Hostname: page-component-848d4c4894-sjtt6 Total loading time: 0 Render date: 2024-07-04T11:18:57.810Z Has data issue: false hasContentIssue false
  • English
  • Français

ANU Radiocarbon Date List II

Published online by Cambridge University Press:  18 July 2016

H. A. Polach ,
J. Golson ,
J. F. Lovering  and
J. J. Stipp
H. A. Polach
Affiliation:
Australian National University, Canberra, Australia Department of Geophysics and Geochemistry Department of Anthropology and Sociology
J. Golson
Affiliation:
Australian National University, Canberra, Australia Department of Anthropology and Sociology
J. F. Lovering
Affiliation:
Australian National University, Canberra, Australia Department of Geophysics and Geochemistry
J. J. Stipp
Affiliation:
Australian National University, Canberra, Australia Department of Geophysics and Geochemistry
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.

The C14 measurements reported here were carried out by the Radiocarbon Laboratory, Dept. of Geophysics and Geochemistry, A.N.U., between Jan. and Aug. 1967. Laboratory equipment consists of a Beckman methane gas-proportional unit (ANU I) supplemented in Dec. 1966 by an automatic 3-channel Beckman model LS-200 liquid scintillation spectrometer. Synthesis of methane and benzene is the same as used in ANU I and described by Polach and Stipp (1967). Treatment of samples remains a 2N hot acid (HCl) wash unless otherwise specified. Where applicable, fractional separation follows procedures reported by Olson (1963), Berger et al. (1964), Tamers and Pearson (1965), and Krueger (1966). In the treatment of bone samples, physical or mechanical cleaning could not completely remove sedimentary material often filling the structural pores. This material, if present, was retained with the fraction referred to as “collagen”. Since we are not dealing with pure collagen, we prefer to call it “acid-insoluble” bone fraction, a name describing the treatment. These dates are reported as equal to or greater than given age. Table 1 summarizes all dated fractions.

Type
Research Article
Information
Radiocarbon , Volume 10 , Issue 2 , 1968 , pp. 179 - 199
Copyright
Copyright © The American Journal of Science 

References

Date lists: Google Scholar
ANU I Polach, , Stipp, , Golson, , and Lovering, , 1967 Google Scholar
Gakushuin V Kigoshi, and Kobayashi, , 1966 Google Scholar
Gakushuin VI Kigoshi, , 1967 Google Scholar
Geochron I Krueger, and Weeks, , 1965 Google Scholar
Michigan I Crane, , 1956 Google Scholar
New Zealand I-V Grant-Taylor, and Rafter, , 1963 Google Scholar
NPL III Callow, , Baker, , and Hassall, , 1965 Google Scholar
USGS VI Rubin, and Berthold, , 1961 Google Scholar
Yale VIII Stuiver, , Deevey, , and Rouse, Jr., 1963 Google Scholar
Allen, James, 1967, The technology of colonial expansion: a nineteenth century military outpost on the north coast of Australia: Industrial Archaeol., v. 4, p. 111137.Google Scholar
Ambrose, W. and Davis, F., 1958, Interim report on the recording of Maori rock shelter art at Benmore: Report of the Nat. Hist. Places Trust for the year ended 31 March 1958, app. I, p. 1124.Google Scholar
Ambrose, W. and Davis, F. 1960, Final report on the recording of Maori rock shelter art at Benmore: Report of the Nat. Hist. Places Trust for the year ended 31 March 1960, app. III, p. 1416.Google Scholar
Ambrose, W., Ambrose, J., and Davis, F., 1959, Further report on the recording of Maori rock shelter art at Benmore: Report of the Nat. Hist. Places Trust for the year ended 31 March 1959, app. II, p. 1924.Google Scholar
Anderson, E. C. and Levi, H., 1952, Some problems in radiocarbon dating: Dan. Mat. Fys. Medd., v. 27 (6).Google Scholar
Berger, R., Horney, A. G., and Libby, W. F., 1964, Radiocarbon dating of bone and shell from their organic components: Science, v. 144, p. 9991001.Google Scholar
Bowler, J. M. and Harford, L. B., 1966, Quaternary tectonics and the evolution of the Riverine plain near Echuca, Victoria: Geol. Soc. Australia Jour., v. 13, p. 339354.Google Scholar
Bowler, J. M., Mulvaney, D. J., Casey, D. A., and Darragh, T. A., 1967, Green Gully burial; Nature, v. 213, p. 152154.CrossRefGoogle Scholar
Bulmer, S., 1966, The antiquity of pigs in the New Guinea Highlands: Polynesian Soc. Jour., v. 75, p. 504505.Google Scholar
Butler, B. E., 1959, Periodic phenomena in landscapes as a basis for soil studies: Canberra, Commonwealth Sci. and Ind. Res. Org., Aust. Soil Publ., no. 14.Google Scholar
Callow, W. J., Baker, M. J., and Hassall, G. I., 1965, National Physical Laboratory radiocarbon measurements III: Radiocarbon, v. 7, p. 156161.Google Scholar
Casey, D. A., 1936, Ethnological notes: Memoirs of the Nat. Mus. of Victoria, v. 9, p. 9097.Google Scholar
Crane, H. R., 1956, University of Michigan radiocarbon dates I: Science, v. 124, p. 664672.Google Scholar
Duff, R. S., 1956, The Moahunter period of Maori culture (2nd ed.): Wellington, Government Printer.Google Scholar
Gifford, E. W. and Shutler, D. Jr., 1956, Archaeological excavations in New Caledonia: Berkeley and Los Angeles, Univ. of California Press, Anthrop. Rec., v. 18(1).Google Scholar
Gill, E. D., 1966, Provenance and age of Keilor cranium: Current Anthropology, v. 7, p. 581584.Google Scholar
Golson, Jack, 1961, Report on New Zealand, Western Polynesia, New Caledonia and Fiji: Asian Perspectives, v. 5, p. 166180.Google Scholar
Golson, Jack, Lampert, R. J., Wheeler, J. M., and Ambrose, W. R., 1967, A note on carbon dates for horticulture in the New Guinea Highlands: Polynesian Soc. Jour., v. 76, in press.Google Scholar
Grant-Taylor, T. L. and Rafter, T. A., 1963, New Zealand natural radiocarbon measurements I-V: Radiocarbon v. 5, p. 118162.Google Scholar
Kigoshi, Kunihiko, 1967, Gakushuin natural radiocarbon measurements VI: Radiocarbon, v. 9, p. 4362.Google Scholar
Kigoshi, Kunihiko and Kobayashi, Hiromi, 1966, Gakushuin natural radiocarbon measurements V: Radiocarbon, v. 8, p. 5473.Google Scholar
Krueger, H. W., 1966, The preservation and dating of collagen in ancient bones: in Proceedings of 6th Internatl. Conf. Radiocarbon and Tritium dating, 1965, Pullman, Washington, p. 332337.Google Scholar
Krueger, H. W. and Weeks, C. F., 1965, Geochron Laboratories, Inc. radiocarbon measurements I: Radiocarbon, v. 7, p. 4753.Google Scholar
Lampert, R. J., 1967, Horticulture in the New Guinea Highlands: carbon dates from a recent excavation: Antiquity, v. 41, p. 307309.Google Scholar
Libby, W. F., 1963, Accuracy of radiocarbon dates: Science, v. 140, p. 278280.Google Scholar
Lockerbie, L., 1959, From Moa-hunter to Classic Maori in southern New Zealand: in Anthropology in the South Seas, ed. by Freeman, J. D. and Geddes, W. R., New Plymouth, Avery, p. 75110.Google Scholar
McBryde, Isabel, 1962, Archaeological field survey work in northern New South Wales: Oceania, v. 33, p. 1217.Google Scholar
Meyer, P. O., 1909, Funde prähistorischer Töpferei und Steinmesser auf Vatom, Bismarck Archipel: Anthropos, v. 4, p. 251252, 1093-1095.Google Scholar
Olson, E. A., 1963, The problems of sample contamination in radiocarbon dating: Ph.D. thesis, Columbia Univ., unpubl. Google Scholar
Pels, Simon, 1966, Late Quaternary chronology of Riverine plain of southeastern Australia: Geol. Soc. Australia Jour., v. 13, p. 2740.Google Scholar
Polach, H. A. and Golson, J., 1966, Collection of specimens for radiocarbon dating and interpretation of results: Canberra, Australian Inst. of Aboriginal Studies, manual no. 2.Google Scholar
Polach, H. A. and Stipp, J. J., 1967, Improved synthesis technique for methane and benzene radiocarbon dating: Internatl. Jour. Appl. Radiation and Isotopes, v. 18, p. 359364.Google Scholar
Polach, H. A., Stipp, J. J., Golson, J., and Lovering, J. F., 1967, ANU radiocarbon date list I: Radiocarbon, v. 9, p. 1527.Google Scholar
Poulsen, Jens, 1964, A preliminary report on pottery finds in Tonga: Asian Perspectives, v. 8, p. 184195.Google Scholar
Rubin, Meyer, and Berthold, S. M., 1961, U. S. Geological Survey radiocarbon dates VI: Radiocarbon, v. 3, p. 8698.CrossRefGoogle Scholar
Solheim, W. G. II, 1964, Further relationships of the Sa-huynh-Kalanay pottery tradition: Asian Perspectives, v. 8, p. 196211.Google Scholar
Stuiver, Minze, 1967, Origin and extent of atmospheric C-14 variations during the past 10,000 years: in Radioactive dating and methods of low level counting, Proc. Monaco Conf. March 1967, p. 2740.Google Scholar
Stuiver, Minze, Deevey, E. S. Jr., and Rouse, I., 1963, Yale natural radiocarbon measurements VIII: Radiocarbon, v. 5, p. 312341.Google Scholar
Stuiver, Minze and Suess, H. E., 1966, On the relationship between radiocarbon dates and the true sample ages: Radiocarbon, v. 8, p. 534540.Google Scholar
Suess, H. E., 1967, Bristlecone pine calibration of the radiocarbon time scale from 4100 b.c. to 1500 b.c.: in Radioactive dating and methods of low-level counting, Proc. Monaco Conf. March 1967, p. 143151.Google Scholar
Tamers, M. A. and Pearson, F. J. Jr., 1965, Validity of radiocarbon dates on bone: Nature, v. 208, p. 10531055.Google Scholar
Tauber, Henrik, 1958, Difficulties in the application of C-14 results in archaeology: Archaeologia Austriaca, v. 24, p. 5969.Google Scholar
Walker, P. H., 1962, Terrace chronology and soil formation on the south coast of N.S.W.: Jour. Soil Sci., v. 13, p. 178186.CrossRefGoogle Scholar
White, Carmel, 1967, Early stone axes in Arnhem Land: Antiquity, v. 41, p. 149152.Google Scholar
White, J. P., 1965, An archaeological survey in Papua-New Guinea: Current Anthropology, v. 6, p. 334335.Google Scholar
White, J. P. 1965, Archaeological excavation in New Guinea: an interim report: Polynesian Soc. Jour., v. 74, p. 4056.Google Scholar
White, J. P. 1967, Taim bilong bipo: investigations towards a prehistory of the Papua-New Guinea Highlands: Ph.D. thesis, Australian Natl. Univ., unpubl. Google Scholar