A multi-factor approach for process-based seabed characterization: example from the northeastern continental margin of the Korean peninsula (East Sea)

• Published in: Geo-marine letters Vol. 38; no. 4; pp. 323 - 339
• Main Authors: Cukur, Deniz, Um, In-Kwon, Chun, Jong-Hwa, Kim, So-Ra, Lee, Gwang-Soo, Kim, Yuri, Kong, Gee-Soo, Horozal, Senay, Kim, Seong-Pil
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2018; Springer Nature B.V
• Subjects: Basins; Bathymetry; Bottom currents; Canyons; Colour; Continental margins; Continental shelves; Continental slope; Cores; Debris flow; Deposits; Earth and Environmental Science; Earth Sciences; Earthquakes; Echoes; Escarpments; Folds; Geological faults; Geology; Geomorphology; Mass transport; Mud; Ocean floor; Original; Overpressure; Profiles; Sediment; Sediment transport; Sedimentation; Sedimentation & deposition; Sediments; Seismic activity; Slope; Terraces; Transport; Turbidity; Turbidity currents; Water depth
• ISSN: 0276-0460; 1432-1157
• DOI: 10.1007/s00367-018-0537-7

This study investigates sediment transport and depositional processes from a newly collected dataset comprising sub-bottom chirp profiles, multibeam bathymetry, and sediment cores from the northeastern continental margin of Korea in the East Sea (Japan Sea). Twelve echo-types and eleven sedimentary facies have been defined and interpreted as deposits formed by shallow-marine, hemipelagic sedimentation, bottom current, and mass-movement processes. Hemipelagic sedimentation, which is acoustically characterized by undisturbed layered sediments, appears to have been the primary sedimentary process throughout the study area. The inner and outer continental shelf (<150 m water depth) have been influenced by shallow-marine sedimentary processes. Two slope-parallel canyons, 0.2–2 km wide and up to 30 km long, appear to have acted as possible conduits for turbidity currents from the shallower shelf into the deep basins. Bottom current deposits, expressed as erosional moats immediately below topographic highs, are prevalent on the southern lower slope at water depths of 400–450 m. Mass-movements (i.e., slides/slumps, debris flow deposits) consisting of chaotic facies characterize the lower slope and represent one of the most important sedimentary processes in the study area. Piston cores confirm the presence of mass-transport deposits (MTDs) that are characterized by mud clasts of variable size, shape, and color. Multibeam bathymetry shows that large-scale MTDs are chiefly initiated on the lower slope (400–600 m) with gradients up to 3° and where they produce scarps on the order of 100 m in height. Sandy MTDs also occur on the upper continental slope adjacent to the seaward edge of the shelf terrace. Earthquakes associated with tectonic activity and the development of fluid overpressure is considered as the main conditioning factor for destabilizing the slope sediments. Overall, the sedimentary processes show typical characteristics of a fine-grained clastic slope apron and change down-slope and differ within each physiographic province. Furthermore, the influence of geological inheritance (i.e., structural folds and faults) on geomorphology and sediment facies development is an important additional factor on the lower slopes. Together, these factors provide a rational basis for continental margin seabed characterization.