Luyendyk, Bruce P. et al. (2001): Structural and tectonic evolution of the Ross Sea Rift in the Cape Colbeck region, eastern Ross Sea, Antarctica

Leg/Site/Hole:
ODP 159
Identifier:
2002-061383
georefid
10.1029/2000TC001260
doi
Creator:
Luyendyk, Bruce P.
University of California at Santa Barbara, Department of Geological Sciences, Santa Barbara, CA, United States
author
Sorlien, Christopher C.
University of Alabama, United States
author
Wilson, Douglas S.
Colorado College, United States
author
Bartek, Louis R.
author
Siddoway, Christine S.
author
Identification:
Structural and tectonic evolution of the Ross Sea Rift in the Cape Colbeck region, eastern Ross Sea, Antarctica
2001
Tectonics
American Geophysical Union, Washington, DC, United States
20
6
933-958
Marine geophysics was used to investigate the structural framework and tectonic history of the eastern border of the Ross Sea Rift and to integrate this with what is known of Marie Byrd Land. The region is characterized by a passive margin with a flat shelf cut by the Miocene Colbeck Trough. Seismic sequences and unconformities of the Ross Sea areas were correlated with the Colbeck region. Late Oligocene and younger sections unconformably overlay Early to Late Cretaceous and early Tertiary sequences. This unconformity is underlain by two units interpreted as syn-rift units. The onshore and offshore region was widely faulted in Early and Late Cretaceous time and subsided during Late Cretaceous and Cenozoic time. Detachment-style extension is indicated for the late Early Cretaceous. Tilting of the shelf occurred in late Cenozoic due to continued subsidence of the shelf and uplift in western Marie Byrd Land. Further study of the dating of the units sampled in this study will provide additional correlation. (Mod. auth. abstr.)
English
Serial
Coverage:Geographic coordinates:
North:12.0000
West:-180.0000East: 180.0000
South:-90.0000
Structural geology; Africa; Antarctic Ocean; Antarctica; basement; bedrock; Cape Colbeck; continental margin; Cretaceous; faults; geophysical methods; Ghana; gravity methods; Ivory Coast; Leg 159; mantle; mantle plumes; Marie Byrd Land; Mesozoic; metamorphic rocks; mylonites; Ocean Drilling Program; passive margins; plate tectonics; reflection methods; rheology; rifting; Ross Ice Shelf; Ross Sea; Ross Sea Rift; sampling; seismic methods; Southern Ocean; tectonic elements; tectonics; West Africa;
.