Add to ORKGSubmarine landslides have been documented in many deep-water systems. Mass wasting processes and related emplacement of mass-transport deposits (MTDs) may reset the bathymetry of the seafloor through creation of erosional and depositional relief. MTD-related seafloor bathymetry may influence the dispersal patterns of subsequent sediment gravity flows, through reflection, deflecting, or ponding over a relatively small length scales (<1 km), and may thus exert major control on the architecture and internal heterogeneity of associated turbidites. The principal aim of this thesis is to better constrain the links between MTD-related seafloor bathymetry and facies variability in subsequent deposits. Two case studies of MTD-influenced deep-wate...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
Submarine flows can transport huge volumes of sediment across the large submarine fans that dominate...
Submarine flows can transport huge volumes of sediment across the large submarine fans that dominate...
Submarine landslides have been documented in many deep-water systems. Mass wasting processes and rel...
During the last few decades submarine mass wasting and associated mass-transport deposits (MTDs) hav...
Submarine sediment density flows are one of the volumetrically most important processes for sediment...
Submarine sediment density flows are one of the volumetrically most important processes for sediment...
Much of our understanding of submarine sediment-laden density flows that transport very large volume...
Submarine landslides can generate complicated patterns of seafloor relief that influence subsequent ...
18 pages, 9 figures, 1 tableThe Gulf of Lions presents recurring mass-transport deposits (MTDs) with...
.The Marnoso Arenacea Formation provides the most extensive correlation of individual flow deposits ...
Submarine landslides can generate complicated patterns of seafloor relief that influence subsequent ...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
Muddy mass-transport deposits (MTDs) and complexes (MTCs) form a significant component of the strati...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
Submarine flows can transport huge volumes of sediment across the large submarine fans that dominate...
Submarine flows can transport huge volumes of sediment across the large submarine fans that dominate...
Submarine landslides have been documented in many deep-water systems. Mass wasting processes and rel...
During the last few decades submarine mass wasting and associated mass-transport deposits (MTDs) hav...
Submarine sediment density flows are one of the volumetrically most important processes for sediment...
Submarine sediment density flows are one of the volumetrically most important processes for sediment...
Much of our understanding of submarine sediment-laden density flows that transport very large volume...
Submarine landslides can generate complicated patterns of seafloor relief that influence subsequent ...
18 pages, 9 figures, 1 tableThe Gulf of Lions presents recurring mass-transport deposits (MTDs) with...
.The Marnoso Arenacea Formation provides the most extensive correlation of individual flow deposits ...
Submarine landslides can generate complicated patterns of seafloor relief that influence subsequent ...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
Muddy mass-transport deposits (MTDs) and complexes (MTCs) form a significant component of the strati...
The principle transport agent in deep ocean environments are turbidity currents, avalanches of sedim...
Submarine flows can transport huge volumes of sediment across the large submarine fans that dominate...
Submarine flows can transport huge volumes of sediment across the large submarine fans that dominate...