| Summary: | The North Atlantic between Iceland and Svalbard and surrounding continental areas represent an ideal laboratory for studying plate tectonic processes, due to the presence of well exposed continent-continent collision terranes on the Norwegian mainland and dense coverage of offshore geophysical data documenting subsequent extensional processes, continental break-up and formation of oceanic crust. Interpretation of crustal-scale wide-angle seismic models suggests that the main Caledonian suture might be linked with bodies of lower crustal eclogites localized along the Norwegian continental margin (e.g. Mjelde et al., 2010). Since terrains of eclogites are exposed in the Western Gneiss Region, a wide-angle seismic profile was acquired across the onshore transition in this area. The main aim with the research work presented in Paper 1 (this thesis) is to identify possible lower crustal high-velocity bodies, and thus the suture, in this region. Paper 2 aims at interpreting the suture from the North Sea to Svalbard, by use of available crustal scale models. Furthermore, paper 2 discusses the back-stripping of two crustal-scale transects across the Atlantic, in order to identify the dominant tectono-magmatic processes active at various stages of the area’s geological evolution. The two transects are located on opposite sides of the Jan Mayen Fracture Zone, which assures that possible change from upper to lower plate configuration along strike can be addressed. Paper 3 focuses on interpretation of multi-channel seismic data from the Knipovich Ridge. The main aim with this study is to reveal the interplay between tectonism and magmatism along this ultra-slow oceanic spreading ridge. Furthermore, the sedimentary processes transporting huge amounts of sediments from Svalbard, and their interaction with the spreading ridge, will be addressed. The main contribution with this thesis is that it discusses a selection of tectonic, magmatic and sedimentary processes active during all stages of ocean basin formation, i.e. collapse ...
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