-called Nares Strait Conflict. It is still under debate whether the spreading between Greenland and Baffin Island was compensated by sinistral transform motion along the proposed Wegener-Fault. Thus Nares Strait (trace of the Wegener Fault) and Lancaster Sound (failed arm rift) are relicts of this scenario. The lack of evidence for transform motion between Greenland and Ellesmere Island contradicts this model and provokes the conflict. As major compression along the Eurekan Fold Belt overprinted the proposed transform motion along the Wegener Fault, the Ungava Fault Zone in the Davis Strait could give the missing information for the plate tectonic reconstruction. The onshore-offshore geology and structural setting of Baffin Island is analysed by recent publications that show an essentially non-volcanic continental margin at Baffin Island that is interrupted by a volcanic-style margin around Cape Dyer. Intensive magmatic activity during the initial opening phase is indicated by widespread seaward-dipping-reflector sequences (SDRS) north of Cape Dyer. On the other hand, the structural setting of the Greenland margin side is unclear. The identification of the corresponding conjugate pattern on Greenland side provides fundamental information for the historic motion along the Ungava Fault Zone. The geophysical data of the DAVIS GATE cruise in 2008 provide new data to determine structure and type of conjugate margin segments of Greenland and Baffin Island. As part of the DAVIS GATE project, a set of multichannel seismic, refraction seismic, magnetic and gravity profiles across the Davis Strait was acquired with RV Maria S. Merian in 2008. In detail, three crossing refraction lines with up to 25 ocean-bottom seismographs, and 1500 nm multichannel seismic lines (3000 m streamer length, 240 channels and 50 litres airgun-array) build the framework of the DAVIS GATE project. This presentation illustrates first results from the multichannel seismic survey in addition with first results from magnetic and gravity profiling.

Description: Baffin Bay is the northwest extension of the Labrador Sea spreading system. The transition zone between these two areas is characterized by the sinistral Ungava transform-fault system across Davis Strait. The crustal type within Baffin Bay is considered to be oceanic based on a few refraction seismic experiments of older vintage. However, the velocity-depth profiles obtained from these experiments also indicate deviations from normal oceanic crust. A refraction profile in northern Baffin Bay indicates that spreading there was amagmatic and that serpentinized mantle is encountered beneath the sedimentary sequence. In addition, no magnetic anomalies related to seafloor spreading could be detected in Baffin Bay so far. This leaves a relative uncertainty about the geodynamic evolution of the Davis Strait and Baffin Bay region. For this reason, a geophysical study was carried out onboard the research vessel Maria S. Merian in 2008, collecting wide-angle reflection/refraction seismic data, supplemented by coincident and additional deep reflection seismic profiles, potential field measurement, swath bathymetry and high-resolution sediment profiling (Parasound). The refraction seismic data set comprises three lines running across the centre part of Davis Strait and southern Baffin Bay extending from Greenland to Baffin Island. The seismic source was an airgun array with a total volume of 7006 cubic inches and the shots were recorded by up to 25 ocean bottom seismometers (OBS) deployed along each line. Initial velocity models will be presented for line AWI-20080600 extending from the Sisimiut Basin off Greenland across the Hellefisk well, farther towards the NW and parallel to the assumed extinct spreading axis (based on gravity data) up to the Baffin Island continental margin some 60 km to the south of ODP site 645. The record sections indicate considerable lateral variations of the crustal structure and character along the line.

Description: Während des Merian-Fahrtabschnitts MSM09/3 wurden Ende 2008 in einer Kooperation zwischen dem Alfred-Wegener-Institut für Polar- und Meeresforschung (AWI), der Bundesanstalt für Geowissenschaften und Rohstoffe (BGR), dem Geologischen Dienst von Dänemark und Grönland (GEUS) und der Dalhousie University geophysikalische Untersuchungen in der Baffinbucht und Davisstraße zwischen Grönland und dem kanadischen Baffininsel durchgeführt. Als Teilvorhaben des IPY-2007/08-Kernprojekts Plate Tectonics and Polar Gateways in the Earth System (PLATES & GATES) hat das Projekt DAVIS GATE das Ziel, eine tektonische und sedimentäre Rekonstruktion des Öffnungsprozesses dieser Meeresstraße zu entwickeln. Die Baffinbucht und Davisstraße spielen eine wichtige Rolle für den Flachwasseraustausch zwischen dem arktischen und dem atlantischen Ozean. Die plattentektonische Entwicklung sowie die magmatischen Ereignisse im Laufe dieser Entwicklung sind bisher kaum bekannt und erforderten eine eindringliche geophysikalische Untersuchung, um akkurate paläobathymetrische und paläogeographische Datensätze für eine vollständige geodynamische Rekonstruktion dieses Gateway zu erstellen. Entlang von drei refraktions/weitwinkelseismischen Profilen unter Nutzung von Ozeanbodenseismometern auf insgesamt 62 Stationen sowie dem Einsatz der Mehrkanal-Reflexionsseismik mit einem 3000 m langen Streamer sind Daten von der sedimentären Bedeckung bis in die tiefe Kruste und teilweise vom obersten Mantel gewonnen worden. Weitere seismische Profildaten ergänzen diese Messungen und lassen Einblicke in die Strukturen des Grundgebirges sowie der dominanten Verwerfungszonen, z.B. der Ungava-Störung, zu. Eine parallel angelegte Magnetfeldvermessung ist auf die Auflösung der zeitlichen Entwicklung der ozeanischen Kruste der Baffinbucht ausgerichtet worden. Ausdünnung und Absenkung der kontinentalen Kruste und Übergangskruste in der Davisstraße und die Entwicklung der ozeanischen Kruste der Baffinbucht konnten mit diesen geophysikalischen Daten, zu der auch kontinuierlich aufgezeichnete Schwerefeld- und Sedimentechographiedaten gehören, untersucht werden. Diese Daten liefern die Informationen über die geometrischen und physikalischen Eigenschaften der Kruste und ihrer Sedimentbedeckung, die für ein realistisches tektonisches, geodynamisches und sedimentäres Modell notwendig sind, das den kontinentalen Abbruchs und der Entwicklung des Ozeanbeckens zwischen Grönland und Kanada paläo-topographisch im Detail beschreibt.