Properties and distribution of lower crustal bodies on the mid-Norwegian margin
Properties and distribution of lower crustal bodies on the mid-Norwegian margin (in Petroleum geology; from mature basins to new frontiers; proceedings of the 7th petroleum geology conference, B. A. Vining (editor) and S. C. Pickering (editor))
Petroleum Geology Conference Series (2010) 7: 843-854
- Atlantic Ocean
- Caledonian Orogeny
- continental margin
- crust
- Europe
- exhumation
- geophysical methods
- gravity methods
- isostasy
- lower crust
- magnetic methods
- mantle
- Mohorovicic discontinuity
- natural gas
- North Atlantic
- Northeast Atlantic
- Norway
- Paleozoic
- passive margins
- petroleum
- plate tectonics
- potential deposits
- Scandinavia
- structural traps
- three-dimensional models
- traps
- underplating
- Western Europe
- mid-Norwegian margin
Anomalously high velocity and high density bodies have been detected in the lower crust on the mid-Norwegian margin. The lower crustal bodies (LCB) are pronounced on the More and Voring margins segments and have mainly been interpreted as either magmatic or high-grade metamorphic in origin. Evolutionary models of the whole margin are heavily affected by the interpretation of the LCB and so are estimates of vertical movements and thermal structure in the area. A 3D gravity and magnetic model of the mid-Norwegian margin was constructed to map the main geological features of the margin and acquire the distribution of the LCB. The model utilizes the most recent potential field compilations on the margin and is constrained by extensive reflection seismic data and published refraction profiles. Further constraints on the model were attained from studying the isostatic state of the lithosphere. We present a map showing the distribution of the different LCB and discuss the implications for the structural and thermal evolution of the margin. The properties of the LCB vary across the margin and at least three different processes may be responsible for their existence. The LCB is commonly interpreted as igneous rock either intruded into the lower crust or underplated beneath it. The distribution of the LCB along the Voring margin has an apparent correlation with the offshore prolongations of major onshore detachments stemming from Late Caledonian orogenic collapse. This may point towards some relation between the LCB and these old zones of weakness and that the LCB represents high grade metamorphic rocks. Detailed modelling on the More margin shows a spatial link between parts of the LCB and extremely thin crustal thickness, suggesting a serpentinized exhumed mantle origin.