Uplift and erosion are complex phenomena in terms of their governing processes, precise
timing and exact magnitude. The intricate relationship between different geodynamic …

Marine controlled source electromagnetic (CSEM) data have been utilized in the past
decade during petroleum exploration of the Barents Shelf, particularly for de-risking the …

Triassic strata in the Greater Barents Sea Basin are important records of geodynamic activity
in the surrounding catchments and sediment transport in the Arctic basins. This study is the …

The underexplored Barents shelf petroleum province is a globally unique example where
naturally occurring underpressure is observed offshore and onshore. In the offshore parts of …

Syn‐rift successions contain both prolific organic‐rich and coarse‐grained rocks, but these
rocks are usually studied independently. Thus, the interplay among organic matter …

Recently, the petroleum industry has focused on deeply buried reservoir discoveries and
exploring potential CO 2 storage sites close to existing infrastructure to increase the life span …

Seismic facies in large fault zones (dam to km throw) can rarely be constrained with well log
data. High-resolution seismic data (ca. 3.1× 3.1 m bins) from the highly faulted Wisting field …

Sedimentary recycling has the potential to obscure source‐to‐sink relationships,
provenance interpretations, burial history reconstructions and robust reservoir quality …

Abstract The Stappen High–Bjørnøya Tectono-Sedimentary Element (TSE) is located in the
western Barents Shelf and is one of the prominent tectonic elements in the area. The …

Regional Early Cretaceous uplift of the northern Barents Sea associated with the High Arctic
Large Igneous Province (HALIP) caused the development of the fluvial to open-marine …