Moerz, Tobias et al. (2002): Composite velocity profile of shelf Site 1103 (ODP Leg 178, western Antarctic Peninsula)

Leg/Site/Hole:
ODP 178
ODP 178 1103
Identifier:
2003-022414
georefid

10.2973/odp.proc.sr.178.229.2001
doi

Creator:
Moerz, Tobias
GEOMAR Research Center for Marine Sciences, Kiel, Federal Republic of Germany
author

Lauer-Leredde, Christine
Istituto Nazionale di Oceanografia e di Geofisica Sperimentale, Italy
author

Escutia, Carlota
Ocean Drilling Program, United States
author

Wolf-Welling, Thomas C. W.
University of Minnesota at Minneapolis, United States
author

Identification:
Composite velocity profile of shelf Site 1103 (ODP Leg 178, western Antarctic Peninsula)
2002
In: Baker, Peter F. (editor), Camerlenghi, Angelo (editor), Acton, Gary D. (editor), Brachfeld, Stefanie A., Cowan, Ellen A., Daniels, James, Domack, Eugene W., Escutia, Carlota, Evans, Andrew J., Eyles, Nicholas, Guyodo, Yohan J. B., Hatfield, Kate L., Iorio, Marina, Iwai, Masao, Kyte, Frank T., Lauer, Christine, Maldonado, Andres, Moerz, Tobias, Osterman, Lisa E., Pudsey, Carol J., Schuffert, Jeffrey D., Sjunneskog, Charlotte M., Weinheimer, Amy L., Williams, Trevor, Winter, Diane M., Wolf-Welling, Thomas C. W., Ramsay, Anthony T. S. (editor), Proceedings of the Ocean Drilling Program, scientific results, Antarctic glacial history and sea-level change; covering Leg 178 of the cruises of the drilling vessel JOIDES Resolution; Punta Arenas, Chile, to Cape Town, South Africa; sites 1095-1103; 5 February-9 April 1998
Texas A&M University, Ocean Drilling Program, College Station, TX, United States
178
Site 1103 was one of a transect of three sites drilled across the Antarctic Peninsula continental shelf during Leg 178. The aim of drilling on the shelf was to determine the age of the sedimentary sequences and to ground truth previous interpretations of the depositional environment (i.e., topsets and foresets) of progradational seismostratigraphic sequences S1, S2, S3, and S4. The ultimate objective was to obtain a better understanding of the history of glacial advances and retreats in this west Antarctic margin. Drilling the topsets of the progradational wedge (0-247 m below seafloor [mbsf]), which consist of unsorted and unconsolidated materials of seismic Unit S1, was very unfavorable, resulting in very low (2.3%) core recovery. Recovery improved (34%) below 247 mbsf, corresponding to sediments of seismic Unit S3, which have a consolidated matrix. Logs were only obtained from the interval between 75 and 244 mbsf, and inconsistencies on the automatic analog picking of the signals received from the sonic log at the array and at the two other receivers prevented accurate shipboard time-depth conversions. This, in turn, limited the capacity for making seismic stratigraphic interpretations at this site and regionally. This study is an attempt to compile all available data sources, perform quality checks, and introduce nonstandard processing techniques for the logging data obtained to arrive at a reliable and continuous depth vs. velocity profile. We defined 13 data categories using differential traveltime information. Polynomial exclusion techniques with various orders and low-pass filtering reduced the noise of the initial data pool and produced a definite velocity depth profile that is synchronous with the resistivity logging data. A comparison of the velocity profile produced with various other logs of Site 1103 further validates the presented data. All major logging units are expressed within the new velocity data. A depth-migrated section with the new velocity data is presented together with the original time section and initial depth estimates published within the Leg 178 Initial Reports volume. The presented data confirms the location of the shelf unconformity at 222 ms two-way traveltime (TWT), or 243 mbsf, and allows its seismic identification as a strong negative and subsequent positive reflection.
Coverage:Geographic coordinates:
North:-63.5958
West:-65.2755East: -65.2755
South:-63.5958

Oceanography; Applied geophysics; Antarctic Ocean; Antarctic Peninsula; Antarctica; applications; continental shelf; cores; depositional environment; geophysical methods; geophysical profiles; geophysical surveys; Leg 178; magnetic susceptibility; marine sediments; Ocean Drilling Program; ocean floors; ODP Site 1103; paleoclimatology; paleomagnetism; reconstruction; resistivity; sediments; seismic methods; seismic profiles; seismic stratigraphy; surveys; velocity structure; well logs;

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