Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-29T15:06:11.495Z Has data issue: false hasContentIssue false

The Antarctic Marine Geology Research Facility and Core Library at Florida State University

Published online by Cambridge University Press:  27 October 2009

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Notes
Copyright
Copyright © Cambridge University Press 1980

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anderson, J. B. 1972. The marine geology of the Weddell Sea. Tallahassee, Florida State University. (Unpublished PhD thesis.)Google Scholar
Anderson, J. B. In press. The scientific program: USCGS Glacier, Deep Freeze 79, Leg 1. Antarctic Journal of the United States, Vol 14, No 5.Google Scholar
Anderson, J. B.and others. 1979. Sedimentation on the Antarctic continental slope. In: Doyle, L. J. and Pilkey, O. H. Jr eds. Geology of continental slopes. (Society of Economic Paleontologists and Mineralogists special publication No 27.)Google Scholar
Cassidy, D. S. 1979. DVDP at the Florida State University: core storage and sample distribution. In: Nagata, T., ed. Proceedings of the Seminar III on Dry Valley Drilling Project, 1978. Tokyo, p 240–45.(Memoirs of the Japanese National Institute of Polar Research, special issue No 13.)Google Scholar
Cassidy, D. S. 1978. Polar programs of the Antarctic Marine Geology Research Facility and Core Library. Die Erde, Vol 109, No 2, 254–56.Google Scholar
Cassidy, D. S. and DeVore, G. W. 1973. Antarctic Marine Geology Research Facility and Core Library. Antarctic Journal of the United States, Vol 8, No 3, p 120–28.Google Scholar
Cassidy, D. S. and Shepley, S. 1977. Core recovery: USNS Eltanin and ARA Islas Orcadas. Antarctic Journal of the United States, Vol 12, No 4, p 7576.Google Scholar
Cassidy, D. S.and others. 1977. USNS Eltanin: an inventory of core location data, with core location maps and cruise 55 core descriptions. Sedimenlology Research Laboratory Contribution, No 44. (Florida State University, Department of Geology.)Google Scholar
Ciesielski, P. F. and Wise, S. W. Jr 1977. Geologic history of the Maurice Ewing Bank of the Falkland Plateau (south-west Atlantic sector of the Southern Ocean) based on piston and drill cores. Marine Geology, Vol 25, p 175207.CrossRefGoogle Scholar
Friedmann, E. I. 1977. Microorganisms in Antarctic desert rocks from dry valleys and Dufek Massif. Antarctic Journal of the United States, Vol 12, No 4, p 2629.Google Scholar
Glasby, G. P. and Cassidy, D. S. 1978. Distribution of manganese nodules with depth in sediments of the South Georgia Basin, Falkland (Malvinas) Plateau and adjacent areas. Antarctic Journal of the United States, Vol 13, No 4, p 110–11.Google Scholar
Hayes, D. E. and Frakes, L. A. 1975. General synthesis, Deep Sea Drilling Project Leg 28. Dap Sea Drilling Project. Initial Reports, Vol 28, p 919–42.Google Scholar
Kaharoeddin, F. A.and others. 1979. ARA Islas Orcadas cruise 1277 sediment descriptions. Sedimetuology Research Laboratory Contribution, No 47. (Florida State University, Department of Geology.)Google Scholar
Kellogg, T. B.and others. 1978. Piston coring aboard USCGC Glacier in the Ross Sea. Antarctic Journal of the United States, Vol 13, No 4, p 126–27.Google Scholar
Schmid, E. 1973. Dredge samples from die Southern Ocean. Antarctic Journal of the United States, Vol 8, No 6, p 357.Google Scholar
Turner, R. T. 1971. The significance of color banding in the upper layers of Kara Sea sediments. Washington, DC, US Coast Guard Oceanographic Unit. (USCG Oceanographic Report No 36, CG 373–36.)Google Scholar
US Navy Hydrographic Office. 1956. Report on Operation Deep Freeze I. Washington, DC, US Navy Hydrographic Office. (Technical Report TR–33.)Google Scholar
Webb, P. N.and others. 1979. Miocene glaciomarine sediments from beneath the southern Ross Ice Shelf, Antarctica. Science, Vol 203, No 4379, p 435–37.CrossRefGoogle ScholarPubMed