Add to ORKGSedimentary facies in the distal parts of deep-marine lobes can diverge significantly from those predicted by classical turbidite models, and sedimentological processes in these environments are poorly understood. This gap may be bridged using outcrop studies and theoretical models. In the Skoorsteenberg Formation (South Africa), a downstream transition from thickly bedded turbidite sandstones to argillaceous, internally layered hybrid beds, is observed. The hybrid beds have a characteristic stratigraphic and spatial distribution, being associated with bed successions which generally coarsen and thicken-upward reflecting deposition on the fringes of lobes in a dominantly progradational system. Using a detailed characterization of bed types,...
Previous work has shown that large-volume (> 100 km3) turbidity currents are capable of depositing e...
Deep-water siliciclastic systems are of great societal relevance as their depositsin subsurface stor...
Submarine channel-lobe transition zones separate well-defined channels from well-defined lobes and f...
Sedimentary facies in the distal parts of deep-marine lobes can diverge significantly from those pre...
Results are presented from the current experimental campaign which aims to observe the character of ...
.The Marnoso Arenacea Formation provides the most extensive correlation of individual flow deposits ...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
Turbidity currents commonly bypass sediment in submarine channels on the continental slope, and depo...
The production potential of deep-water reservoirs is primarily determined by rock bulk volume, poros...
Common facies models of turbidite deposits are based on idealized sequences of turbidite units, whic...
The origin of thick-bedded deep-water sandstones has generated much controversy in recent years. Two...
Increasing studies document that deposits of sediment gravity flows which record evidence of co-gene...
Turbidity currents transport land-derived sediment to deep sea where theirdeposits form large geolog...
Turbidity currents are turbulent, sediment-laden gravity currents which can be generated in relative...
Unlike river systems which are controlled by the gravitational pull of water, submarine turbidity cu...
Previous work has shown that large-volume (> 100 km3) turbidity currents are capable of depositing e...
Deep-water siliciclastic systems are of great societal relevance as their depositsin subsurface stor...
Submarine channel-lobe transition zones separate well-defined channels from well-defined lobes and f...
Sedimentary facies in the distal parts of deep-marine lobes can diverge significantly from those pre...
Results are presented from the current experimental campaign which aims to observe the character of ...
.The Marnoso Arenacea Formation provides the most extensive correlation of individual flow deposits ...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
Turbidity currents commonly bypass sediment in submarine channels on the continental slope, and depo...
The production potential of deep-water reservoirs is primarily determined by rock bulk volume, poros...
Common facies models of turbidite deposits are based on idealized sequences of turbidite units, whic...
The origin of thick-bedded deep-water sandstones has generated much controversy in recent years. Two...
Increasing studies document that deposits of sediment gravity flows which record evidence of co-gene...
Turbidity currents transport land-derived sediment to deep sea where theirdeposits form large geolog...
Turbidity currents are turbulent, sediment-laden gravity currents which can be generated in relative...
Unlike river systems which are controlled by the gravitational pull of water, submarine turbidity cu...
Previous work has shown that large-volume (> 100 km3) turbidity currents are capable of depositing e...
Deep-water siliciclastic systems are of great societal relevance as their depositsin subsurface stor...
Submarine channel-lobe transition zones separate well-defined channels from well-defined lobes and f...