Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-04T19:21:38.527Z Has data issue: false hasContentIssue false
  • English
  • Français

Compilation of Isotopic Dates from Antarctica

Published online by Cambridge University Press:  18 July 2016

Minze Stuiver  and
Thomas F. Braziunas
Minze Stuiver
Affiliation:
Quaternary Research Center and Department of Geological Sciences, University of Washington, Seattle, Washington 98195
Thomas F. Braziunas
Affiliation:
Quaternary Research Center and Department of Geological Sciences, University of Washington, Seattle, Washington 98195
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

This compilation of radiometric data from Antarctica contains abstracted information from 400 publications, resulting in nearly 2500 separate entries. Each entry, or “date listing”, gives basic information of the sample site as well as the dating method and the age(s) of the sample analysed. The date list differs from those routinely published in Radiocarbon because we included not only radiocarbon but all dating methods.

Type
Research Article
Information
Radiocarbon , Volume 27 , Issue 2A , 1985 , pp. 117 - 304
Copyright
Copyright © The American Journal of Science 

References

AAR64 Aaron, J.M.; and Ford, A.B., 1964. Isotopic age determinations in the Thiel Mountains, Antarctica (Abst.). Geol. Soc. Am. Spec. Paper 76:1.Google Scholar
ADA75 Adams, C.J.D., 1975. New Zealand potassium-argon age list-2. N.Z. Jl. Geol. Geophys. 18: 443467. (ADA82A used for some data)Google Scholar
ADA82 Adams, C.J.D.; Gabites, J.E.; and Grindley, G.W., 1982. Orogenic history of the central Transantarctic Mountains: New K-Ar age data on the Precambrian Lower Paleozoic basement. in Antarctic Geoscience, ed. Craddock, C., p. 817826. Madison, University of Wisconsin Press.Google Scholar
ADA82A Adams, C.J.D.; Gabites, J.E.; Wodzicki, A.; Laird, M.G.; and Bradshaw, J.D., 1982. Potassium-argon geochronology of the Precambrian-Cambrian Wilson and Robertson Bay Groups and Bowers Supergroup, Northern Victoria Land, Antarctica. in Antarctic Geoscience, ed. Craddock, C., p. 543548. Madison, University of Wisconsin Press.Google Scholar
ADA83 Adamson, D.; and Pickard, J., 1983. Late Quaternary ice movement across the Vestfold Hills, East Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 465469. Cambridge, Cambridge University Press.Google Scholar
ALB81 Alberts, F.G., 1981. Geographic Names of the Antarctic. Washington, D.C.; U.S. Government Printing Office.Google Scholar
ALL70 Allsopp, H.L.; and Neethling, D.C., 1970. Rb-Sr isotopic ages of Precambrian intrusives from Queen Maud Land, Antarctica. Earth Plan. Sci. Letters 8: 6670.Google Scholar
ANG62 Angino, E.E.; Turner, M.D.; and Zeller, E.J., 1962. Reconnaissance geology of Lower Taylor Valley, Victoria Land, Antarctica. Geol. Soc. Am. Bull. 73: 15531561.CrossRefGoogle Scholar
ARM68 Armstrong, R.L.; Hamilton, W.; and Denton, G.H., 1968. Glaciation in Taylor Valley, Antarctica, older than 2.7 million years. Science 159: 187189.Google Scholar
ARM78 Armstrong, R.L., 1978. K-Ar dating: Late Cenozoic McMurdo Volcanic Group and dry valley glacial history, Victoria Land, Antarctica. N.Z. Jl. Geol. Geophys. 21: 685698.Google Scholar
ARR75 Arriens, P.A., 1975. The Pre-Cambrian geochronology of Antarctica. Australian geological convention, 1st, Adelaide, 1975, Abst. vol., p. 9798.Google Scholar
ATR67 Atrashonok, L.Ya.; Avdzeiko, G.V.; KLimov, A.Ya.; and Silin, Yu.I., 1967. Sravnitel'nye dannye po absolutnomu vozrasta porod Antarktidy (svinzovy i argonovyi metody) [Comparative data on the absolute age of the rocks of Antarctica (by lead and argon methods)]. in Voprosy datirovki drevneishikh geologischeskikh obrazovaniy i osnovnykh porod [Questions of the dating of the oldest geological formations and fundamental rocks], p. 227229. Moskva, Izdatel'stvo Nauka. (Reference not obtained; KAM72 and GRE78 used for all data)Google Scholar
AUC72 Aucamp, A.P.H.; Wolmarans, L.G.; and Neethling, D.C., 1972. The Urfjell group, a deformed (?.) early Palaeozoic sedimentary sequence, Kirwanveggen, western Dronning Maud Land. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 557562. Oslo, Universitetsforlaget.Google Scholar
AUG65 Aughenbaugh, N.B.; Lounsbury, R.W.; and Behrendt, J.C., 1965. The Littlewood Nunataks, Antarctica. Jl. Geol. 73: 889894.Google Scholar
BAK76 Baker, P.E.; Gonzáles-Ferrán, O.; and Vergara, M., 1976. Geology and geochemistry of Paulet Island and the James Ross Island Volcanic Group. in Proceedings of the Symposium on Andean and Antarctic Volcanology Problems (Santiago, Chile, September 1974), ed. O. Gonzáles-Ferrán, Int. Assoc. of Volc. and Chem. of the Earth's Interior. Spec. Ser., p. 3947. Rome, IAVCEI Pub. Off. (BAK77 used for some data)Google Scholar
BAK77 Baker, P.E.; Buckley, F.; and Rex, D.C., 1977. Cenozoic volcanism in the Antarctic. Phil. Trans. R. Soc. Lond. B. 279: 131142.Google Scholar
BAL79 Ball, H.W.; Borns, H.W. Jr.; Hall, B.A.; Brooks, H.K.; Carpenter, F.M.; and Delevoryas, T., 1979. Biota, age, and significance of lake deposits, Carapace Nunatak, Victoria Land, Antarctica. in Fourth International Gondwana Symposium: Papers (Volume I), eds. Laskar, B. and Raja Rao, C.S., p. 166175. India, Hindustan Pub. Corp. (HAL82 used for all data)Google Scholar
BAR67 Barwick, R.E.; and Balham, R.W., 1967. Mummified seal carcasses in a deglaciated region of South Victoria Land, Antarctica. Tuatara 15(3):165180.Google Scholar
BAR72 Barrett, P.J.; and Elliot, D.H., 1972. The early Mesozoic volcaniclastic Prebble Formation, Beardmore Glacier area. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 403409. Oslo, Universitetsforlaget.Google Scholar
BAR83 Barton, J.M. Jr.; and Copperthwaite, Y.E., 1983. Sr-isotopic studies of some intrusive rocks in the Ahlmann Ridge and Annandagstoppane, western Queen Maud Land, Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 5962. Cambridge, Cambridge University Press.Google Scholar
BAS76 Bastien, T.W.; and Craddock, C., 1976. Igneous rocks of Peter I Island. Antarct. Jl. U.S. 11: 267269.Google Scholar
BAS76A Bastien, T.W.; and Craddock, C., 1976. The geology of Peter I Island. Initial Reports of the Deep Sea Drilling Project 35: 341357. Washington, D.C.; U.S. Gov. Printing Off.Google Scholar
BEH70 Behling, R.E.; and Calkin, P.E., 1970. Wright Valley soil studies. Antarct. Jl. U.S. 5: 102103.Google Scholar
BEH74 Behling, R.E.; Regor, J.P.; and Calkin, P.E., 1974. Soil and glacial history sites in Wright Valley (revisited). Antarct. Jl. U.S. 9: 148149.Google Scholar
BEL62 Bellair, P.; and Delbos, L., 1962. Age absolu de la dernière granitization en Terre Adélie. C.R. Acad. Sci., Paris 254(8):14651466.Google Scholar
BLA68 Black, R.F.; and Bowser, C.J., 1968. Salts and associated phenomena of the termini of the Hobbs and Taylor Glaciers, Victoria Land, Antarctica. Int. Assoc. of Sci. Hydrology, Comm. of Snow and Ice. Pub. 79: 226238.Google Scholar
BLA79 Black, L.P.; and James, P.R., 1979. Preliminary isotopic ages from Enderby Land, Antarctica. Jl. Geol. Soc. Aust. 26: 266267.Google Scholar
BLA82 Black, L.P., 1982. Geochronology of high-grade polymetamorphic rocks - an Antarctic example. BMR Jl. Aust. Geol. Geophys. 7(2): 145.Google Scholar
BLA83 Black, L.P.; and James, P.R., 1983. Geological history of the Archaean Napier Complex of Enderby Land. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 1115. Cambridge, Cambridge University Press.Google Scholar
BLI77 Blight, D.F.; and Oliver, R.L., 1977. The metamorphic geology of the Windmill Islands, Antarctica: A preliminary account. Jl. Geol. Soc. Aust. 24: 239262.Google Scholar
BOU66 Boudette, E.L.; Marvin, R.F.; and Hedge, C.E., 1966. Biotite, potassium-feldspar, and whole rock ages of adamellite, Clark Mountains, West Antarctica. U.S.G.S. Prof. Paper 550-D:D190-D194.Google Scholar
BRE73 Bredell, J.H., 1973. The geology of the Nashornet-Viddalskollen area, Western Dronning Maud Land. S. African Jl. of Antarct. Rsch. 3: 210.Google Scholar
BRE82 Bredell, J.H., 1982. The Precambrian sedimentary-volcanic sequence and associated intrusive rocks of the Ahlmannryggen, Western Dronning Maud Land: A new interpretation. in Antarctic Geoscience, ed. Craddock, C., p. 591597. Madison, University of Wisconsin Press.Google Scholar
BRI77 British Antarctic Survey, 1977. Natural Environment Research Council. British Antarctic Survey Annual Report 1976–77:23–31. (BRI80, GLE82, and PAN82 used for unreferenced data)Google Scholar
BRI80 British Antarctic Survey, 1980. Natural Environment Research Council. British Antarctic Survey Annual Report 1978–79:28–35. (PAN83B used for some unreferenced data)Google Scholar
BRI80A British Antarctic Survey, 1980. Natural Environment Research Council. British Antarctic Survey Annual Report 1979–1980:33–34, 38. (PAN83B used for some unreferenced data)Google Scholar
BRI81 British Antarctic Survey, 1981. Natural Environment Research Council. British Antarctic Survey Annual Report. 1980–81:28–30.Google Scholar
BRI82 British Antarctic Survey, 1982. Natural Environment Research Council. British Antarctic Survey Annual Report 1981–82:33–38 (PAN83 used for some unreferenced data)Google Scholar
BRO58 Brodie, J.W.; and Burling, R.W., 1958. Age determinations of southern ocean waters. Nature 181: 107108. (Radiocarbon sites outside the date list area)Google Scholar
BR061 Broecker, W.S.; and Olson, E.A., 1961. Lamont radiocarbon measurements VIII. Radiocarbon 3: 176204.Google Scholar
BR072 Brook, D., 1972. Stratigraphy of the Theron Mountains. Br. Antarct. Surv. Bull. 29: 6789.Google Scholar
BR076 Brooks, C.; James, D.E.; and Hart, S.R., 1976. Ancient lithosphere: its role in young continental volcanism. Science 193: 10861095.Google Scholar
BUL73 Bull, C.; and Webb, P.N., 1973. Some recent developments in the investigations of the glacial history and glaciology of Antarctica. in Paleoecology of Africa and of the Surrounding Islands and Antarctica 8, ed. Van Zinderen Bakken, E.M., p. 5584.Google Scholar
BUR81 Burn, R.W., 1981. Early Tertiary calc-alkaline volcanism on Alexander Island. Br. Antarct. Surv. Bull. 53: 175193.Google Scholar
CAM60 Cameron, R.L.; Goldich, S.S.; and Hoffman, J.H., 1960. Radioactivity age of rocks from the Windmill Islands, Budd Coast, Antarctica. Acta Universitatis Stockholmiensis, Stockholm Contributions in Geology 6: 16.Google Scholar
CAM61 Cameron, R.L.; and Goldthwait, R.P., 1961. The US-IGY contribution to Antarctic glaciology. Gen. Assembly Int. Un. Geod. Geophys., Helsinki, 1960. Colloque sur la glaciologie antarctique: 713. (CRA61 used for all data)Google Scholar
CAM64 Cameron, R.L., 1964. Glaciological studies at Wilkes Station, Budd Coast, Antarctica. in Antarctic Snow and Ice Studies, ed. Mellor, M., Antarct. Rsch. Ser. 2: 136. Washington, D.C.; Am. Geophys. Union (CRA61 used for all data)Google Scholar
CAM74 Cameron, R.E.; and Morell, F.A., 1974. Viable Microorganisms from ancient Ross Island and Taylor Valley drill cores. Antarct. Jl. U.S. 9: 113116.Google Scholar
CLA65 Clark, R.H., 1965. The oases in the ice. in Antarctica, ed. Hatherton, T., p. 321330. New York, Frederick A. Praeger Pub.Google Scholar
CLA72 Clarkson, P.D., 1972. Geology of the Shackleton Range: A preliminary report. Br. Antarct. Surv. Bull. 31: 115.Google Scholar
CIA77 Clarkson, P.D.; and Brook, M., 1977. Age and position of the Ellsworth Mountains crustal fragment, Antarctica. Nature 265: 615616.Google Scholar
CLA82 Clapperton, C.M.; and Sudgen, D.E., 1982. Late Quaternary glacial history of George VI Sound area, West Antarctica. Quat. Rsch. 18: 243267.Google Scholar
COD78 Codignotto, J.C.; Lorente, R.A.; Mendia, J.E.; Olivero, E.; and Spikerman, J.P., 1978. Geología del Cabo Spring e islas Pingüino, Cesar y Leopardo. Contrib. Inst. Antárct. Argentino 218: 41 pp. (Reference not obtained: VAL79 used for some data)Google Scholar
COL76 Collins, N.J., 1976. The development of moss-peat banks in relation to changing climate and ice cover on Signy Island in the maritime Antarctic. Br. Antarct. Surv. Bull. 43: 85102.Google Scholar
COL79 Collerson, K.D.; and Arriéns, P.A., 1979. Rb-Sr isotopic systematics in high-grade gneisses from the Vestfold Hills, East Antarctica. Jl. Geol. Soc. Aust. 26: 267268.Google Scholar
COL83 Collerson, K.D.; and McCulloch, M.T., 1983. Nd and Sr isotope geochemistry of leucite-bearing lavas from Gaussberg, East Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 670680. Cambridge, Cambridge University Press.Google Scholar
COL83A Collerson, K.D.; Reid, E.; Millar, D.; and McCulloch, M.T., 1983. Lithological and Sr-Nd isotopic relationships in the Vestfold block: Implications for Archaean and Proterozoic crustal evolution in the East Antarctic. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 7784. Cambridge, Cambridge University Press.Google Scholar
COM68 Compston, W.; McDougall, I.; and Heier, K.S., 1968. Geochemical comparison of the Mesozoic basaltic rocks of Antarctica, South Africa, and Tasmania. Geochem. Cosmochim. Acta 32: 129149.Google Scholar
CRA61 Crane, H.R.; and Griffin, J.B., 1961. University of Michigan radiocarbon dates VI. Radiocarbon 3: 105125.Google Scholar
CRA64 Craddock, C.; Bastien, T.W.; and Rutford, R.H., 1964. Geology of the Jones Mountains area. in Antarctic Geology, ed. Adie, R.J., p. 171187. Amsterdam, North-Holland. Pub. Co.Google Scholar
CRA64A Craddock, C.; Gast, P.W.; Hanson, G.N.; and Linder, H., 1964. Rubidium-stronium ages from Antarctica. Geol. Soc. Am. Bull. 75: 237240.Google Scholar
CRA68 Crane, H.R.; and Griffin, J.B., 1968. University of Michigan radiocarbon dates XII. Radiocarbon 10: 61114.Google Scholar
CRA70 Craddock, C., 1970. Radiometric age map of Antarctica. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Fol. 12: Plate XIX. New York, Am. Geog. Soc. Google Scholar
CRA72 Craddock, C., 1972. Geological map of Antarctica. (1:5,000,000). N.Y., American Geographical Society. (CRA70 used for some data)Google Scholar
CRA72A Craddock, C., 1972. Antarctic tectonics. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 449455. Oslo, Universitetsforlaget. (Summary reference)Google Scholar
CRA72B Crane, H.R.; and Griffin, J.B., 1972. University of Michigan radiocarbon dates XV. Radiocarbon 14: 195222.Google Scholar
CRA77 Craddock, C.; and Webers, G.F., 1977. Geology of the Ellsworth Mountains to Thiel Mountains Ridge. Antarct. Jl. U.S. 12(4)(Oct.):85.Google Scholar
CRA82 Craddock, C.; Webers, G.F.; and Anderson, J.J., 1982. Geology of the Ellsworth Mountains - Thiel Mountains Ridge (Abst.). in Antarctic Geoscience, ed. Craddock, C., p. 849. Madison, University of Wisconsin Press. (CRAW used for all data)Google Scholar
CUR80 Curl, J.E., 1980. A glacial history of the South Shetland Islands, Antarctica. Ohio St. Univ. Inst. Polar Studies Rept. 63: 129 pp.Google Scholar
DAL71 Dalrymple, G.B.; and Lanphere, M.A., 1971. 40Ar/39Ar technique of K/Ar dating: A comparison with the conventional technique. Earth Plan. Sci. Letters 12: 300308. (General reference)Google Scholar
DAL72 Dalziel, I.W.D., 1972. K-Ar dating of rocks from Elephant Island, South Scotia Ridge. Geol. Soc. Am. Bull. 83: 18871894.Google Scholar
DAL72A Dalziel, I.W.D., 1972. Large-scale folding in the Scotia Arc. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 4755. Oslo, Universitetsforlaget.Google Scholar
DAL73 Dalziel, I.W.D.; Lowrie, W.; Kligfield, R.; and Opdyke, N.D., 1973. Paleomagnetic data from the southernmost Andes and the Antarctandes. In Implications of continental drift to the Earth Sciences 1, eds. Tarling, D.H. and Runcorn, S.K., p. 87101. New York, Academic Press.Google Scholar
DAL79 Dalrymple, G.B., 1979. Critical tables for conversion of K-Ar ages from old to new constants. Geology 7: 558560. (General reference)2.0.CO;2>CrossRefGoogle Scholar
DAL82 Dalziel, I.W.D., 1982. The early (Pre-Middle Jurassic) history of the Scotia Arc region: A review and progress report. in Antarctic Geoscience, ed. Craddock, C., p. 111126. Madison, University of Wisconsin Press.Google Scholar
DAV82 Davies, R.E.S., 1982. The geology of the Marian Cove area, King George Island, and a Tertiary age for its supposed Jurassic volcanic rocks. Br. Antarct. Surv. Bull. 51: 151165.Google Scholar
DEL71 Delibrias, G.; Guillier, M.T.; and Labeyrie, J., 1971. Gif natural radiocarbon measurements VI. Radiocarbon 13: 213254.Google Scholar
DEN68 Denton, G.H.; and Armstrong, R.L., 1968. Glacial geology and chronology of the McMurdo Sound region. Antarct. Jl. U.S. 3: 99101.Google Scholar
DEN69 Denton, G.H.; Armstrong, R.L.; and Stuiver, M., 1969. Histoire glaciaire et chronologie de la région du détroit de McMurdo, sud de laterre Victoria Antarctide; note préliminaire. Revue De Geographie Phys. et Geol. Dynamique (2) 11: 265278. (STU81 used for all data)Google Scholar
DEN70 Denton, G.H.; Armstrong, R.L.; and Stuiver, M., 1970. Late Cenozoic glaciation in Antarctica: The record in the McMurdo Sound area. Antarct. Jl. U.S. 5: 1521.Google Scholar
DEN71 Denton, G.H.; Armstrong, R.L.; and Stuiver, M., 1971. The late Cenozoic History of Antarctica. in The Late Cenozoic Glacial Ages, ed. Turekian, K. K., p. 267306. New Haven and London, Yale University Press. (DEN70 used for all data)Google Scholar
DEN75 Denton, G.H.; Borns, H.W. Jr.; Grosswald, M.G.; Stuiver, M.; and Nichols, R.L., 1975. Glacial history of the Ross Sea. Antarct. Jl. U.S. 10: 160164. (STU81 used for all data)Google Scholar
DEP82 DePaolo, D.J.; Manton, W.I.; Grew, E.S.; and Halpern, M., 1982. Sm-Nd, Rb-Sr and U-Th-Pb systematics of granulite facies rocks from Fyfe Hills, Enderby Land, Antarctica. Nature 298: 614618.Google Scholar
DEU61 Deutsch, S.; Picciotto, E.; and Reinharz, M., 1961. Age measurements on Antarctic rocks (Queen Maud Land). Nature 191: 12861287. (PIC63 used for all data)Google Scholar
DEU64 Deutsch, S.; and Webb, P.N., 1964. Sr/Rb dating on basement rocks from Victoria land; evidence for 1000 million-year-old event. in Antarctic Geology, ed. Adie, R.J., p. 557562. Amsterdam, North-Holland Pub. Co.Google Scholar
DEU64A Deutsch, S.; Pasteels, P.; Krylov, A.; Silin, Yu.; Ravich, M., 1964 (Eng. trans., 1965). Sravnitel'nyye dannyye ob absolyutnom voznaste porod Zemli Korolevy Mod (Antarktika). Dokl. Akad. Nauk. SSSR 156(3):554557. [Comparative data on the absolute age of rocks in Queen Maud Land (Antarctica). Doklady Acad. Sci. USSR, Earth Sci. Sec. 156: 45–48.]Google Scholar
DEU66 Deutsch, S.; and Grögler, N., 1966. Isotopic age of Olympus Granite Gneiss (Victoria Land, Antarctica). Earth Plan. Sci. Letters 1: 8284.Google Scholar
DOL70 Dolukhanov, P.M.; Romanov, Ye.N.; and Semyoutsov, A.A., 1970. Radiocarbon dates of the Institute of Archaeology II. Radiocarbon 12: 130155.Google Scholar
DOR71 Dort, W., 1971. Mummified seals of southern Victoria land. Antarct. Jl. U.S. 6: 210211.Google Scholar
DOR81 Dort, W. Jr., 1981. The mummified seals of southern Victoria Land, Antarctica. in Terrestrial Biology III, ed. Parker, B.C., Antarct. Rsch. Ser. 30: 123154. Washington D.C.; Am. Geophys. Union. Google Scholar
DOU64 Doumani, G.A., 1964. Volcanoes of the Executive Committee Range. in Antarctic Geology, ed. Adie, R.J., p. 666675. Amsterdam, North-Holland Pub. Co.Google Scholar
DOW74 Dow, J.A.S.; and Neall, V.E., 1974. Geology of the Lower Rennick Glacier, northern Victoria Land. N.Z. Jl. Geol. Geophys. 17: 659714.Google Scholar
DRA64 Drake, A.A.; Stern, T.W.; and Thomas, H.H., 1964. Radiometric ages of zircon and biotite in quartz diorite, Eights Coast, Antarctica. U.S.G.S. Prof. Paper 501-D:50–53.Google Scholar
EAS69 Eastin, R.; Faure, G.; Shultz, C.H.; and Schmidt, D.L.S., 1969. Rb-Sr ages of the Littlewood Volcanics and of the acid volcanic rocks of the Neptune Range, Pensacola Mountains, Antarctica (abst.). Geol. Soc. Am. Abst. with Prog., Part 6: 13. (EAS71 used for some data)Google Scholar
EAS70 Eastin, R., 1970. The age of the Littlewood Volcanics of Coats Land, Antarctica (abst.). Geol. Soc. Am. Program (N-Central Sec.) 2(6): 386. (EAS71 used for all data)Google Scholar
EAS70A Eastin, R.; Faure, G.; and Neethling, D.C., 1970. The age of the Trollkjellrygg Volcanics of western Queen Maud Land. Antarct. Jl. U.S. 5: 157158.Google Scholar
EAS71 Eastin, R.; and Faure, G., 1971. The age of the Littlewood Volcanics of Coats Land, Antarctica. Jl. Geol. 79: 241245.Google Scholar
EAS72 Eastin, R.; and Faure, G., 1972. Geochronology of the basement rocks of the Pensacola Mountains, Antarctica. Geol. Soc. Am. Abst. with prog. 4(7): 496. (FAU79A used for all data)Google Scholar
ELL70 Elliot, D.H., 1970. Jurassic tholeiites of the central Transantarctic Mountains, Antarctica. Proc. 2nd Columbia River Basalt Symp. (Cheney, Wa.), p. 301325.Google Scholar
ELL83 Elliot, D.H.; Dupre, D.D.; and Gracanin, T.M., 1983. The age and geochemistry of some rocks from the South Shetland Islands (Abst.). in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 357. Cambridge, Cambridge University Press.Google Scholar
ELS81 Elston, D.P.; and Bressler, S.L., 1981. Magnetic stratigraphy of DVDP drill cores and late Cenozoic history of Taylor Valley, Transantarctic Mountains, Antarctica. in Dry Valley Drilling Project, ed. McGinnis, E.D., Antarct. Rsch. Ser. 33: 413426. Washington, D.C.; Am. Geophys. Union.Google Scholar
ELV81 Elverhøi, A., 1981. Evidence for a late Wisconsin glaciation of the Weddell Sea. Nature 293: 641642.Google Scholar
ELV83 Elverhøi, A.; and Roaldset, E., 1983. Glaciomarine sediments and suspended particulate matter, Weddell Sea Shelf, Antarctica. Polar Rsch. 1(1):121.Google Scholar
EVE62 Evernden, J.F., and Richards, J.R., 1962. Potassium-argon ages in Eastern Australia. Jl. Geol. Soc. Aust. 9: 150.Google Scholar
FAR80 Farrar, E.; and Rowley, P.D., 1980. Potassium-argon ages of Upper Cretaceous plutonic rocks of Orville Coast and eastern Ellsworth Land. Antarct. Jl. U.S. 15(5):2628.Google Scholar
FAR82 Farrar, E.; McBride, S.L.; and Rowley, P.D., 1982. Ages and tectonic implications of Andean plutonism in the southern Antarctic Peninsula. in Antarctic Geoscience, ed. Craddock, C., p. 349356. Madison, University of Wisconsin Press.Google Scholar
FAU66 Faure, G.; Murtaugh, J.G.; and Montigny, R.J.E., 1966. Geology and geochronology of the basement complex, Wisconsin Range, Transantarctic Mountains (Abst.). Geol. Soc. Am. Spec. Paper 101: 6667.Google Scholar
FAU68 Faure, G.; Hill, R.L.; Eastin, R.E.; and Montigny, R.J.E., 1968. Age determinations of rocks and minerals from the Transantarctic Mountains. Antarct. Jl. U.S. 3: 173175.Google Scholar
FAU68A Faure, G.; Murtaugh, J.G.; and Montigny, R.J.E., 1968. The geology and geochronology of the basement complex of the central Transantarctic Mountains. Can. Jl. Earth Sci. 5:555560.Google Scholar
FAU70 Faure, G.; and Gair, H.S., 1970. Age determinations of rocks from northern Victoria Land, Antarctica. N.Z. Jl. Geol. Geophys. 13: 10241026.Google Scholar
FAU71 Faure, G.; and Elliot, D.H., 1971. Isotopic composition of strontium in Mesozoic basalt from Dronning Maud Land. Br. Antarct. Surv. Bull. 25: 2327.Google Scholar
FAU73 Faure, G.; and Barrett, P.J., 1973. Strontium isotope compositions of non-marine carbonate rocks from the Beacon Supergroup of the Transantarctic Mountains. Jl. Sed. Petrol. 43: 447457.Google Scholar
FAU73A Faure, G.; and Hill, R.L., 1973. Age of the Falla Formation (Triassic), Queen Alexandra Range. Antarct. Jl. U.S. 8: 264265.Google Scholar
FAU74 Faure, G.; and Jones, L.M., 1974. Isotopic composition of strontium and geologic history of the basement rocks of Wright Valley, southern Victoria Land, Antarctica. N.Z. Jl. Geol. Geophys. 17: 611627.Google Scholar
FAU79 Faure, G.; and Taylor, K.S., 1979. Dating of detrital feldspar in sediment from RISP site J-9. Antarct. Jl. U.S. 14(5):124125.Google Scholar
FAU79A Faure, G.; Eastin, R.; Ray, P.T.; McLelland, D.; and Shultz, C.H., 1979. Geochronology of igneous and metamorphic rocks, Central Transantarctic Mountains. in Fourth International Gondwana Symposium: Papers (V.2), eds. Laskar, B. and Raja Rao, C.S., p. 805813. India, Hindustan Pub. Corp.Google Scholar
FAU80 Faure, G.; and Taylor, K.S., 1980. Interpretation of Rb-Sr dates of feldspar in tillite of Mt. Tuatura, Byrd Glacier. Antarct. Jl. U.S. 15(5):5960. (FAU81 used for all data)Google Scholar
FAU81 Faure, G.; and Taylor, K.S., 1981. Provenance of some glacial deposits in the Transantarctic Mountains based on Rb-Sr dating of feldspar. Chem. Geol. 32: 271290.Google Scholar
FAU81A Faure, G.; and Taylor, K.S., 1981. Provenance of feldspar in till on Mount Fleming, southern Victoria Land. Antarct. Jl. U.S. 16(5):4546.Google Scholar
FAU82 Faure, G.; Pace, K.K.; and Elliot, D.H., 1982. Systematic variation of 87-Sr/86-Sr ratios and major element concentrations in the Kirkpatrick basalt of Mount Falla, Queen Alexandra Range, Transantarctic Mountains. in Antarctic Geoscience, ed. Craddock, C., p. 715723. Madison, University of Wisconsin Press.Google Scholar
FAU83 Faure, G.; and Taylor, K.S., 1983. Sedimentation in the Ross embayment: Evidence from RISP Core 8 (1977/78). in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 546549. Cambridge, Cambridge University Press.Google Scholar
FAU83A Faure, G.; Taylor, K.S.; and Mercer, J.H., 1983. Rb-Sr provenance dates of feldspar in glacial deposits of the Wisconsin Range, Transantarctic Mountains. Geol. Soc. Am. Bull. 94: 12751280.Google Scholar
FED77 Fedorov, L.V.; and Tarutin, O.A., 1977. Geologicheskoye stroyeniye gory Ruker (yuzhnaya chast gor Prinz-Charlz, Vostochnaya Antarktida) [Geological structure of Mount Ruker (southern part of the Prince Charles Mountains, East Antarctica)]. Antarktika Doklady Komissii 16: 9399. (Reference not obtained? GRE82B used for some data)Google Scholar
FEL80 Felder, R.P.; and Faure, G., 1980. Rubidium-strontium age determination of part of the basement complex of the Brown Hills, central Transantarctic Mountains. Antarct. Jl. U.S. 15(5):1617.Google Scholar
FEN82 Fenton, J.H.C., 1982. The formation of vertical edges on Antarctic moss peat banks. Arctic and Alpine Rsch. 14: 2126. (HAR81 used for all data)Google Scholar
FEN82A Fenton, J.H.C., 1982. Vegetation re-exposed after burial by ice and its relationship to changing climate in the South Orkney Islands. Br. Antarct. Surv. Bull. 51: 247255.Google Scholar
FEN82B Fenton, J.H.C.; and Smith, R.I.L., 1982. Distribution, composition, and general characteristics of the moss banks of the maritime Antarctic. Br. Antarct. Surv. Bull. 51: 215236.Google Scholar
FLE68 Fleet, M., 1968. The geology of the Oscar II Coast, Graham Land. Br. Antarct. Surv. Sci. Rept. 59: 46 pp.Google Scholar
FLE72 Fleck, R.J.; Jones, L.M.; and Behling, R.E., 1972. K-Ar dates of the McMurdo volcanics and their relation to the glacial history of Wright Valley. Antarct. Jl. U.S. 7: 245246.Google Scholar
FLE77 Fleck, R.J.; Sutter, J.F.; and Elliot, D.H., 1977. Interpretation of discordant 40Ar/39Ar age spectra of Mesozoic tholeiites from Antarctica. Geochim. Cosmochim. Acta 41: 1532.Google Scholar
FOR63 Ford, A.B.; Hubbard, H.A.; and Stern, T.W., 1963. Lead-alpha ages of zircon quartz monzonite porphyry, Thiel Mountains, Antarctica - a preliminary report. U.S.G.S. Prof. Paper 450-E:105–107.Google Scholar
FOR64 Ford, A.B., 1964. Cordierite-bearing hypersthene-quartz-monzoniteporphyry in the Thiel Mountains and its regional importance. in Antarctic Geology, ed. Adie, R.J., p. 429441. Amsterdam, North-Holland Pub. Co.Google Scholar
FOR72 Ford, A.B., 1972. Weddell Orogeny-Latest Permian to early Mesozoic deformation of the Weddell Sea margin of the Transantarctic Mountains. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 419–125. Oslo, Universitetsforlaget.Google Scholar
FOR74 Forbes, R.B.; Turner, D.L.; and Carden, J.R., 1974. Age of trachyte from Ross Island, Antarctica. Geology 2: 297298.Google Scholar
FOR80 Ford, A.B.; and Kistler, R.W., 1980. K-Ar age, composition and origin of Mesozoic mafic rocks related to Ferrar group, Pensacola Mountains, Antarctica. N.Z. Jl. Geol. Geophys. 23: 371390.Google Scholar
FUR78 Furnes, H.; and Mitchell, J.G., 1978. Age relationships of Mesozoic basalt lava and dykes in Vestjella, Dronning Maud Land, Antarctica. Norsk Polarinstitutt, Skrifter 169: 4568.Google Scholar
GAI69 Gair, H.S.; Sturm, A.; Carryer, S.J.; and Grindley, G.W., 1969. The geology of northern Victoria Land. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate XII. New York, Am. Geog. Soc. (STU70 has stratigraphic information)Google Scholar
GAR58 Garner, D.M., 1958. The Antarctic convergence south of New Zealand. N.Z. Jl. Geol. Geophys. 1: 577594. (Ocean sites outside the date list area)Google Scholar
GLE82 Gledhill, A.; Rex, D.C.; and Tanner, P.W.G., 1982. Rb-Sr and K-Ar geochronology of rocks from the Antarctic Peninsula between Anvers Island and Marguerite Bay. in Antarctic Geoscience, ed. Craddock, C., p. 315323. Madison, University of Wisconsin Press.Google Scholar
GLE83 Gleadow, A.J.W., 1983. Fission track geochronology of granitoids and uplift history of the Transantarctic Mountains, Victoria Land, Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 563. Cambridge, Cambridge University Press.Google Scholar
GOD66 Godwin, H.; and Switsur, V.R., 1966. Cambridge University natural radiocarbon measurements VIII. Radiocarbon 8: 390400.Google Scholar
GOL58 Goldich, S.S.; Nier, A.O.; and Washburn, A.L., 1958. A40/K40 age of gneiss from McMurdo Sound, Antarctica. Trans. Am. Geophys. Union (EOS) 39(5):956958.Google Scholar
GON72 González-Ferrán, O., 1972. Distribution, migration, and tectonic control of Upper Cenozoic volcanism in West Antarctica and South America. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 173179. Oslo, Universitetsforlaget.Google Scholar
GON72A González-Ferrán, O.; and Halpern, M., 1972–1973. Edad del volcán Andrus y relación inicial Sr87/Sr86 de rocas volcanicas de Tierra Marie Byrd e islas Shetland del Sur, Antarctica [Age of Mount Andrus and Sr87/Sr86 ratio of volcanic rocks in Marie Byrd Land and the South Shetlands]. Revista geografica de Chile 23/24: 192199. (HAL73A used for all data)Google Scholar
GON83 González-Ferrán, O., 1983. The Seal Nunataks: An active volcanic group on the Larsen Ice Shelf, West Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 334337. Cambridge, Cambridge University Press.Google Scholar
GRE75 Grew, E.S., 1975. Geologic studies of Precambrian basement around Molodezhnaya Station, Enderby Land. Antarct. Jl. U.S. 10: 245248.Google Scholar
GRE75A Grew, E.S.; Halpern, M.; and Manton, W.I., 1975. Geochronological data on Precambrian Basement from Molodezhnaya Station, Antarctica (Abst.). Trans. Am. Geophys. Union (EOS) 56(12):10711072. (GRE78 used for all data)Google Scholar
GRE76 Grew, E.S., 1976. Geologic studies in the southern Prince Charles Mountains. Antarct. Jl. U.S. 11: 240242.Google Scholar
GRE76A Grew, E.S., 1976. History of metamorphism and deformation of Pre-Cambrian rocks of Enderby Land and the Prince Charles Mountains-East Antarctica. 25th Int. Geol. Congr.-Abstracts 1: 122. Canberra, Union Offset Co. Pvt. Limited. (ARR75, GRE76, GRE78, GRE82, and HAL75 used for some data)Google Scholar
GRE77 Grew, E.S.; and Manton, W.I., 1977. Age of zircons from pegmatite at Reinbolt Hills, Ingrid Christensen Coast, Antarctica (70'30S, 72'30E). Trans. Am. Geophys. Union (EOS) 58(12): 1250. (GRE81 used for all data)Google Scholar
GRE78 Grew, E.S., 1978. Precambrian basement at Molodezhnaya Station, East Antarctica. Geol. Soc. Am. Bull. 89: 801813.Google Scholar
GRE79 Grew, E.S.; and Halpern, M., 1979. Rubidium-strontium dates from the Shackleton Range metamorphic complex in the Mount Provender area. Jl. Geol. 87: 325332.Google Scholar
GRE79A Grew, E.S.; and Manton, W.I., 1979. Archean rocks in Antarctica: 2.5 billion-year uranium-lead ages of pegmatites in Enderby Land. Science 206: 443445.Google Scholar
GRE79B Grew, E.S.; and Manton, W.I., 1979. Geochronologic studies in East Antarctica: Age of a pegmatite in Mawson charnockite. Antarct. Jl. U.S. 14(5):23.Google Scholar
GRE80 Grew, E.S.; and Manton, W.I., 1980. Uranium-lead ages of zircons from Mount Provender, Shackleton Range, Transantarctic Mountains. Antarct. Jl. U.S. 15(5):4546.Google Scholar
GRE81 Grew, E.S.; and Manton, W.I., 1981. Geochronologic studies in East Antarctica: Ages of rocks at Reinbolt Hills and Molodezhnaya Station. Antarct. Jl. U.S. 16(5):57.Google Scholar
GRE82 Grew, E.S., 1982. Geology of the southern Prince Charles Mountains, East Antarctica. in Antarctic Geoscience, ed. Craddock, C., p. 473478. Madison, University of Wisconsin Press. (GRE76 used for “unpublished” data)Google Scholar
GRE82A Grew, E.S.; Manton, W.I.; and Sandiford, M., 1982. Geochronologic studies in East Antarctica: Age of pegmatites in Casey Bay, Enderby Land. Antarct. Jl. U.S. 17(5):12.Google Scholar
GRE82B Grew, E.S., 1982. The Antarctic margin. in The Ocean Basins and Margins, v. 6: The Indian Ocean, eds. Nairn, A.E.M. and Stehli, F.G., p. 697755. New York, Plenum Press.Google Scholar
GRE83 Grew, E.S.; and Manton, W.I. 1983. Geochronologic studies in East Antarctica: Reconnaissance uranium/thorium/lead data from rocks in the Schirmacher Hills and Mount Stinear. Antarct. Jl. U.S. 18(5):68.Google Scholar
GRI66 Grikurov, G.E.; Krylov, A.Ya.; and Silin, Yu.I., 1966 (Eng. trans., 1967). Absolyutnyy vozrast nekotorykh porod iz rayona zaliva margerit, Antarkticheskiy poluostrov. Doklady Akademii Nauk SSSR 171(6):13991401. [Absolute age of certain rocks in the Marguerite Bay region of the Antarctic Peninsula. Doklady Acad. Sci. USSR, Earth Sci. Sec. 171: 127–130.]Google Scholar
GRI67 Grikurov, G.E.; Krylov, A.Ya; and Silin, Yu.I., 1967. Absolyutnyy vozrast nekotorykh porod dugi skotiya i Zemli Aleksandra I (Zapadnaya Antarktika). Doklady Akademii Nauk SSSR 172: 168171. [Absolute age of some rocks from the Scotia Arc, and Alexander Alexander I Land (Western Antarctica). Doklady Acad. Sci. USSR, Earth Sci. Sec. 172: 19–22.]Google Scholar
GRI69 Grindley, G.W.; and Laird, M.G., 1969. Geology of the Shackleton Coast. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate XIV. New York, Am. Geog. Soc. (GRI69A used for all data from pers. comm.)Google Scholar
GRI69A Grindley, G.W.; and McDougall, I., 1969. Age and correlation of the Nimrod Group and other Precambrian rock units in the central Transantarctic Mountains, Antarctica. N.Z. Jl. Geol. Geophys. 12: 391411.Google Scholar
GRI70 Grikurov, G.E.; Krylov, A. Ya.; Polyakov, M.M.; and Tsovbun, Ya. I., 1970 (Eng. trans., 1972). Age of rocks in the northern part of the Antarctic Peninsula and on the South Shetland Islands (according to potassium-argon data). Inform. Bull. Sov. Antarct. Exped. 8(2): 6163. (Original ref. is in Inform. Byull. Sov. Antarkt. Eksped. 80)Google Scholar
GRI81 Grindley, G.W., 1981. Precambrian rocks of the Ross Sea region. Jl. Royal Soc. N.Z. 11: 411423.Google Scholar
GRI82 Grikurov, G.E.; Kamenev, E.N.; and Kameneva, G.I., 1982. Granitoid complexes in Antarctica. in Antarctic Geoscience, ed. Craddock, C., p. 695701. Madison, University of Wisconsin Press. (Summary reference)Google Scholar
GRI83 Grindley, G.W.; and Oliver, P.J., 1983. Palaeomagnetism of Cretaceous volcanic rocks from Marie Byrd Land, Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 593–578. Cambridge, Cambridge University Press.Google Scholar
GUM74 Gumbley, J.W.; Wilson, A.T.; Hendy, C.H.; and Wilson, C.S., 1974. Sedimentology of shallow cores from Lake Vanda. Antarct. Jl. U.S. 9: 135137.Google Scholar
GUN71 Gunner, J.D., 1971. Ida Granite: A new formation of the Granite Harbor Intrusives, Beardmore Glacier region. Antarct. Jl. U.S. 6: 194196.Google Scholar
GUN72 Gunner, J.; and Faure, G., 1972. Rb-Sr geochronology of the Nimrod Group, central Transantarctic Mountains. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 305311. Oslo, Universitetsforlaget.Google Scholar
GUN74 Gunner, J., 1974. Investigations of lower Paleozoic granites in the Beardmore Glacier Region. Antarct. Jl. U.S. 9: 7681.Google Scholar
GUN75 Gunner, J.; and Mattinson, J.M., 1975. Rb-Sr and U-Fb isotopic ages in the central Transantarctic Mountains. Geol. Magazine 112(1):2531.Google Scholar
GUN76 Gunner, J., 1976. Isotopic and geochemical studies of the pre-Devonian basement complex, Beardmore Glacier region, Antarctica. Ohio St. Univ. Inst. Polar Studies Rept. 41: 126 pp.Google Scholar
GUN82 Gunner, J.D., 1982. Basement geology of the Beardmore Glacier region. in Geology of the Central Transantarctic Mountains, eds. Turner, M.D. and Splettstoesser, J.F., Antarct. Rsch. Ser. 36 (Paper 1): 9 pp. Washington, D.C.; Am. Geophys. Union.Google Scholar
HAL62 Halpern, M., 1962. Potassium-argon dating of plutonic bodies in Palmer Peninsula and southern Chile. Science 138: 12611262.Google Scholar
HAL64 Halpern, M., 1964. Cretaceous sedimentation in the General Bernardo O'Higgins area of northwest Antarctic Peninsula. in Antarctic Geology, ed. Adie, R.J., p. 334347. Amsterdam, North-Holland Pub. Co.Google Scholar
HAL66 Halpern, M., 1966. Rubidium-strontium date from Mt. Byerly, West Antarctica. Earth Plan. Sci. Letters 1: 455457.Google Scholar
HAL67 Halpern, M., 1967. Rubidium-strontium isotopic age measurements of plutonic igneous rocks in eastern Ellsworth Land and northern Antarctic Peninsula, Antarctica. Jl. Geophys. Rsch. 72: 51335142.Google Scholar
HAL68 Halpern, M. 1968. Ages of Antarctic and Argentine rocks bearing on continental drift. Earth Plan. Sci. Letters 5: 159167.Google Scholar
HAL70 Halpern, M., 1970. Rubidium-strontium date of possibly 3 billion years from a granite rock from Antarctica. Science 169: 977978.Google Scholar
HAL70A Halpern, M., 1970. Rubidium-strontium dates and Sr87/Sr86 ratios of rocks from Antarctica and South America; a progress report. Antarct. Jl. U.S. 5: 159161.Google Scholar
HAL71 Halpern, M., 1971. Evidence for Gondwanaland from a review of West Antarctic radiometric ages. in Research in the Antarctic, eds. Quam, L.O. and Porter, H.D., p. 717730. Washington, D.C.; AAAS.Google Scholar
HAL72 Halpern, M., 1972. Rb-Sr total rock and mineral ages from the Marguerite Bay Area, Kohler Ranger, and Fosdick Mountains. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 197204. Oslo, Universitetsforlaget.Google Scholar
HAL73 Halpern, M., 1973. Rubidium-strontium geochronology of Antarctic and South American rocks. Antarct. Jl. U.S. 8: 276278.Google Scholar
HAL73A Halpern, M.; and González-Ferrán, O., 1973. Edad del Volcán Andrus y relación inicial Sr87/Sr86 de rocas volcanicas de Tierra Maria Byrd e Islas Shetland der Sur, Antarctica. [Age of the Andrus volcano and initial Sr87/Sr86 ratio of volcanic rocks of Marie Byrd Land and the South Shetland Islands]. Revista Brasileira de Geosciências 3(3):141148.Google Scholar
HAL73B Halpern, M.; and Lopatin, B.G., 1973 (Eng. trans., 1974). Rubidium-strontium dating of basement complex rocks in the northwestern part of Marie Byrd Land (West Antarctica). Inform. Bull. Sov. Antarct. Exped. 8(9):486488. (Original ref. is in Inform. Byull. Sov. Antarkt. Eksped. 87; HAL73 used for all data)Google Scholar
HAL75 Halpern, M.; and Grikurov, G.E., 1975. Rubidium-strontium data from the Southern Prince Charles Mountains. Antarct. Jl. U.S. 10: 915.Google Scholar
HAL79 Halpern, M.; and Wade, F.A., 1979. Rubidium-strontium geochronology of plutonic igneous rocks from Hobbs and Walgreen Coasts, Marie Byrd Land. Antarct. Jl. U.S. 14(5):1819.Google Scholar
HAL82 Hall, B.A.; Sutter, J.F.; and Borris, H.W. Jr., 1982. The inception and duration of Mesozoic volcanism in the Allan Hills-Carapace Nunatak area, Victoria Land, Antarctica. in Antarctic Geoscience, ed. Craddock, C., p. 709713. Madison, University of Wisconsin Press.Google Scholar
HAM72 Hamilton, W., 1972. The Hallet Volcanic Province, Antarctica. U.S.G.S. Prof. Paper 456-C:62 pp. (ARM78 used for all data)Google Scholar
HAM82 Hamer, R.D.; and Moyes, A.B., 1982. Composition and origin of garnet from the Antarctic Peninsula volcanic group of Trinity Peninsula. Jl. Geol. Soc. London 139: 713720.Google Scholar
HAN79 Hansom, J.D., 1979. Radiocarbon dating of a raised beach at 10 m in the South Shetland Islands. Br. Antarct. Surv. Bull. 49: 287288. (HAR81 used for all data)Google Scholar
HAR58 Harrington, H.J.; and McKellar, I.C., 1958. A radiocarbon date for penquin colonization of Cape Hallett, Antarctica. N.Z. Jl. Geol. Geophys. 1: 571576.Google Scholar
HAR64 Harrington, H.J.; Wood, B.C.; McKellar, I.C., and Larson, G.J., 1964. The geology of Cape Hallett-Tucker Glacier District. in Antarctic Geology, ed. Adie, R.J., p. 220228. Amsterdam, North-Holland Pub. Co.Google Scholar
HAR67 Harding, R.R.; and McLeod, I.R. 1967. Age of dolerite dykes in the Vestfold Hills, Antarctica. Nature 215: 149150.Google Scholar
HAR79 Harkness, D.D., 1979. Radiocarbon dates from Antarctica. Br. Antarct. Surv. Bull. 47: 4359. (HAR79A used for all data)Google Scholar
HAR79A Harkness, D.D.; and Wilson, H.W., 1979. Scottish Universities Research and Reactor Centre radiocarbon measurements III. Radiocarbon 21: 203256.Google Scholar
HAR81 Harkness, D.D., 1981. Scottish Universities Research and Reactor Centre radiocarbon measurements IV. Radiocarbon 23: 252304.Google Scholar
HEN69 Hendy, C.H.; Neall, V.E.; and Wilson, A.T., 1969. Recent marine deposits from Cape Barne, McMurdo Sound, Antarctica. N.Z. Jl. Geol. Geophys. 12: 707712.Google Scholar
HEN77 Hendy, C.H.; Wilson, A.T.; Popplewell, K.B.; and House, D.A., 1977. Dating of geochemical events in Lake Bonney, Antarctica, and their relation to glacial and climate changes. N.Z. Jl. Geol. Geophys. 20: 11031122.Google Scholar
HEN79 Hendy, C.H.; Healy, T.R.; Rayner, E.M.; Shaw, J.; and Wilson, A.T., 1979. Late Pleistocene glacial chronology of the Taylor Valley, Antarctica, and the global climate. Quat. Rsch. 11: 172184.Google Scholar
HER80 Herbert, D., 1980. Kohlenstoff-14-Datierung antarktischer Pinquinbrutstätten [Carbon-14 dating of Antarctic penquin rookeries]. Beitrage zur Vogelkunde 26(6):335341.Google Scholar
HER84 Hervé, F.; and Pankhurst, R.J., 1984. The Scotia Metamorphic Complex at Cape Bowles, Clarence Island, South Shetland Islands, Western Antarctica. Br. Antarct. Surv. Bull. 62: 1524.Google Scholar
HJE72 Hjelle, A.; and Winsnes, T., 1972. The sedimentary and volcanic sequence of Vestfjella, Dronning Maud Land. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 539546. Oslo, Universitetsforlaget.Google Scholar
HOF80 Hofmann, J.; Kaiser, G.; KLemm, W.; and Paech, H-J., 1980. K/Ar-Alter von Doleriten und Metamorphiten der Shackleton Range und der Whichaway-Nunataks, Ost- und Südostrumrandung des Filchner-Eisschelfs (Antarcktis) [K/Ar ages of dolerites and metamorphic rocks of the Shackleton Range and the Whichaway Nunataks east and south around the Filchner Ice Shelf (Antarctica)]. Zeitschrift für geologische Wissenschaften 8: 12271232.Google Scholar
HOF80A Hofmann, J.; Kaiser, G.; and Klemm, W., 1980. K-Ar-Alter präkambrischer Basite der Ostantarktis (Prince Charles Mountains, Oase Vestfold) [K-Ar ages of Precambrian basite of East Antarctica (Prince Charles Mountains, Vestfold Hills)]. Zietschrift für geologische Wissenschaften 8(12):15611564.Google Scholar
HOF81 Hofmann, I., Kaiser, G.; and KLemm, W., 1981. Kalii argonovyi (K-Ar) vosrast dokembriiskikh bazitov gory Ruker i oazisa Vestfoll' (Vostochnaia Antarktida) [Argon (K-Ar) age of Pre-cambrian base rock in Mount Ruker and the Vestfold Oasis (East Antarctica)]. Inform. Byull. Sov. Antarkt. Eksped. 102: 5053. (HOF80A used for all data)Google Scholar
HOF81A Hofmann, J.; Pilot, J.; and Schlichting, M., 1981. Das Rb-Sr-alter von metamorphiten der Herbert Mountains, Shackleton Range, Antarktika [Rb-Sr ages of metamorphites of the Herbert Mountains, Shackleton Range, Antarctica]. Zeitschrift für geologische Wissenschafter 9: 835842.Google Scholar
HOR67 Horne, R.R.; and Thomson, M.R.A., 1967. Post-Aptian camptonite dykes in south-east Alexander Island. Br. Antarct. Surv. Bull 14: 1524.Google Scholar
HUL72 Hulston, J.R.; and McCabe, W.J., 1972. New Zealand potassium-argon age list - 1. N.Z. Jl. Geol. Geophys. 15: 406432.Google Scholar
ISH74 Ishikawa, T., 1974. Geology of Langhovde, Lutzow-Holm Bay, East Antarctica. Antarct. Rec. 51: 117. (in Japanese; described in English in ISH76)Google Scholar
ISH76 Ishikawa, T.; Tatsumi, T.; Kizaki, K.; Yania, K.; Yoshida, M.; Ando, H.; Kikuchi, T.; Yoshida, Y.; and Matsumoto, Y., 1976. Explanatory text of geological map of Langhovde, Antarctica. Antarct. Geol. Map Ser., Sheet 5 (Langhovde): 10 pp. Tokyo, Nat. Inst. Polar Rsch. Google Scholar
JAC77 Jackson, M.L.; Lee, S.Y.; Ugolini, F.C.; and Helmke, P.A., 1977. Age and uranium content of soil micas from Antarctica by the fission particle track replica method. Soil Science 123: 241248.Google Scholar
JAC78 Jackson, T.L.; Linick, T.W.; Michel, R.L.; and Williams, P.M., 1978. Tritium and 14C distributions in McMurdo Sound. 1977. Antarct. Jl. U.S. 13(4):7173. (LIN79 used for all data)Google Scholar
JAG79 Jago, J.B., 1979. The pre-Beacon statigraphy and geological development of the Transantarctic Mountains (Abst.). Jl. Geol. Soc. Aust. 26: 279280. (GAI69 used for all data)Google Scholar
JAM81 James, P.R.; and Black, L.P., 1981. A review of the structural evolution and geochronology of the Archaean Napier Complex of Enderby Land, Australian Antarct. Territory. Spec. Pubis. Geol. Soc. Aust. 7: 7183.Google Scholar
JAM83 James, P.R.; and Tingey, R.J., 1983. The Precambrian geological evolution of the East Antarctic metamorphic shield - a review. in Antarctic Earth Science, eds. Oliver, R.L., James, P. R., and Jago, J.B., p. 510. Cambridge University Press.Google Scholar
JOH72 John, B.S., 1972. Evidence from the South Shetland Islands towards a glacial history of West Antarctica. in Polar Geomorphology, eds. Price, R.J. and Sugden, D.E., Instit. Br. Geographers Spec. Publ. 4: 7592. (SUG73 used for all data)Google Scholar
JON67 Jones, L.M.; and Faure, G., 1967. Age of the Vanda Porphyry dikes in Wright Valley, Southern Victoria Land, Antarctica. Earth Plan. Sci. Letters 3: 321324.Google Scholar
JON69 Jones, L.M.; and Faure, G., 1969. Age of the Basement complex of Wright Valley, Antarctica. Antarct. Jl. U.S. 4: 204205.Google Scholar
JON71 Jones, L.M.; and Östlund, H.G., 1971. Carbon-14 age and tritium content of Lake Vanda, Wright Valley. Antarct. Jl. U.S. 6: 200201.Google Scholar
JUC72 Juckes, L.M., 1972. The geology of north-eastern Heimefrontfjella, Dronning Maud Land. Br. Antarct. Surv. Sci. Rept. 65: 43 pp.Google Scholar
KAI82 Kaiser, G.; Klemm, W.; and Weber, W., 1982. K/Ar-altersdatierungen an magmatiten der Pensacola Mountains (Antarktika) [K/Ar dating of magmatite in the Pensacola Mountains (Antarctica)]. Zeitschreift für geologische Wissenschaften 10: 527530.Google Scholar
KAM72 Kamenev, E.N., 1972. Geological structure of Enderby Land. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 579583. Oslo, Universitetsforlaget.Google Scholar
KAN68 Kaneoka, I.; Ozima, M.; Ozima, M; Ayukawa, M.; and Nagata, T., 1968. K-Ar ages and palaeomagnetic studies on rocks from the east coast of Lutzow-Holm Bay, Antarctica. Antarct. Rec. 31: 1220.Google Scholar
KEL74 Kellogg, K.S.; and Reynolds, R.L., 1974. Paleomagnetic study of igneous rocks of the northern Lassiter Coast, Antarctic Peninsula. Antarct. Jl. U.S. 9: 3840.Google Scholar
KEL74A Kellogg, K.S.; and Rowley, P.D., 1974. Structural geology of the Lassiter Coast. Antarct. Jl. U.S. 9: 224225.Google Scholar
KEL77 Kellogg, T.B.; Stuiver, M.; Kellogg, D.E.; and Denton, G.H., 1977. Marine microfossils on the McMurdo Ice Shelf. Antarct. Jl. U.S. 12(4) (Oct.):8283. (STU81 used for all data)Google Scholar
KEL78 Kellogg, D.; Stuiver, M.; Denton, G.; and Kellogg, T., 1978. Fresh-water diatoms from perched deltas in Taylor Valley, Antarctica. Antarct. Jl. U.S. 13(4) (Oct.):2627. (STU81 used for all data)Google Scholar
KEL79 Kellogg, T.B.; and Truesdale, R.S., 1979. Late Quaternary paleoecology and paleclimatology of the Ross Sea: The diatom record. Marine Micropaleo. 4: 137158.Google Scholar
KEL79A Kellogg, T.B.; and Truesdale, R.S., 1979. Ross Sea diatoms: Modern assemblage distributions and their relationships to ecologic, oceanographic and sedimentary conditions - reply. Marine Micropaleo. 4: 401404.Google Scholar
KEL79B Kellogg, T.B.; Osterman, L.E.; and Stuiver, M., 1979. Late Quaternary sedimentology and benthic foraminiferal paleoecology of the Ross Sea, Antarctica. Jl. Foraminiferal Rsch. 9: 322335.Google Scholar
KEL79C Kelly, P.R.; Ferguson, K.U.; Gleadow, A.J.W.; and Lovering, J.F., 1979. Apatite fission-track age pattern in Antarctica: Comparison with southern Australia. Jl. Geol. Soc. Aust. 26: 278.Google Scholar
KEL80 Kellogg, D.E.: Stuiver, M.; Kellogg, T.B.; and Denton, G.H., 1980. Nonmarine diatoms from late Wisconsin perched deltas in Taylor Valley, Antarctica. Palaeogeog., Palaeoclim., Palaeoecol. 10: 157189. (STU81 used for all data)Google Scholar
KEL81 Kellogg, T.B.; Kellogg, D.E.; Melanson, K.R.; and Austin, K.G., 1981. USCGC Glacier 1976 and 1978 Cruises: Ross Sea, Antarctica sediment descriptions. Orono: University of Maine. (KEL79B used for all data)Google Scholar
KLG64 Kigoshi, K.; Lin, D-H.; and Endo, K., 1964. Gakushuin natural radiocarbon measurements III. Radiocarbon 6: 197207.Google Scholar
KIS79 Kistler, R.W.; and Ford, A.B., 1979. Potassium-argon ages of Dufek intrusion and other Mesozoic mafic bodies in the Pensacola Mountains. Antarct. Jl. U.S. 14(5):89. (FOR80 used for all data)Google Scholar
KOJ82 Kojima, H.; Yanai, K.; and Nishida, T., 1982. Geology of the Belgica Mountains. in Proceedings of the Second Symposium on Antarctic Geosciences, ed. Nagata, T., Memoirs Nat. Instit. Polar Rsch. Spec. Issue 21: 3246.Google Scholar
KOR71 Korotkevich, Ye. S., 1971. Quaternary marine deposits and terraces in Antarctica. Inform. Bull. Sov. Antarct. Exped. 8(4):185190. (Original ref. is in Inform. Byull. Sov. Antarkt. Eksped. 82; DOL70 used for some data)Google Scholar
KOV78 Kovach, J.; and Faure, G., 1978. Rubidium-strontium geochronology of granitic rocks from Mt. Chapman, Whitmore Mountains, West Antarctica. Antarct. Jl. U.S. 13(4) (Oct.):1718.Google Scholar
KRE81 Kreuzer, H.; Hohndorf, A.; Lenz, H.; Vetter, U.; Tessensohn, F.; Muller, PL.; Jordan, H.; Harre, W.; and Besang, C., 1981. K/Ar and Rb/Sr dating of igneous rocks from North Victoria Land, Antarctica (short note). Geologisches Jahrbuch, Reihe B, Heft 41 (G.A.N.O.V.E.X. German Antarctic North Victoria Land Expedition 1979/1980):267273.Google Scholar
KRY61 Krylov, A.Ya.; Silin, Yu.I.; Atrashenok, L.Ya.; and Lovtsyus, A.V., 1961. Absolute age of rocks in the Mirny region, Antarctica. Geochemistry 11: 11551157. (Original ref. is in Geokhimiya 11: 1034–1035)Google Scholar
KRY61A Krylov, A.Ya.; Lisitsyn, A.P.; and Silin, Yu.I., 1961. The significance of K-Ar ratios in oceanic silts. Izvestiia Akad. Nauk SSSR, Ser. Geol. 3: 87100. (In Russian)Google Scholar
KRY62 Krylov, A.Ya.; Voronov, P.S.; and Silin, Yu.I., 1962 (Eng. trans., 1964). Absoloyutnyy vozrast Kristallicheskoyo fundamenta Vostochnoy Antarktidy. Doklady Akademii Nauk SSSR 143(1):184187. [The absolute age of the Eastern Antarctica Crystalline basement. Doklady Acad. Sci. USSR, Earth Sci. Sec. 143: 18–21.]Google Scholar
KRY70 Krylov, A. Ya.; Lopatin, B.G.; and Mazina, T.I., 1970 (Eng. trans., 1972). Age of rocks in the Ford Ranges and on Ruppert Coast (Western part of Byrd Land). Inform. Bull. Sov. Antarct. Exped. 8(2):164166. (Original ref. is in Inform. Byull. Sov. Antarkt. Eksped. 80)Google Scholar
KRY72 Krylov, A.Ya., 1972. Antarctic geochronology. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 491494. Oslo, Universitetsforlaget.Google Scholar
KUR78 Kurasawa, H., 1978. Geochemistry of Ferrar dolerite, dikes, and Cenozoic volcanics of the Dry Valley Region. Dry Valley Drilling Project (DVDP) Bull. 8: 3438.Google Scholar
KYL74 Kyle, P.R.; and Treves, S.B., 1974. Geology of Hut Point Peninsula, Ross Island. Antarct. Jl. U.S. 9: 232234. (ARM78, KYL81, and KYL81A used for all data)Google Scholar
KYL78 Kyle, P.R.; Sutter, J.F.; and Treves, S.B., 1978. K/Ar age determination on DVDP 1 and 2 core samples. Dry Valley Drilling Project (DVDP) Bull. 8: 4648.Google Scholar
KYL79 Kyle, P.R.: Sutter, J.F.; and Treves, S.B., 1979. K/Ar age determination on drill cores from DVDP holes 1 and 2. in Proc. Seminar III on DVDP, 1978. Memoirs Nat. Instit. Polar Rsch. Spec. Issue 13: 214230. (KYL78 used for all data)Google Scholar
KYL81 Kyle, P.R., 1981. Glacial history of the McMurdo Sound area as indicated by the distribution and nature of McMurdo volcanic group rocks. in Dry Valley Drilling Project, ed. McGinnis, L.D., Antarct. Rsch. Ser. 33: 403412. Washington, D.C.; Am. Geophys. Union. (KYL81B used for some data)Google Scholar
KYL81A Kyle, P.R., 1981. Geological history of Hut Point Peninsula as inferred from DVDP 1, 2, and 3 drill cores and surface mapping. in Dry Valley Drilling Project, ed. McGinnis, L.D., Antarct. Rsch. Ser. 33: 427445. Washington, D.C.; Am. Geophys. Union.Google Scholar
KYL81B Kyle, P.R.; Elliot, D.H.; and Sutter, J.F., 1981. Jurassic Ferrar Supergroup tholeiites from the Transantarctic Mountains, Antarctica, and their relationship to the initial fragmentation of Gondwana. in Gondwana Five, eds. Cresswell, M.M. and Vella, P., p. 283287. Rotterdam, A.A. Balkema.Google Scholar
KYL82 Kyle, P.R., 1982. Volcanic geology of the Pleiades, Northern Victoria Land, Antarctica. in Antarctic Geoscience, ed. Craddock, C., p. 747754. Madison, University of Wisconsin Press.Google Scholar
KYL83 Kyle, P.R.; and Muncy, H.L., 1983. The geology of the mid-Miocene McMurdo Volcanic Group at Mount Morning, McMurdo Sound, Antarctica (Abst.). in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 675. Cambridge, Cambridge University Press.Google Scholar
LAI74 Laird, M.G.; Andrews, P.B.; and Kyle, P.R., 1974. Geology of northern Evans Névé, Victoria Land, Antarctica. N.Z. Jl. Geol. Geophys. 17: 587601.Google Scholar
LAU69 Laudon, T.S.; Lackey, L.L.; Guilty, P.G.; and Otway, P.M., 1969. Geology of eastern Ellsworth Land. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate III. New York, Am. Geog. Soc. Google Scholar
LAU82 Laudon, T.S., 1982. Geochemistry of Mesozoic and Cenozoic igneous rocks, eastern Ellsworth Land. in Antarctic Geoscience, ed. Craddock, C., p. 775785. Madison, University of Wisconsin Press.Google Scholar
LEM72 LeMasurier, W.E., 1972. Volcanic record of Cenozoic glacial history of Marie Byrd Land. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 251259. Oslo, Universitetsforlaget. (LEM82 used for some data)Google Scholar
LEM72A LeMasurier, W.E., 1972. Volcanic record of Antarctic glacial history: Implications with regard to Cenozoic sea levels. in Polar Geomorphology, eds. Price, R.J. and Sugden, D.E., Instit. Br. Geographers Spec. Pub. 4: 5974. (LEM82 used for some data)Google Scholar
LEM72B LeMasurier, W.E., 1972. Marie Byrd Land Quaternary volcanism: Byrd ice core correlations and possible climatic influences. Antarct. Jl. U.S. 7: 139141.Google Scholar
LEM76 LeMasurier, W.E.; and Wade, F.A., 1976. Volcanic history in Marie Byrd Land: Implications with regard to southern hemisphere tectonic reconstructions. Proc. Symp. on Andean and Antarctic Volcanology Problems (Santiago, Chile, Sept. 1974), ed. O. González-Ferrán, Int. Assoc. Volc. and Chem. of the Earth's Interior Spec. Ser., p.398–424. Rome, IAVCEI Pub. Off.Google Scholar
LEM80 LeMasurier, W.E.; Grindley, G.W.; and Rex, D.C., 1980. The unsuccessful search for the Shepard Island quartzite in Marie Byrd Land. Antarct. Jl. U.S. 15(5):2021.Google Scholar
LEM81 LeMasurier, W.E.; McIntosh, W.C.; and Rex, D.C., 1981. Mid-Tertiary glacial history recorded at Mount Petras, Marie Byrd Land. Antarct. Jl. U.S. 16(5):1921.Google Scholar
LEM82 LeMasurier, W.E.; and Rex, D.C., 1982. Volcanic record of Cenozoic glacial history in Marie Byrd Land and western Ellsworth Land: Revised chronology and evaluation of tectonic factors. in Antarctic Geoscience, ed. Craddock, C., p. 725734. Madison, University of Wisconsin Press. (LAU82 used for “unpublished” data)Google Scholar
LEM82A LeMasurier, W.E.; and Rex, D.C., 1982. Eruptive potential of volcanoes in Marie Byrd Land. Antarct. Jl. U.S. 17(5):3436. (LEM72, LEM72B, LEM76, LEM82 and LEM83 used for all data)Google Scholar
LEM83 LeMasurier, W.E.; and Rex, D.C., 1983. Rates of uplift and the scale of ice level instabilities recorded by volcanic rocks in Marie Byrd Land, West Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 663670. Cambridge, Cambridge University Press.Google Scholar
LIN77 Linick, T.W., 1977. La Jolla natural radiocarbon measurements VII. Radiocarbon 19: 1948.Google Scholar
LIN79 Linick, T.W., 1979. La Jolla natural radiocarbon measurements VIII. Radiocarbon 21: 186202.Google Scholar
LIN80 Linick, T.W., 1980. La Jolla natural radiocarbon measurements IX. Radiocarbon 22: 10341044.Google Scholar
LOP74 Lopatin, B.G.; Krylov, A.Ia.; and Aliapyshev, O.A., 1974. Osnovnye tektonomagmaticheskie etapy v nazvitii zemli Meri Berd i berega Eitsa (Zapadnaia Antarktida) po radiogennym dannym [Major tectonomagmatic stages in the development of Marie Byrd Land and Eights Coast (West Antarctica) determined radiometrically]. Antarktika: Doklady Kommissii 13: 5260. (Reference not obtained; LOP76 used for some data)Google Scholar
LOP76 Lopatin, B.G.; and Polyakov, M.M., 1976. Geologiia Zemli Meri Berd i Berega Eitsa (Zapadnaia Antarktida) [Geology of Marie Byrd Land and Eights Coast (West Antarctica)], 175 pp. Moscow, Isdatel'stvo Nauka.Google Scholar
LOP77 Lopatin, B.G.; Fedorov, L.V.; and Polyakov, M.M., 1977. Geologiya i metamorfizm proterozoyskikh otlozheniy gor Mak-Koli i Sherger (gory Prins-Charlz, Vostochnaya Antarktida) [Geology and metamorphism of Proterozoic deposits of Mounts McCauley and Scherger (Prince Charles Mountains, East Antarctica)]. Antarktika: Doklady Komissii 16: 7692. (Reference not obtained; GRE82B used for some data)Google Scholar
LOV79 Lovering, J.F.; Travis, G.A.; and Comaford, D.J., 1979. Evolution of the Gondwanaland Archeaen shield: Ion microprobe zircon dating and southwestern Australia/Wilkes Land, Antarctica. Jl. Geol. Soc. Aust. 26: 279.Google Scholar
LOV79A Lovering, J.F., 1979. The evidence for c. 4000 m. y. crustal material in Archaean times. Jl. Geol. Soc. Aust. 26: 268.Google Scholar
MAE68 Maegoya, t.; Nohda, S.; and Hayase, I., 1968. Rb-Sr dating of the gneissic rocks from the east coast of Lutzow-Holm Bay, Antarctica. Memoirs Faculty Sci., Kyoto Univ., Ser. Geol. and Mineral. 35(2):131138.Google Scholar
MAR67 Marini, M.A.; Orr, M.F.: and Coe, E.L., 1967. Surviving macromolecules in Antarctic seal mummies. Antarct. Jl. U.S. 2: 190191. (CRA68 used for all data)Google Scholar
MCC83 McCulloch, M.T.; and Black, L.P., 1983. Sm-Nd isotopic systematics of Enderby Land granulites: Evidence for the redistribution of Sm and Nd during metamorphism (Abst.). in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 31. Cambridge, Cambridge University Press.Google Scholar
MCD63 McDougall, I., 1963. Potassium-argon age measurements on dolerites from Antarctica and South Africa. Jl. Geophys. Rsch. 68: 15351545.Google Scholar
MCD65 McDougall, I.; and Grindley, G.W., 1965. Potassium-argon dates on micas from the Nimrod-Beardmore-Axel Heiberg region, Ross Dependency, Antarctica. N.Z. Jl. Geol. Geophys. 8: 304313.Google Scholar
MCD69 McDougall, I., 1969. Potassium-argon dates on minerals from dolerites from western Queen Maud Land, Antarctica. in Gondwana Stratigraphy: IUGS Symp., Buenos Aires, Oct. 1–15, 1967, Earth Sciences 2: 11581159. Paris, UNESCO.Google Scholar
MCD70 McDougall, I., and Ghent, E.D., 1970. Potassium-argon dates on mineral from the Mt. Falconer area, Lower Taylor Valley, South Victoria Land, Antarctica. N.Z. Jl. Geol. Geophys. 13: 10261029.Google Scholar
MCD76 McDougall, I., 1976. Potassium-argon dating of glauconite from a green-sand drilled at site 270 in the Ross Sea, DSDP Leg 28. in Initial Reports of the Deep Sea Drilling Project 36, eds. Barker, P.F., Dalziel, I.W.D., et al., p. 10711072. Washington, D.C.; U.S. Gov. Print. Off.Google Scholar
MCG69 McGregor, V.R.; and Wade, F.A., 1969. Geology of the western Queen Maud Mountains. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate XV. New York, Am. Geog. Soc. Google Scholar
MCI81 McIntosh, W.C.; and LeMasurier, W.E., 1981. Rock magnetism and opaque mineralogy of hyaloclastites from Marie Byrd Land and Ross Island. Antarct. Jl. U.S. 16(5):2527. (MET78 used for some data)Google Scholar
MCI82 McIntosh, W.C.; Kyle, P.R.; Cherry, E.M.; and Noltimer, H.C., 1982. Paleomagnetic results from the Kirkpatrick Basalt Group, Victoria Land. Antarct. Jl. U.S. 17(5):2022.Google Scholar
MCL67 McLeod, I.R.; and Gregory, C.M., 1967. Geological investigations along the Antarctic Coast between longtitude 108° E. and 166° E. Dept. Nat. Dev., Bur. Mineral Resources, Geol. and Geophys. Aust. Rept. 79: 48 pp.Google Scholar
MCQ72 McQueen, D.M.; Scharnberger, C.K.; Scharon, L.; and Halpern, M., 1972. Cambro-Ordovician paleomagnetic pole position and rubidium-strontium total rock isochron for charnockitic rocks from Mirny Station, East Antarctica. Earth Plan. Sci. Letters 16: 433438.Google Scholar
MEG64 Meguro, H.; Yoshida, Y.; Uchio, T.; Kigoshi, K.; and Sugawara, K., 1964. Quaternary marine sediments and their geological dates with reference to the geomorphology of Kronprins Olav Kyst. in Antarctic Geology, ed. Adie, R.J., p. 7380. Amsterdam, North-Holland Pub. Co.Google Scholar
MEH75 Mehnert, H.H.; Rowley, P.D.; and Schmidt, D.L., 1975. K-Ar ages of plutonic rocks in the Lassiter Coast area, Antarctica. Jl. Rsch. U.S.G.S. 3: 233236.Google Scholar
MET78 Metcalfe, A.P.; Spörli, K.B.; and Craddock, C., 1978. Plutonic rocks from the Ruppert Coast, West Antarctica. Antarct. Jl. U.S. 13(4) (Oct.):57.Google Scholar
MIA76 Miagkov, S.M.; Nedeshava, G.N.; and Riabova, E.I., 1976. McMurdo Sound sea level changes in the last 50,000 years. Antarct. Jl. U.S. 11: 233235.Google Scholar
MIC81 Michel, R.L., 1981. Chemical sampling of the eastern Scotia Sea. Antarct. Jl. U.S. 16(5): 170.Google Scholar
MIL60 Miller, J.A., 1960. Postassium-argon ages of some of the rocks from the South Atlantic. Nature 187: 10191020.Google Scholar
MIN65 Minshew, V.H., 1965. Potassium-argon age from a granite at Mount Wilbur, Queen Maud Range, Antarctica. Science 150: 741743.Google Scholar
MIR69 Mirsky, A., 1969. Geology of the Ohio Range - Liv Glacier area. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate XVI. New York, Am. Geog. Soc. Google Scholar
MON69 Montigny, R.; and Faure, G., 1969. Contribution au probleme de l'homogenisation isotopique du strontium des roches totales au cours du metamorphism: Cas du Wisconsin Range, Antartique. C.R. Acad. Sci. Paris 268: 10121015. (FAU68A and FAU79A used for all data)Google Scholar
MOR74 Moriwaki, K., 1974. Radiocarbon dating of fossil shells on raised beaches on the east coast of Lutzow-Holm Bay, east Antarctica. Antarct. Rec. 48: 8290. (In Japanese; English description found in ISH76)Google Scholar
MUN72 Munizaga, F., 1972. Rb-Sr isotopic ages of intrusive rocks from Thurston Island and adjacent islands. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 205206. Oslo, Universitetsforlaget.Google Scholar
NAT71 Nathan, S., 1971. Potassium-argon dates from the area between the Priestley and Mariner Glaciers, northern Victoria Land, Antarctica. N.Z. Jl. Geol. Geophys. 14: 504511.Google Scholar
NEE69 Neethling, D.C., 1969. Pre-Gondwana sedimentary rocks of western Queen Maud Land, Antarctica. in Gondwana Stratigraphy, Proc. I.U.G.S. Symp. Buenos Aries, Oct. 1–15, 1967, p. 11531162. Paris, UNESCO. (Dates in appendix-see MCD69)Google Scholar
NEE72 Neethling, D.C., 1972. Age and correlation of the Ritscher Supergroup and other Precambrian rock units, Dronning Maud Land. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 547556. Oslo, Universitetsforlaget.Google Scholar
NEL66 Nelson, P.H.H., 1966. The James Ross Island Volcanic Group of north-east Graham Land. Br. Antarct. Surv. Sci. Rpt. 54: 62 pp.Google Scholar
NIC61 Nicolaysen, L.O.; Burger, A.J.; Tatsumi, T.; and Ahrens, L.H., 1961. Age measurements on pegmatites and a basic charnockite lens occurring near Lutzow-Holm Bay, Antarctica. Geochim. Cosmochim. Acta 22: 9498.Google Scholar
NIC62 Nichols, R.L., 1962. Geomorphology of the McMurdo Sound coast, south Victoria Land, Antarctica (Abst.). Geol. Soc. Am. Spec. Paper 73:211.Google Scholar
NIC64 Nichols, R.L., 1964. Present status of Antarctic glacial geology. in Antarctic Geology, ed. Adie, R.J., p. 123138. Amsterdam, North-Holland Pub. Co.Google Scholar
NIC65 Nichols, R.L., 1965. Antarctic interglacial features. Jl. Glaciology 5: 433449.Google Scholar
NIC68 Nichols, R.L., 1968. Coastal geomorphology, McMurdo Sound, Antarctica. Jl. Glaciology 7: 449478.Google Scholar
NIC71 Nichols, R.L., 1971. Glacial geology of the Wright Valley, McMurdo Sound. in Research in the Antarctic, eds. Quam, L.O. and Porter, H.D., p. 293340. Washington, D.C.; AAAS.Google Scholar
NOA64 Noakes, J.E.; Stipp, J.J.: and Hood, D.W., 1964. Texas A & M University radiocarbon date. I. Radiocarbon 6: 189193.Google Scholar
OLI82 Oliver, R.L.; James, P.R.; Collerson, K.D.; and Ryan, A.B., 1982. Precambrian geologic relationships in the Vestfold Hills, Antarctica. in Antarctic Geoscience, ed. Craddock, C., p. 435444. Madison, University of Wisconsin Press. (ARR75 used for all data)Google Scholar
OLI83 Oliver, R.L.; Cooper, J.A.; and Truelove, A.J., 1983. Petrology and zircon geochronology of Herring Island and Commonwealth Bay and evidence for Gondwana reconstruction. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 6468. Cambridge, Cambridge University Press.Google Scholar
OLS61 Olson, E.A.; and Broecker, W.S., 1961. Lamont natural radiocarbon measurements VII. Radiocarbon 3: 141175.Google Scholar
OMO72 Omoto, K., 1972. A preliminary report on modern carbon datings at Syowa Station and its neighborhood, East Antarctica. Antarct. Rec. 43: 2024.Google Scholar
OMO74 Omoto, K.; Makita, H.; and Koseki, Y., 1974. Tohoku University radiocarbon measurements II. Sci. Reports, Tohoku Univ., 7th Ser., Geog. 24(2):205209.Google Scholar
OMO76 Omoto, K., 1976. Tohoku University radiocarbonmeasurements III. Sci. Reports, Tohoku Univ., 7th Ser., Geog. 26(1):135157.Google Scholar
OMO77 Omoto, K., 1977. Geomorphic development of the Soya Coast, East Antarctica-chronological interpretation of raised beaches based on levelings and radiocarbon datings. Sci. Reports, Tohoku Univ., 7th Ser., Geog. 27(2):95132.Google Scholar
OMO78 Omoto, K., 1978. Tohoku University radiocarbon measurements VI. Sci. Reports, Tohoku Univ., 7th Ser. Geog. 28(1):101116.Google Scholar
OMO83 Omoto, K., 1983. The problem and significance of radiocarbon geochronology in Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 450452. Cambridge, Cambridge University Press. (Review reference)Google Scholar
OST80 Östlund, H.G.; and Stuiver, M., 1980. GEOSECS Pacific radiocarbon. Radiocarbon 22: 2553. (Ocean sites outside the compilation area)Google Scholar
PAN80 Pankhurst, R.J.; Weaver, S.D.; Brook, M.; and Saunders, A.D., 1980. K-Ar chronology of Byers Peninsula, Livingston Island, South Shetland Islands. Br. Antarct. Surv. Bull. 49: 277282.Google Scholar
PAN82 Pankhurst, R.J., 1982. Rb-Sr geochronology of Graham Land, Antarctica. Jl. Geol. Soc. London 139: 701711.Google Scholar
PAN83 Pankhurst, R.J., 1983. Rb-Sr constraints on the ages of basement rocks of the Antarctic Peninsula. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 367371. Cambridge, Cambridge University Press.Google Scholar
PAN83A Pankhurst, R.J.; Marsh, P.D.; and Clarkson, P.D., 1983. A geochronological investigation of the Shackleton Range. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 176182. Cambridge, Cambridge University Press.Google Scholar
PAN83B Pankhurst, R.J.; and Smellie, J.L., 1983. K-Ar geochronology of the South Shetland Islands, Lesser Antarctica: Apparent lateral migration of Jurassic to Quaternary island arc volcanism. Earth Plan. Sci. Letters 66: 214222.Google Scholar
PAS68 Pasteels, P.; and Michot, J., 1968. Nouveaus résultats géochronologiques obtenus par la méthode U-Pb sur des zircons des monts Sör-Rondane (Antarctique). Ann. Soc. Géol. de Belgique 91(3):283303.Google Scholar
PEA63 Pearn, W.C.; Angino, E.E.; and Stewart, D., 1963. New isotopic age measurements from the McMurdo Sound area, Antarctica. Nature 199: 685.Google Scholar
PEW58 Péwé, T.L., 1958. Multiple glaciation in the McMurdo Sound, Antarctica. Ohio St. Univ. Rsch. Found. Rept. 825–2(IX): 27 pp. (PEW60 used for all data)Google Scholar
PEW59 Pewé, T.L.; Rivard, N.R.; and Llano, G.A., 1959. Mummified seal carcasses in the McMurdo Sound region, Antarctica. Science 130: 716.Google Scholar
PEW60 Pewé, T.L., 1960. Multiple glaciation in the McMurdo Sound region, Antarctica - a progress report. Jl. Geol. 68: 498514.Google Scholar
PEW62 Pewé, T.L., 1962. Age of moraines in Victoria Land, Antarctica. Jl. Glaciology 4: 93100. (OLS61 used for some data)Google Scholar
PIC63 Picciotto, E.; and Coppez, A., 1963. Bibliographie des mesures d'ages absolus en Antarctique. Ann. Soc. Géol. de Belgique 85(8): B263308. (Recalculates many listed dates using other constants)Google Scholar
PIC64 Picciotto, E.; and Coppez, A., 1964. Bibliography of absolute age determinations in Antarctica (addendum). in Antarctic Geology, ed. Adie, R.J., p. 563569. Amsterdam, North-Holland Pub. Co. (Recalculates many listed dates using other constants)Google Scholar
PIC64A Picciotto, E.; Deutsch, S.; and Pasteels, P., 1964. Isotopic ages from the Sør-Rondane Mountains, Dronning Maud Land. in Antarctic geology, ed. Adie, R.J., p. 570578. Amsterdam, North-Holland Pub. Co.Google Scholar
PIC66 Picciotto, E.; Deutsch, S.; and Pasteels, P., 1966. Mesures d'ages par les methods isotopiques de mineraux et de roches des Monts Sor-Rondane. Expedition Antarctique Belge 1957–1958, Resultats Scientifiques VIII: 233266. (PIC64 and PIC64A used for some data)Google Scholar
PIC82 Picard, J., 1982. Holocene winds of the Vestfold Hills, Antarctica. N.Z. Jl. Geol. Geophys. 25: 353358.Google Scholar
PIE76 Pieters, P.E.; and Wyborn, D., 1976. Enderby Land and Macquarie Island. Bur. Min. Resources, Geol. and Geophys. Aust. Rept. 194, Geological Branch Summary of Activities 1975, p. 72.Google Scholar
PLU74 Plummer, C.L., 1974. Contact metamorphism of the Latady Formation, southern Lassiter Coast, Antarctic Peninsula. Antarct. Jl. U.S. 9: 8283.Google Scholar
POL76 Polyakov, M.M.; Krylov, A.Ya.; and Mazina, T.I., 1976. Novye dannye radiogeokhronologii kainozoiskikh volkanitov Antartidy (160v.d. - 100z.d.) [New data on radiogeochronology of Antarctic Cenozoic vulcanites (160 E. - 100 W.)]. Inform. Byull. Sov. Antarkt. Eksped. 93: 1926.Google Scholar
RAV58 Ravich, M.G., 1958 (Eng. trans., 1964). The absolute age of the Precambrian rocks of the central sector of East Antarctica. Sov. Antarct. Exped. Inform. Bull. Vol. 1: 1820. Amsterdam, Elsevier Pub. Co. (RAV65 used for all data)Google Scholar
RAV60 Ravich, M.G.; and Krylov, A. Ya., 1960 (Eng. trans., 1964). Absolute age of rocks of the eastern part of the mountains of Queen Maud Land. Sov. Antarct. Exped. Inform. Bull. Vol. 2: 291293. Amsterdam, Elsevier Pub. Co. (Original reference is in Inform. Byull. Sov. Antarkt. Eksped. 20: 291–293; RAV65 used for some data)Google Scholar
RAV60A Ravich, M.G.; and Krylov, A.Ya., 1960 (Eng. trans., 1964). Absolute age of rocks in the Mawson Station area. Sov. Antarct. Exped. Inform. Bull. Vol. 2: 245247. Amsterdam, Elsevier Pub. Co. (Original reference is in Inform. Byull. Sov. Antarkt. Eksped. 19: 245–247; STA60 used for all data)Google Scholar
RAV62 Ravich, M.G., Krylov, A.Ya.; Solov'yev, D.S.; and Silin, Yu.I., 1962 (Eng. trans., 1964). Absolyutnyy vozrast porod tsentral'noy chasti gor na Zemli Korolevy Mod (Vostochnaya Antarktida). Doklady Akademii Nauk SSSR 147(6):14331436. [Age of the rocks in the central part of the mountains of Queen Maud Land, East Antarctica. Doklady Acad. Sci. USSR, Earth Sci. Sec. 147: 130–133.] (RAV64 used for all data)Google Scholar
RAV64 Ravich, M.G.; and Krylov, A.J., 1964. Absolute ages of rocks from East Antarctica. in Antarctic Geology, ed. Adie, R.J., p. 579589. Amsterdam, North-Holland Pub. Co.Google Scholar
RAV65 Ravich, M.G.; Klimov, L.V.; and Solov'yev, D.S., 1965 (Eng. trans., 1968). The Pre-Cambrian of East Antarctica. Trans. Sci. Rsch. Instit. Geol. Arctic, Ministry Geol. USSR, Moscow, 475 pp. Jerusalem, Israel Program for Scientific Translations.Google Scholar
RAV66 Ravich, M.G.; and Solov'yev, D.S., 1966 (Eng. trans., 1969). Geology and petrology of the mountains of central Queen Maud Land (Eastern Antarctica). Trans. Sci. Rsch. Instit. Geol. Arctic, Ministry Geol. USSR, Moscow 141: 348 pp. Jerusalem, Israel Program for Scientific Translations.Google Scholar
RAV72 Ravich, M.G.; and Kamenev, E.N., 1972 (Eng. trans., 1975). Crystalline basement of the Antarctic Platform, 582 pp. New York; John Wiley and Sons, Inc. Google Scholar
RAV74 Ravich, M.G.; Sobotovich, E.V.; Kamenev, Ye.N.; and Rudnik, V.A., 1974 (Eng. trans., 1975). O pozdneazoyskom vozraste drevneyskikh porod Antarktidy. Doklady Akademii Nauk SSSR 216(6):13681371. [Late Azoic age of the oldest rocks of Antarctica. Doklady Acad. Sci. USSR, Earth Sci. Sec. 216: 115–117.] (SOB76 used for all data)Google Scholar
REX67 Rex, D.C., 1967. Age of a dolerite from Dronning Maud Land. Br. Antarct. Surv. Bull 11: 101.Google Scholar
REX70 Rex, D.C., 1970. Age of a camptonite dyke from south-east Alexander Island. Br. Antarct. Surv. Bull. 23: 103.Google Scholar
REX72 Rex, D.C., 1972. K-Ar age determinations on volcanic and associated rocks from the Antarctic Peninsula and Dronning Maud Land. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 133136. Oslo, Universitetsforlaget.Google Scholar
REX73 Rex, D.C.; and Baker, P.E., 1973. Age and petrology of the Cornwallis Island Granodiorite. Br. Antarct. Surv. Bull. 32: 5561.Google Scholar
REX76 Rex, D.C., 1976. Geochronology in relation to the stratigraphy of the Antarctic Peninsula. Br. Antarct. Surv. Bull. 43: 4958.Google Scholar
ROW74 Rowley, P.D.; and Williams, P.L., 1974. Plutonic rocks of the Lassiter Coast. Antarct. Jl. U.S. 9: 225226.Google Scholar
ROW75 Rowley, P.D.; Williams, P.L.; Schmidt, D.L.; Reynolds, R.L.; Ford, A.B.; Clark, A.H.; Farrar, E.; and McBride, S.L., 1975. Copper mineralization along the Lassiter Coast of the Antarctic Peninsula. Econ. Geol. 70: 982992.Google Scholar
ROW76 Rowley, P.D.; Farrar, E.; and McBride, S.L., 1976. Preliminary interpretation of K-Ar ages of plutons in northern Lassiter Coast and southern Black Coast. Antarct. Jl. U.S. 11: 257259. (All data taken from FAR82)Google Scholar
ROW77 Rowley, P.D.; Williams, P.L.; and Schmidt, D.L., 1977. Geology of an upper Cretaceous copper deposit in the Andean Province, Lassiter Coast, Antarctic Peninsula. U.S.G.S. Prof. Paper 984: 36 pp.Google Scholar
RUT68 Rutford, R.H.; Craddock, C., and Bastien, T.W., 1968. Late Tertiary glaciation and sea level changes in Antarctica. Palaeogeog., Palaeoclimat., Palaeoecol., 5(1):1539.Google Scholar
RUT72 Rutford, R.H.; Craddock, C.; White, C.M.; and Armstrong, R.L., 1972. Tertiary glaciation in the Jones Mountains. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 239243. Oslo, Universitetsforlaget.Google Scholar
RUT73 Rutford, R.H.; LeMasurier, W.E.; LaPrade, K.E.; Laudon, T.S.; and Boellstorff, J.D., 1973. A summary of the terrestrial record of Antarctic glacial history in Ellsworth Land and Marie Byrd Land, West Antarctica (Abst.). 9th Congress Int. Union for Quat. Rsch., Christ Church, N.Z., Abstracts, p. 309.Google Scholar
SAI61 Saito, N.; Tatsumi, T.; and Sato, K., 1961. Absolute age of euxenite from Antarctica. Antarct. Rec. 12: 3136. (SAI64 used for all data)Google Scholar
SAI64 Saito, N.; and Sato, K., 1964. On the age of euxenite from Antarctica. in Antarctic Geology, ed. Adie, R.J., p. 590596. Amsterdam, North-Holland Pub. Co.Google Scholar
SCH69 Schmidt, D.L., 1969. Precambrian and lower Paleozoic igneous rocks, Pensacola Mountains, Antarctica. Antarct. Jl. U.S. 4: 203204.Google Scholar
SCH69A Schmidt, D.L.; and Ford, A.B., 1969. Geology of the Pensacola and Thiel Mountains. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate V. New York, Am. Geog. Soc. Google Scholar
SCH72 Scharnberger, C.K.; and Scharon, L., 1972. Paleomagnetism and plate tectonics of Antarctica. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 843847. Oslo, Universitetsforlaget.Google Scholar
SCH72A Schytt, V., 1972. Deception Island - en Antarktik Vulkanö. Forskning och Framsteg 8: 1114.Google Scholar
SCO65 Scott, K., 1965. Geology of the southern Gerlache Strait region, Antarctica. Jl. Geol. 73: 518527.Google Scholar
SEM72 Semyontsov, A.A.; Dolukhanov, P.M.; Romanova, Ye.N.; and Timofeyev, V.I., 1972. Radiocarbon dates of the Institute of Archeology III. Radiocarbon 14: 336367.Google Scholar
SEW80 Seward, D.; Kyle, P.R.; and LeMasurier, W.E., 1980. Fission track ages of Marie Byrd Land Volcanic rocks. Antarct. Jl. U.S. 15(5): 19. (LEM76 used for some data)Google Scholar
SHE76 Sheraton, J.W., 1976. Unusual potassium-rich alkaline rocks from Mount Bayliss, Prince Charles Mountains. Bur. Min. Resources, Geol. and Geophys. Aust. Rept. 194, Geological Branch Summary of Activities 1975, p. 7273. (TIN76 and SHE80 used for some data)Google Scholar
SHE80 Sheraton, J.W.; and England, R.N., 1980. Highly potassic mafic dykes from Antarctica. Jl. Geol. Soc. Aust. 27: 129135.Google Scholar
SHE81 Sheraton, J.W.; and Black, L.P., 1981. Geochemistry and geochronology of Proterozoic tholeiite dykes of East Antarctica: Evidence for mantle metasomatism. Contrib. Mineral. Petrol. 78: 305317.Google Scholar
SHE82 Sheraton, J.W., 1982. Origin of charnockitic rocks of MacRobertson Land. in Antarctic Geoscience, ed. Craddock, C., p. 489497. Madison, Univ. of Wisconsin Press.Google Scholar
SHE83 Sheraton, J.W., 1983. Geochemistry of mafic igneous rocks of the northern Prince Charles Mountains, Antarctica. Jl. Geol. Soc. Aust. 30: 295304.Google Scholar
SHE83A Sheraton, J.W.; and Collerson, K.D., 1983. Archaean and Proterozoic geological relationships in the Vestfold Hills - Prydz Bay area, Antarctica. BMR Jl. Aust. Geol. Geophys. 8: 119128.Google Scholar
SHI67 Shima, M., 1967. Report of the Japanese summer parties in Dry Valleys, Victoria Land, 1963–1965. VI. Fission track ages of rocks. Antarct. Rec. 29: 7681. (In Japanese)Google Scholar
SHI83 Shirahata, H., 1983. Lead isotopic composition in metamorphic rocks from Skarvsnes, East Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 5558. Cambridge, Cambridge University Press.Google Scholar
SHO68 Shotton, F.W.; Blundell, D.J.; and Williams, R.E.G., 1968. Birmingham University radiocarbon dates II. Radiocarbon 10: 200206.Google Scholar
SHO69 Shotton, F.W.; Blundell, D.J.; and Williams, R.E.G., 1969. Birmingham University radiocarbon dates III. Radiocarbon 11: 263270.Google Scholar
SHO70 Shotton, F.W.; Blundell, D.J.; and Williams, R.E.G., 1970. Birmingham University radiocarbon dates IV. Radiocarbon 12: 385399.Google Scholar
SHO71 Shotton, F.W.; and Williams, R.E.G., 1971. Birmingham University radiocarbon dates V. Radiocarbon 13: 141156.Google Scholar
SIE68 Siegel, F.R.; and Dort, W., 1968. Mirabilite and associated seal bones, southern Victoria Land, Antarctica. Antarct. Jl. U.S. 3: 173.Google Scholar
SIN80 Singleton, D.G., 1980. The Geology of the central Black Coast, Palmer Land. Br. Antarct. Surv. Sci. Rept. 102: 50 pp. (Data from appendix by R.J. Pahkhurst)Google Scholar
SKI82 Skinner, D.N.B., 1982. Stratigraphy and structure of low-grade metasedimentary rocks of the Skelton group, southern Victoria Land - does Teall Greywacke really exist. in Antarctic Geoscience, ed. Craddock, C., p. 555563. Madison, University of Wisconsin Press. (JON67 and FAU74 used for all data)Google Scholar
SKI83 Skinner, D.N.B., 1983. The granites and two orogenies of southern Victoria Land. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 160163. Cambridge, Cambridge University Press.Google Scholar
SMI82 Smith, R.I.L., 1982. Plant succession and re-exposed moss banks on a deglaciated headland in Arthur Harbour, Anvers Island. Br. Antarct. Surv. Bull. 51: 193199.Google Scholar
SOB76 Sobotovich, E.V., Kamenev, Ye.N.; Komaristyy, A.A.; and Rudnik, V.A., 1976. The oldest rocks of Antarctica (Enderby Land). Int. Geol. Review 18(4):371388.Google Scholar
SOB83 Sobotovich, E.V.; Ol'hovik, Yu.A.; and Kamenev, E.N., 1983. Vorast gorniik porod Zemli Enderby (Antarktida) [Age of Enderby Land's, Antarctica rocks]. Izvestiia Akademii Nauk SSSR, Ser. Geol. 1983 no. 4: 3037.Google Scholar
SOL75 Solov'yev, D.S.; and Halpern, M., 1975. First Archean isotopic ages obtained in Antarctica for crystalline basement rocks. Inform. Bull. Sov. Antarct. Exped. 8(12):653654. (Original reference is in Inform. Byull. Sov. Antarkt. Eksped. 90; HAL70 used for some data)Google Scholar
SPE62 Speden, I.G., 1962. Fossiliferous Quaternary marine deposits in the McMurdo Sound region, Antarctica. N.Z. Jl. Geol. Geophys. 5: 746777.Google Scholar
SPO81 Spörli, K.B.; and Craddock, C., 1981. Geology of the Ruppert Coast, Marie Byrd Land, Antarctica. in Gondwana Five, eds. Cresswell, M.M. and Vella, P., p. 243250. Rotterdam, A.A. Balkema (MET68 used for some data)Google Scholar
STA59 Starik, I.E.; Ravich, M.G.; Krylov, A.Ya.; and Silin, Yu.I., 1959 (Eng. trans., 1960). Ob absolyutnom vozraste porod Vostochnoi Antarktichestoi Platformy. Doklady Akademii Nauk SSSR 126(1):144146. [The absolute age of the rocks fo the East Antarctic Platform. Doklady Acad. Sci. USSR 126: 429–431.] (RAV64 used for some data)Google Scholar
STA60 Starik, I.Ye.; Ravich, M.G.; Krylov, A.Ya.; Silin, Yu.I.; Atrashenok, L.Ya.; and Lovtsyus, A.V., 1960 (Eng. trans., 1961). Novye dannye ob absolyutnom vokhraste porod Vostochnoy Antarktidy. Doklady Akademii Nauk SSSR 134: 14211423. [New data on the absolute ages of rocks in eastern Antarctica. Doklady Acad. Sci. USSR 134: 956–958.]Google Scholar
STA61 Starik, I.Ye.; Krylov, A.Ya.; Ravich, M.G.; and Silin, Yu.I., 1961. The absolute ages of East Antarctic rocks. in Geochronology of Rock Systems, Ann. of the N.Y. Acad. Sci. 91 (Art.2):576582. (GAI69 used for some data)Google Scholar
STE77 Steiger, R.H.; and Jäger, E., 1977. Subcommission on geochronology: Convention on the use of decay constants in geo- and cosmochronology. Earth Plan. Sci. Letters 36: 359362. (General reference)Google Scholar
STI66 Stipp, J.J.; Knauer, G.A.; and Goodell, H.G., 1966. Florida State University radiocarbon dates I. Radiocarbon 8: 4653.Google Scholar
STU69 Stuiver, M., 1969. Yale natural radiocarbon measurements IX. Radiocarbon 11: 545658. (Data from ocean sites outside the compilation area)Google Scholar
STU70 Sturm, A.; and Carryer, S.J., 1970. Geology of the region between the Matusevich and Tucker Glaciers, North Victoria Land, Antarctica. N.Z. Jl. Geol. Geophys. 13: 408435. (GAI69 used for all data)Google Scholar
STU75 Stuckless, J.S., 1975. Geochronology of core samples recovered from DVDP 6, Lake Vida, Antarctica. Dry Valley Drilling Project (DVDP) Bull. 6: 27. (STU75A and VOC78 used for all data)Google Scholar
STU75A Stuckless, J.S.; and Ericksen, R.L., 1975. Rubidium-strontium ages of basement rocks recovered from DVDP hole 6, southern Victoria Land. Antarct. Jl. U.S. 10: 302307.Google Scholar
STU76 Stuiver, M.; Denton, G.H.; and Borns, H.W. Jr., 1976. Carbon-14 dates of Adamussium colbecki (Mollusca) in marine deposits at New Harbor, Taylor Valley. Antarct. Jl. U.S. 11: 8688.Google Scholar
STU76A Stuiver, M.; In Yang, Che; and Denton, G.H., 1976. Permafrost oxygen isotope ratios and chronology of three cores from Antarctica. Nature 261: 547550. (STU81 used for all data)Google Scholar
STU77 Stuiver, M.; and Denton, G.H., 1977. Glacial history of the McMurdo Sound region. Antarct. Jl. U.S. 12(4) (Oct):128130. (STU81 used for some data)Google Scholar
STU77A Stuiver, M.; and Polach, H.A., 1977. Discussion: Reporting of 14C data. Radiocarbon 19: 355363.Google Scholar
STU78 Stuiver, M.; Denton, G.H.; Kellogg, T.B.; and Kellogg, D.E., 1978. Glacial geologic studies in the McMurdo Sound region. Antarct. Jl. U.S. 13(4) (Oct.):4445. (STU81 used for some data)Google Scholar
STU80 Stump, E.; Sheridan, J.F.; Borg, S.G.; and Sutter, J.F., 1980. Early Miocene subglacial basalts, the East Antarctic ice sheet, and uplift of the Transantarctic Mountains. Science 207: 757759.Google Scholar
STU80A Stuiver, M.; and Östlund, H.G., 1980. GEOSECS Atlantic radiocarbon. Radiocarbon 22: 124.Google Scholar
STU81 Stuiver, M.; Denton, G.H.; Hughes, T.J.; and Fastook, J.L., 1981. History of last glaciation: A working hypothesis. in The Last Great Ice Sheets, eds. Denton, G.H. and Hughes, T.J., p. 319440. New York; John Wiley & Sons, Inc. (STU76 and STU77 used for some data)Google Scholar
STU83 Stump, E.; Holloway, J.R.; Borg, S.G.; and Armstrong, R.L., 1983. Discovery of a Tertiary granite pluton, northern Victoria Land. Antarct. Jl. U.S. 18(5):1718.Google Scholar
STU83A Stuiver, M.; and Östlund, H.G., 1983. GEOSECS Indian Ocean and Mediterranean radiocarbon. Radiocarbon 25: 129.Google Scholar
SUG73 Sugden, D.T.; and John, B.S., 1973. The ages of glacier fluctuations in the South Shetland Islands, Antarctica. in Paleoecology of Africa and the Surrounding Islands and Antarctica 8, ed. Van Zinderen Bakken, E.M., p. 139159.Google Scholar
SUN75 Sun, S.S.; and Hanson, G.N., 1975. Origin of Ross Island Basanitoids and limitations upon the heterogeneity of mantle sources for alkali basalts and nephelinites. Contrib. Mineral. Petrol. 52: 77106.Google Scholar
TAN82 Tanner, P.W.G.; Pankhurst, R.J.; and Hyden, G., 1982. Radiometric evidence for the age of the subduction complex in the South Orkney and South Shetland Islands, West Antarctica. Jl. Geol. Soc. London 139: 683690.Google Scholar
TAT69 Tatsumi, T.; and Kizaki, K., 1969. Geology of the Lutzow-Holm Bay region and the Yamato Mountains (Queen Fabiola Mountains). in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate IX. New York, Am. Geog. Soc. (Summary reference)Google Scholar
TAY83 Taylor, K.S.; and Faure, G., 1983. Provenance dates of feldspar in glacial deposits, southern Victoria Land, Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 453456. Cambridge, Cambridge University Press.Google Scholar
TES81 Tessensohn, F.; Kuphorn, D., Jordan, H.; Kleinschmidt, G.; Skinner, D.N.B.; Vetter, U.; Wright, T.O.; and Wyborn, D., 1981. Geological comparison of basement units in north Victoria Land, Antarctica. Geologisches Jahrbuch Reihe B, Heft 41 (G.A.N.O.V.E.X. German Antarctic North Victoria Land Expedition 1979/1980):3188. (Recalculates many listed dates using revised constants)Google Scholar
TES82 Tessensohn, F., 1982. Significance of late Precambrian turbidite sequences bordering the East Antarctic Shield. Geologische Rundschau 71(1):361369. (ADA82 used for some unreferenced dates)Google Scholar
THO75 Thompson, M.R.A., 1975. New paleontological and lithological observation on the Legoupil formation, Northwest Antarctic Peninsula. Br. Antarct. Surv. Bull. 41/42: 169185.Google Scholar
THO81 Thompson, M.R.A., 1981. Late Mesozoic stratigraphy and invertebrate palaeontology of the South Orkney Islands. Br. Antarct. Surv. Bull. 54: 6583.Google Scholar
THO83 Thomson, M.R.A.; and Pankhurst, R.J., 1983. Age of post-Gondwanian calc-alkaline volcanism in the Antarctic Peninsula region. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 328333. Cambridge, Cambridge University Press Google Scholar
TIN76 Tingey, R.J., 1976. Basic and alkaline intrusive rocks in the Prince Charles Mountains. Bur. Min. Resources, Geol. and Geophys. Aust. Rept. 194, Geological Branch Summary of Activities 1975, p. 73. (ARR75 used for some data)Google Scholar
TIN76A Tingey, R.J.; England, R.N.; Sheraton, J.W.; Arriens, P.A., 1976. Geology, geochemistry and geochronology of the Archaean rocks of the Prince Charles Mountains, Antarctica. 25th Int. Geol. Congress, Abst. 1: 2223. (TIN82 used for all data)Google Scholar
TIN82 Tingey, R.J., 1982. The geologic evolution of the Prince Charles Mountains - an Antarctic Archean cratonic block. in Antarctic Geoscience, ed. Craddock, C., p. 455464. Madison, University of Wisconsin Press.Google Scholar
TRA69 Trail, D.S.; and McLeod, I.R., 1969. Geology of Enderby Land. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate XII. New York, Am. Geog. Soc. Google Scholar
TRE64 Treves, S.B., 1964. Igneous and metamorphic geology of the Ohio Range, Horlick Mountains. in Antarctic Geology, ed. Adie, R.J., p. 498500. Amsterdam, North-Holland Pub. Co. (TRE65 used for all data)Google Scholar
TRE65 Treves, S.B., 1965. Igneous and metamorphic rocks of the Ohio Range, Horlick Mountains, Antarctica. in Geology and Paleontology of the Antarctic, ed. Hadley, J.B., Am. Geophys. Union Antarct. Rsch. Ser. 6: 117125. Washington, D.C.; Am. Geophys. Union.Google Scholar
TRE67 Treves, S.B., 1967. Volcanic rocks from the Ross Island, Marguerite Bay and Mt. Weaver areas, Antarctica. in Proc. Symp. on Pacific-Antarctic Sciences, ed. Nagata, T., JARE Sci. Rept. Spec. Issue 1: 136149.Google Scholar
TRE68 Treves, S.B., 1968. Volcanic rocks of the Ross Island area. Antarct. Jl. U.S. 3: 108109.Google Scholar
TUG59 Tugarinov, A.I.; Zykov, S.I.; Zhirova, V.V.; and Knorre, K.G., 1959. The age of the oldest rocks in Antarctica. Geochemistry, 1959(6):676678. (KRY61 used for all data)Google Scholar
UNI69 United States Geological Survey, 1969. Geological Survey Research 1969, Chapter A. U.S.G.S. Prof. Paper 650-A:A214. (ARM78 used for all data)Google Scholar
UNI75 University of Waikato, 1975. Antarctic Research Unit Report 4. (HEN79 used for some data) Google Scholar
UNI78 University of Waikato, 1978. Antarctic Research Unit Report 7. (HEN79 used for some data)Google Scholar
VAL79 Valencio, D.A.; Mendia, J.E.; and Vilas, J.F., 1979. Palaeomagnetism and K-Ar age of Mesozoic and Cenozoic igneous rocks from Antarctica. Earth Plan. Sci. Letters 45: 6168.Google Scholar
VAN69 Van Autenboer, T., 1969. Geology of the Sør Rondane Mountains. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate VIII. New York, Am. Geog. Soc. Google Scholar
VAN72 Van Autenboer, T.; and Loy, W., 1972. Recent geological investigations in the Sør-Rondane Mountains, Belgicafjella, and Sverdrupfjella, Dronning Maud Land. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 563571. Oslo, Universitetsforlaget.Google Scholar
VEL69 Vella, P., 1969. Surficial geological sequence, Black Island and Brown Peninsula, McMurdo Sound, Antarctica. N.Z. Jl. Geol. Geophys. 12: 761770.Google Scholar
VET83 Vetter, U.; Roland, N.W.; Kreuzer, H.; Höhndorf, A.; Lenz, H.; and Besang, C., 1983. Geochemistry, petrography, and geochronology of the Cambro-Ordovician and Devonian-Carboniferous granitoids of nothern Victoria Land, Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 140143. Cambridge, Cambridge University Press. (KRE81 used for some data)Google Scholar
VIN66 Vinogradov, A.P.; Devirts, A.L.; Dobkina, E.I.; and Markova, N.G., 1966. Radiocarbon dating in the Vernadsky Institute I-IV. Radiocarbon 8: 292323.Google Scholar
VOC78 Vocke, R.D. Jr.; Hanson, G.N.; and Stuckless, J.S., 1978. Ages for the vida granite and olympus granite gneiss, Victoria Valley, southern Victoria Land. Antarct. Jl. U.S. 13(4) (Oct.):1517. (VOC81 used for some data)Google Scholar
VOC81 Vocke, R.D. Jr.; and Hanson, G.N., 1981. U-Pb zircon ages and petrogenetic implications for two basement units from Victoria Valley, Antarctica. in Dry Valley Drilling Project, ed. McGinnis, L.D., Antarct. Rsch. Ser. 33: 247255. Washington, D.C.; Am. Geophys. Union (Recalculates some listed dates using revised constants)Google Scholar
VOG71 Vogel, J.C.; and Marais, M., 1971. Pretoria radiocarbon dates I. Radiocarbon 13: 378394.Google Scholar
VOR61 Voronov, P.S.; and Krylov, A., 1961 (Eng. trans., 1965). The age of oldest rocks of Antarctica. Sov. Antarct. Exped. Inform. Bull. Vol. 3: 285288. Amsterdam, Elsevier Pub. Co. (Original reference is in Inform. Byull. Sov. Antarkt. Eksped. 28)Google Scholar
VOR62 Voronov, P.S.; and Korotkevich, Ye.S., 1962. The rate of most recent uplift of Budd Coast, East Antarctica. Inform. Bull. Sov. Antarct. Exped. 4(3):133136. (Original reference is in Inform. Byull. Sov. Antarkt. Eksped. 35/36)Google Scholar
WAD65 Wade, F.Y.; Yeats, V.L.; Everett, J.R.; Greenlee, D.W.; La Prade, K.E.; and Shenk, J.C., 1965. The geology of the central Queen Maud Range, Transantarctic Mountains, Antarctica. Texas Tech. College, Rsch. Rept. Ser., Antarctic Ser. 65–1: 54 pp. (This reference was not obtained; MCG69 used for some data)Google Scholar
WAD69 Wade, F.A., 1969. Geology of Marie Byrd Land. in Geologic Maps of Antarctica, eds. Bushnell, V.C. and Craddock, C., Antarct. Map Folio Ser., Folio 12: Plate XVII. New York, Am. Geog. Soc. Google Scholar
WAD72 Wade, F.A., 1972. Geologic survey of Marie Byrd Land. Antarct. Jl. U.S. 7: 144145.Google Scholar
WAD72A Wade, F.A.; and Wilbanks, J.R., 1972. Geology of Marie Byrd and Ellsworth Lands. in Antarctic Geology and Geophysics, ed. Adie, R.J., p. 207214. Olso, Universitetsforlaget.Google Scholar
WAT82 Watts, D.R., 1982. Potassium-argon ages and paleomagnetic results from King George Island, South Shetland Islands. in Antarctic Geoscience, ed. Craddock, C., p. 255261. Madison, University of Wisconsin Press.Google Scholar
WEB62 Webb, P.N., 1962. Isotope dating of Antarctic rocks; A summary-1. N.Z. Jl. Geol. Geophys. 5: 790796. (All data updated in WEB65)Google Scholar
WEB64 Webb, A.W.; McDougall, I.; and Cooper, J.A., 1964. Potassium-argon dates from the Vincennes Bay region and Oates Land. in Antarctic Geology, ed. Adie, R.J., p. 597600. Amsterdam, North-Holland Pub. Co.Google Scholar
WEB65 Webb, P.N.; and Warren, G., 1965. Isotope dating of Antarctic rocks: A summary-2. N.Z. Jl. Geol. Geophys. 8: 221230. (Summary reference listing 231 dates)Google Scholar
WEB72 Webb, P.N., 1972. Wright Fjord, Pliocene marine invasion of an Antarctic dry valley. Antarct. Jl. U.S. 7: 227234.Google Scholar
WEB82 Webb, P.N.; and Wrenn, J.H., 1982. Upper Cenozoic micropaleontology and biostratigraphy of eastern Taylor Valley, Antarctica. in Antarctic Geoscience, ed. Craddock, C., p. 11171122. Madison, University of Wisconsin Press.Google Scholar
WEB82A Webers, G.F.; Craddock, C.; Rogers, M.A.; and Anderson, J.J., 1982. Geology of the Whitmore Mountains. in Antarctic Geoscience, ed. Craddock, C., p. 841847. Madison, University of Wisconsin Press.Google Scholar
WIL69 Wilson, A.T., 1969. Chemistry and the Quaternary in the Antarctic. in Paleoecology of Africa and of the surrounding islands and Antarctica. 5, ed. Van Zinderen Bakken, E. M., p. 97108.Google Scholar
WIL75 Williams, P.M.; and Linick, T.W., 1975. Cycling of organic carbon in the ocean: Use of naturally occurring radiocarbon as a long and short term tracer. Proc. Symp. on Isotope Ratios as Pollutant Source and Behaviour Indicators, Vienna, 18–22, November 1974, p. 153167. Vienna, Int. Atomic Energy Agency. (LIN77 used for some data)Google Scholar
WIL83 Williams, I.S.; Compston, W.; Collerson, K.D.; Arriens, P.A.; and Lovering, J.F., 1983. A reassessment of the age of the Windmill Metamorphics, Casey area. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 7376. Cambridge, Cambridge University Press.Google Scholar
YAM67 Yamagata, N.; Torii, T.; and Murata, S., 1967. Report of the Japanese summer parties in dry valleys, Victoria Land, 1963–65. V. Chemical composition of lake waters. Antarct. Rec. 29: 5375.Google Scholar
YAM77 Yamasaki, F.; Hamada, C.; and Hamada, T., 1977. Riken natural radiocarbon measurements IX. Radiocarbon 19: 6295.Google Scholar
YAN74 Yanai, K.; and Ueda, Y., 1974. Absolute ages and geological investigations on the rocks in the area of around Syowa Station, East Antarctica. Antarct. Rec. 48: 7081. (In Japanese)Google Scholar
YAN74A Yanai, K.; Kizaki, K.; Tatsumi, T.; and Kikuchi, T., 1974. Explanatory text of geological map of East Ongul Island, Antarctica. in Antarct. Geol. Map Ser. Sheet 1 (East Ongul Island), p. 413. Tokyo, Nat. Instit. Polar Rsch.Google Scholar
YAN74B Yanai, K.; Tatsumi, T.; and Kikuchi, T., 1974. Explanatory text of geological map of West Ongul Island, Antarctica. in Antarct. Geol. Map Ser. Sheet 2 (West Ongul Island), 5 pp. Tokyo, Nat. Instit. Polar Rsch. Google Scholar
YAN82 Yanai, K.; Nishida, T.; Kojima, H.; Shiraishi, K.; Asami, M.; Ohta, Y.; Kizaki, K.; and Matsumoto, Y., 1982. Explanatory text of geological map of the central Yamato Mountains, Massif B and Massif C., Antarctica. in Antarct. Geol. Map Ser. Sheet 28. (Central Yamato Mountains, Massif B and Massif C), 10 pp. Tokyo, Nat. Instit. Polar Rsch. Google Scholar
YOS70 Yoshida, Y., 1970. Higashi nankyoku Prince olav Kaigan no ryuki teisen to enko [Raised beaches and saline lakes along the Prince Olav Coast, Antarctica]. in Gendai no Chirigaku [Geography Nowadays], p. 93118. Tokyo, Asakura-shoten.Google Scholar
YOS75 Yoshida, Y.; Torii, T.; Yusa, Y.; Nakaya, S.; and Moriwaki, K., 1975. A limnological study of some lakes in the Antarctic. in Quaternary Studies, eds. Suggate, R.P. and Cresswell, M.M., Royal Soc. N.Z. Bull. 13: 311320.Google Scholar
YOS79 Yoshida, Y.; and Moriwaki, K., 1979. Some consideration on elevated coastal features and their dates around Syowa Station, Antarctica. in Proc. Seminar III on Dry Valley Drilling Project, 1978, Memoirs Nat. Instit. Polar Rsch. Spec. Issue 13: 220226.Google Scholar
YOS81 Yoshida, M., 1981. Tectonic and metamorphic studies of the Ellsworth Mountains. Antarct. Jl. U.S. 16(5):1618. (YOS82 used for all data)Google Scholar
YOS82 Yoshida, M., 1982. Superposed deformation and its implication to the geologic history of the Ellsworth Mountains, West Antarctica. in Proceedings of the Second Symposium on Antarctic Geosciences, ed. Nagata, T., Memoirs Nat. Instit. Polar Rsch. Spec. Issue 21: 120158.Google Scholar
YOS83 Yoshida, Y., 1983. Physiography of the Prince Olav and the Prince Harald Coasts, East Antarctica. Memoirs Nat. Instit. Polar Rsch., Series C (Earth Sciences) 13: 83 pp.Google Scholar
YOS83A Yoshida, M.; Suzuki, M.; Shirahata, H.; Kojima, H.; and Kizaki, K., 1983. A review of the tectonic and metamorphic history of the Lutzow-Holm Bay region, East Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 4447. Cambridge, Cambridge University Press.Google Scholar
ZHA83 Quingsong, Zhang; Youyu, Xie; and Yuanfang, Li, 1983. A preliminary study of the evolution of the post late Pleistocene Vestfold Hills environment, East Antarctica. in Antarctic Earth Science, eds. Oliver, R.L., James, P.R., and Jago, J.B., p. 473477. Cambridge, Cambridqe University Press.Google Scholar
ZIN82 Zinsmeister, W.J.; and Webb, P.N., 1982. Cretaceous-Tertiary geology and paleontology of Cockburn Island. Antarct. Jl. U.S. 17(5):4142.Google Scholar