Abstract
The interior of the Norwegian Sea, or in the regional geological nomenclature “mid-Norwegian passive margin”, contains of about 20% of total oil and gas resources of the Norwegian Continental Shelf. However, the significant potential for additional resources remains hidden in the deep outer parts of the shelf. An extensive data acquisition campaign during last 15 years brings new knowledge regarding the entire mid-Norwegian margin and its outer part in particular. New 2D and 3D seismic surveys, potential field data, as well as new wells are now available for interpretation. This PhD study aimed to compile and jointly interpret this extensive and contemporary dataset to refine timing of tectonic events in the area, configuration and properties of the crust below sedimentary basins, as well as to perform detailed structural mapping along the margin. Another important task was to validate existing crustal models for the mid-Norwegian margin which were suggested before precise data was available and which were often based on “scientific guesses”.
As a result of data analysis, several new structural elements were found and described in the outer and central parts of the mid-Norwegian margin. For example, a set of crustal marginal plateaus below the basins in the outer part was suggested as the most reasonable explanation for the observed structural geometries. This doctoral study shows that the basin provinces of the margin were subjected to discrete and localized Cretaceous-Paleocene rifting events that sequentially migrated westwards until the continental breakup and associated voluminous magmatism took place 56-55 million years ago. The formation and distribution of smaller sedimentary subbasins were controlled by pinch-and-swell deformation mode of deep crustal blocks. In summary, this work highlights the presence of the continental crust in the outer mid-Norwegian margin. That conclusion contrasts with previously published models inspired by the Iberian-type passive margins characterized by total elimination of the crust in the outer parts prior to breakup.
A better understanding of the geological structure and evolution of the basin provinces of the mid-Norwegian margin could guide and facilitate future exploration activities there. That in turn may change considerably the current hydrocarbon resource estimates.