Reconstructing sedimentary processes in a Permian channel-lobe transition zone: an outcrop study in the Karoo Basin, South Africa

Turbidity currents commonly bypass sediment in submarine channels on the continental slope, and deposit sediment lobes farther down-dip on the flat and unconfined abyssal plain. Seafloor and outcrop data have shown that the transition from bypass to deposition usually occurs over complex zones referred to as channel-lobe transition zones (CLTZs). Recognition of these zones in cores and outcrop remains challenging due to a lack of characteristic sedimentary facies and structures. This paper focuses on Unit E of the Permian Fort Brown Formation in the Karoo Basin, South Africa, in the Slagtersfontein outcrop complex, which has previously been interpreted as a CLTZ. This study integrates thin-section micrographs, sedimentary facies, bed-set and stratigraphic architecture, and palaeoflow directions to achieve a multiscale analysis of CLTZ features. A novel process-based facies scheme is developed to evaluate deposits in terms of the depositional or erosional tendencies of the flows that formed them. This scheme allows bypass to be distinguished from depositional zones by the spatial distribution of certain sediment facies. Areas of net sediment bypass were predominantly marked by erosive sediment facies and a larger variability in palaeoflow direction while depositional areas showed a lower variability in palaeoflow directions. Metre-scale structures in the bypass-dominated area reveal seafloor erosion and scour formation. Field relations suggest the presence of a similar to 500 m long mega-scour in the CLTZ. The characteristic structures documented here are applicable for identifying CLTZs in sparse datasets such as outcrops with limited palaeogeographical context and sediment cores obtained from subsurface systems.

Automated summary

This study focuses on the Slagtersfontein outcrop complex in the Karoo Basin, South Africa, to analyze the features of channel-lobe transition zones (CLTZs) in Unit E of the Permian Fort Brown Formation. By integrating thin-section micrographs, sedimentary facies, bed-set and stratigraphic architecture, and palaeoflow directions, a novel process-based facies scheme is developed to identify bypass and depositional zones based on the distribution of sediment facies. The study also reveals the presence of seafloor erosion and a mega-scour within the CLTZ.