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Radiocarbon Dating in Eastern Arctic Archaeology: A Flexible Approach

Published online by Cambridge University Press:  20 January 2017

Wendy Hanford Arundale*
Affiliation:
Anthropology and Historic Preservation, Cooperative Park Studies Unit, University of Alaska, Fairbanks, AK 99701

Abstract

Radiocarbon dates from marine mammal tissue present Arctic archaeologists with some difficult interpretive problems. These problems are so serious that McGhee and Tuck have even advocated omitting all sea mammal dates from the Eastern Arctic radiocarbon chronology. A flexible approach to interpreting sea mammal dates will allow researchers to use existing dates more effectively and to make future dates more reliable. Solving the problems with sea mammal dates requires: (1) abandoning the assumption that radiocarbon assays are quasi-absolute chronological indicators; (2) recognizing and understanding the sources of variability that affect these dates; (3) correcting for these sources of variability; and (4) developing a more flexible strategy for interpreting the resulting date sequence. A large table of radiocarbon dates from the Eastern Arctic provides the basis for demonstrating how these four steps can be accomplished. Applying this flexible approach also suggests directions and guidelines for future research.

Type
Research Article
Copyright
Copyright © Society for American Archaeology 1981

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References

Berger, R., Homey, A. B., and Libby, W. F. 1964 Radiocarbon dating of bone and shell from their organic components. Science 144:9991001.Google Scholar
Bergland, B. E., Hakansson, S., and Lagerlund, E. 1976 Radiocarbon-dated mammoth (Mammuthus primigeiu'us Blumenbach) finds in south Sweden. Boreas 5:177191.Google Scholar
Broecker, W. S., Gerard, R., Ewing, M., and Heezen, B. C. 1960 Natural radiocarbon in the Atlantic Ocean. Journal of Geophysical Research 65:29032931.Google Scholar
Broecker, W. S., and Olson, E. A. 1961 Lamont radiocarbon measurements VIII. Radiocarbon 3:176204.CrossRefGoogle Scholar
Buckley, J. D., Trautman, M. A., and Willis, E. H. 1968 Isotopes’ radiocarbon measurements VI. Radiocarbon 10:286294.CrossRefGoogle Scholar
Buckley, J. D., and Willis, E. H. 1970 Isotopes’ radiocarbon measurements VIII. Radiocarbon 12:87129.Google Scholar
Burleigh, R. J. F. 1974 Radiocarbon dating: some practical considerations for archaeologists. Journal of Archaeological Science 1:6987.Google Scholar
Campbell, J. M. 1965 Radiocarbon dating and far northern archaeology. In Proceedings of the sixth international conference on radiocarbon and tritium dating, Pullman, Washington, pp. 179186.Google Scholar
Campbell, N. J. 1958 The oceanography of Hudson Strait. Fisheries Research Board of Canada Manuscript Report Series No. 12.Google Scholar
Crane, H. R. and Griffin, J. B. 1965 University of Michigan radiocarbon dates X. Radiocarbon 7:123152.Google Scholar
Crane, H. R. and Griffin, J. B. 1966 University of Michigan radiocarbon dates XI. Radiocarbon 8:265285.Google Scholar
Damon, P. E., Ferguson, C. W., Long, A., and Wallick, E. I. 1974 Dendrochronologic calibration of the radiocarbon time scale. American Antiquity 39:350366.Google Scholar
Damon, P. E., Lerman, J. C., and Long, A. 1978 Temporal fluctuations of atmospheric 14C: causal factors and implications. Annual flevieiv of Earth and Planetary Science 6:457494.Google Scholar
DeNiro, M. J., and Epstein, S. 1977 Mechanism of carbon isotope fractionation associated with lipid synthesis. Science 197:261263.Google Scholar
Dunbar, M. J. 1966 The sea waters surrounding the Quebec Labrador peninsula. Cahiers de Geographic de Quebec 19:1335.Google Scholar
Dunnell, R. C. 1970 Sedation method and its evaluation. American Antiquity 35:305319.Google Scholar
Dyke, W., and Fyles, J. G. 1964 Geological survey of Canada radiocarbon dates III. Radiocarbon 6:167181.Google Scholar
Faure, G. 1977 Principles of isotope geology. Wiley, New York.Google Scholar
Gilot, E. 1971 Louvain natural radiocarbon measurements X. Radiocarbon 13:4551.CrossRefGoogle Scholar
Hakansson, S. 1969 University of Lund radiocarbon dates II. Radiocarbon 11:430450.Google Scholar
Hakansson, S. 1970 University of Lund radiocarbon dates III. Radiocarbon 12:534552.Google Scholar
Hakansson, S. 1974 University of Lund radiocarbon dates VII. Radiocarbon 16:311312.Google Scholar
Harp, E. Jr., 1976 Dorset settlement patterns in Newfoundland and southeastern Hudson Bay. In Eastern Arctic prehistory: paleoeskimo problems, edited by Maxwell, M. S.. Society for American Archaeology Memoir 31:119138.Google Scholar
Hassan, A. A., Termine, J. D., and Haynes, C. V. Jr., 1977 Mineralogical studies of bone apatite and their implications for radiocarbon dating. Radiocarbon 19:364374.Google Scholar
Haynes, V. 1968 Radiocarbon: analysis of inorganic carbon of fossil bone and enamel. Science 161:687688.Google Scholar
Hubbs, C. L., and Bien, G. S. 1967 La Jolla natural radiocarbon measurements V. Radiocarbon 9:261294.Google Scholar
Kigoshi, K., Aizawa, H., and Suzuki, N. 1969 Gakushuin natural radiocarbon measurements VII. Radiocarbon 11:295326.Google Scholar
Kigoshi, K., Suzuki, N., and Fakatsu, H. 1973 Gakushuin natural radiocarbon measurements VIII. Radiocarbon 15:4267.CrossRefGoogle Scholar
Krueger, H. W. 1965 The preservation and dating of collagen in ancient bones. In Proceedings of the sixth international conference on radiocarbon and tritium dating, Pullman, Washington, pp. 332337.Google Scholar
Longin, R. 1971 New method of collagen extraction for radiocarbon dating. Nature 230:241242.Google Scholar
Lowdon, J. A. Wilmeth, R., and Blake, W. Jr., 1969 Geological Survey of Canada radiocarbon dates VIII. Radiocarbon 11:2242.Google Scholar
Lowdon, J. A. Wilmeth, R., and Blake, W. Jr., 1970 Geological Survey of Canada radiocarbon dates X. Radiocarbon 12:472485.Google Scholar
Lowdon, J. A. Wilmeth, R., and Blake, W. Jr., 1972 Geological Survey of Canada radiocarbon dates XII. Geological Survey of Canada Paper 72-77.CrossRefGoogle Scholar
Mangerud, J. 1972 Radiocarbon dating of marine shells, including a discussion of apparent age of recent shells from Norway. Boreas 1:143172.Google Scholar
Mangerud, J., and Gulliksen, S. 1975 Apparent radiocarbon ages of recent marine shells from Norway, Spitzbergen, and Arctic Canada. Quaternary Research 5:263272.Google Scholar
Maxwell, M. S. 1976 Pro-Dorset and Dorset artifacts: the view from Lake Harbour. In Eastern Arctic prehistory: paleoeskimo problems, edited by M. S. Maxwell. Society for American Archaeology Memoir 31:5878.Google Scholar
McGhee, R., and Tuck, J. A. 1976 Un-dating the Canadian Arctic. In Eastern Arctic prehistory: paleoeskimo problems, edited by Maxwell, M. S.. Society for American Archaeology Memoir 31:614.Google Scholar
McLaren, I. A. 1958 The biology of the ringed seal (Phoca hispida Schreber) in the eastern Canadian Arctic. Fisheries Research Board of Canada Bulletin 118.Google Scholar
Michels, J. W. 1973 Dating methods in archaeology. Academic Press, New York.Google Scholar
Olsson, I. U. 1972 The pretreatment of samples and the interpretations of the results of C14 determinations. In Climate change in Arctic areas during the last ten thousand years, edited by Vasari, Y., Hyvarinin, H. and Hicks, S.. Acta Universitatis Ouluensis, Series A, Number 3:934.Google Scholar
Olsson, I. U. 1974 Some problems in connection with the evaluation of C14 dates. Geologiska Foreningens i Stockholm Forhandlingar 96:311320.Google Scholar
Olsson, I. U. 1980 14C content of marine mammals from northern Europe. Radiocarbon 22(3):662624.Google Scholar
Olsson, I. U., and El-Daoushy, M. F. A. F. 1978 Uppsala natural radiocarbon measurements XII. Radiocarbon 20(3):469486.Google Scholar
Olsson, I. U., El-Daoushy, M. F. A. F., Abd-El-Mageed, A. I., and Klasson, M. 1974 A comparison of different methods for pretreatment of bones. I. Geologiska Foreningens i Stockholm Forhandlingar 96:171181.Google Scholar
Olsson, I. U., El-Gammal, S., and Goksu, Y. 1969 Uppsala natural radiocarbon measurements IX. Radiocarbon 11:515544.CrossRefGoogle Scholar
Olsson, I. U., Klasson, M., and Abd-El Mageed, A. 1972 Uppsala natural radiocarbon measurements XI. Radiocarbon 14:247271.Google Scholar
Olsson, I. U., and Osadebe, F. A. N. 1974 Carbon isotope fractionation and fractionation corrections in 14C dating. Boreas 3:139146.Google Scholar
Ottoway, B. 1973 Dispersion diagrams: a new approach to the display of carbon-14 dates. Archaeometry 15:512.CrossRefGoogle Scholar
Polach, H. A. 1976 Radiocarbon dating as a research tool in archaeology—hopes and limitations. In Proceedings of the symposium on scientific methods of research in the study of ancient Chinese bronzes and South East Asian metal and other archaeological artifacts edited by Bernard, Noel, pp. 255298. Australian National University, Department of Far Eastern History, Canberra.Google Scholar
Polach, H. A., and Golson, J. 1966 Collection of specimens for radiocarbon dating and interpretation of results. Australian Institute of Aboriginal Studies Manual Number 2. Australian National University Press, Canberra.Google Scholar
Rafter, T. A., and O'Brien, B. J. 1970 Exchange rates between the atmosphere and the ocean as shown by recent C14 measurements in the South Pacific. In Radiocarbon variations and absolute chronology, edited by Olsson, I. U., pp. 355378. Wiley, New York.Google Scholar
Rainey, F., and Ralph, E. 1959 Radiocarbon dating in the Arctic. American Antiquity 24:365374.Google Scholar
Ralph, E. K. 1971 Radiocarbon dating. In Dating techniques for the archaeologist, edited by Michael, H. N. and Ralph, E. K., pp. 148. MIT Press, Cambridge, Mass.Google Scholar
Ralph, E. K., and Ackerman, R. E. 1961 University of Pennsylvania radiocarbon dates IV. Radiocarbon 3:414.Google Scholar
Ralph, E. K., Michael, H. N., and Han, M. C. 1973 Radiocarbon dates and reality. MASCA Newsletter 9:120.Google Scholar
Rutherford, A. A., Wittenberg, J., and McCallum, K. J. 1973 University of Saskatchewan radiocarbon dates VI. Radiocarbon 15:193211.Google Scholar
Rutherford, A. A., Wittenberg, J., and McCallum, K. J. 1975 University of Saskatchewan radiocarbon dates VI. Radiocarbon 17:328353. 181-188.Google Scholar
Stuckenrath, R. Jr., Coe, W. R., and Ralph, E. K. 1966 University of Pennsylvania radiocarbon dates DC. Radiocarbon 8:348385.CrossRefGoogle Scholar
Stuckenrath, R., and Mielke, J. E. 1973 Smithsonian Institution radiocarbon measurements VIII. Radiocarbon 15:388424.Google Scholar
Stuiver, M. 1978 Carbon-14 dating: a comparison of beta and ion counting. Science 202:881883.Google Scholar
Stuiver, M., and Polach, H. A. 1977 Reporting of 14C dates. Radiocarbon 19:355363.Google Scholar
Tamers, M. A., and Pearson, F. J. 1965 Validity of radiocarbon dates on bone. Nature 208:10531054.Google Scholar
Tauber, H. 1950 Copenhagen radiocarbon dates IV. American Journal of Science, Radiocarbon Supplement 2:1225.Google Scholar
Tauber, H. 1966 Copenhagen radiocarbon dates VII. Radiocarbon 8:213234.Google Scholar
Tauber, H. 1968 Copenhagen radiocarbon dates DC. Radiocarbon 10:295327.Google Scholar
Tauber, H. 1973 Copenhagen radiocarbon dates X. Radiocarbon 15:86112.Google Scholar
Tauber, H. 1979 14C activity of Arctic marine mammals. In Radiocarbon dating, edited by Berger, R. and Suess, H. E., pp. 447452. University of California Press, Berkeley.Google Scholar
Taylor, W. E. Jr., 1958 Archaeological work in Ungava, 1957. Arctic Circle 10:2527.Google Scholar
Taylor, W. E. Jr., 1978 Procedures for comparing and combining radiocarbon age determinations: a critique. Archaeometry 20:1931.Google Scholar
Ward, G. K., and Wilson, S. R. 1971 Working with radiocarbon dates. Proceedings of the Prehistoric Society 37:1533.Google Scholar
Wilmeth, R. 1971 Canadian archaeological radiocarbon dates. Contributions to Anthropology VII: Archaeology National Museum of Canada Bulletin 232:68127.Google Scholar
Wilmeth, R. 1978 Canadian archaeological radiocarbon dates (revised version). National Museum of Canada Mercury Series Paper 77. Archaeological Survey of Canada.Google Scholar