Abstract EN:

Lithosphere extension and consecutive breakup above a melting mantle lead to the formation of volcanic passive margins. All volcanic margins developed in continental areas subjected to long-term extension, leading to the formation of sedimentary basins. While these volcanic margins are usually offshore and are studied only by geophysical methods, the Greenland coasts offer an onshore proximal part of volcanic margins. The objective of this work is to the study of the spatio-temporal transition between a sedimentary basin to a volcanic-type passive margin. It considers the case of the geological example of the SE Baffin Bay area (the central west Greenland margin), especially its structural and thermal evolution. The study area is characterised by a rifted sedimentary basin which evolves to a volcanic margin associated with the Eocene lithosphere breakup between the Greenland plate and North America. All the structures can be observed in an outcropping area of about 200x 300 km: the rift border faults along the basement, the tectonized sedimentary pile, the overlapping and sealing of the sedimentary basin by Palaeocene volcanic traps and the Eocene inner SDR whose development is coeval with the lithosphere breakup. The development of the Cretaceous/Lower Paleocene sedimentary basin is characterized by two successive rifting episodes separated by a thermal subsidence period. The first rifting episode was initiated in the lower Cretaceous following ~N020E extension. This episode is poorly constrained and seems to be controlled by the inheritage structure of the Greenland Precambrian basement. The second rifting episode of Late Cretaceous presents an E-W to N060 extensional trend. This episode predates the extrusion of Paleocene hyalloclastites in a residual lacustrine basin. The transition from a sedimentary rifting 'stage' to a volcanic margin stage is characterized by the concentration of deformation to the west (i. E. Towards the oceanic crust). This syn-magmatic rifting episode is characterized by the oceanward flexure of the thick piles of Paleogene basalts and the onset formation of Seaward dipping reflectors (SDR) which establish the 3D structure. The development of the SDR is accommodated by arrays of continentward dipping detachment faults localized in the continent-ocean transition area. The syn-magmatic extensional trend is generally orthogonal to the margin flexure. This stage is followed by a more homogenous N-S syn-magmatic extension, which presents an Eocene (C24) age. This extension is the result of the probable earliest stage of oceanization in the Baffin Bay and then a global plate reorganisation in the North Atlantic area. A combined study of RockEval, vitrinite reflectance and magnetic mineralogy is performed from claystones samples collected in the area to assess the thermal evolution of sedimentary basin before and during magmatism. The RockEval and vitrinite reflectance indicated a predominance of type III organic matter and showed an oceanward increasing maturity, as a consequence of the increasing burial depth. The study of the isothermal remnant magnetization (IRM) at high and low temperatures and the study of magnetic susceptibility of claystones showed the existence of special magnetic assemblages with increasing burial. This indicator was used to constrain the thermal evolution combined to data from Rock-Eval and vitrinite reflectance. The results show that the sediments are immature to early mature, implying a moderate impact of local magmatic intrusions in the maturation of organic matter. A thermo-structural model of the west Greenland margin is also presented and completed by the structural study of the analogue Vøring margin.