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AMS Radiocarbon Dating of Preclassic Maya Burials at Cuello, Belize

Published online by Cambridge University Press:  20 January 2017

Rupert A. Housley ,
Norman Hammond  and
Ian A. Law
Rupert A. Housley
Affiliation:
Radiocarbon Accelerator Unit, Research Laboratory for Archaeology and the History of AH, 6, Keble Rd., Oxford OX1 3QJ, England
Norman Hammond
Affiliation:
Department of Archaeology, Boston University, 675 Commonwealth Avenue, Boston, MA 02215
Ian A. Law
Affiliation:
Radiocarbon Accelerator Unit, Research Laboratory for Archaeology and the History of AH, 6, Keble Rd., Oxford OX1 3QJ, England
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Abstract

The use of accelerator mass spectrometry (AMS) on human bone from early Maya burials at Cuello, Belize provides direct dating of the Preclassic population, and assists resolution of the chronological problems discussed by Andrews and Hammond (1990).

Résumé

Résumé

El uso del acelerador para espectrometría de masa (AMS) en huesos humanos provenientes de enterramientos maya tempranos en Cuello, Belize, provee datación directa de la población Preclásica y ayuda a la solución de los problemas cronológicos discutidos por Andrews y Hammond (1990).

Type
Reports
Information
American Antiquity , Volume 56 , Issue 3 , July 1991 , pp. 514 - 519
Copyright
Copyright © The Society for American Archaeology 1991

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References

References Cited

Andrews, E. W., V., and Hammond, N. 1990 Redefinition of the Swasey Phase at Cuello, Belize. American Antiquity 55 : 570584.CrossRefGoogle Scholar
Coe, M. D. 1980 The Maya. 2nd. ed. Thames and Hudson, London.Google Scholar
Gillespie, R., Hedges, R. E. M., and Humm, M. J. 1986 Routine AMS Dating of Bone and Shell Proteins. Radiocarbon 28 : 451456.Google Scholar
Gowlett, J. A. J., Hall, E. T., Hedges, R. E. M., and Perry, C. 1986 Radiocarbon Dates from the Oxford AMS System : Archaeometry Datelist 3. Archaeometry 28 : 116125.Google Scholar
Hammond, N., Housley, R. A., and Law, I. A. 1991 The Postclassic at Cuello, Belize. Ancient Mesoamerica 2, in press.CrossRefGoogle Scholar
Hammond, N., Pring, D., Berger, R., Switsur, V. R., and Ward, A. P. 1976 Radiocarbon Chronology for Early Maya Occupation at Cuello, Belize. Nature 260 : 579581.Google Scholar
Hammond, N., Donaghey, S., Berger, R., de Atley, S., Switsur, V. R., -and Ward, A. P. 1977 Mayan Formative Phase Radiocarbon Dates from Belize. Nature 267 : 608610.CrossRefGoogle Scholar
Hammond, N., Pring, D., Wilk, R., Donaghey, S., Saul, F. P., Wing, E. S., Miller, A. V., and Feldman, L. H. 1979 The Earliest Lowland Maya? Definition of the Swasey Phase. American Antiquity 44 : 92110.CrossRefGoogle Scholar
Hedges, R. E. M. 1981 Radiocarbon Dating with an Accelerator : Review and Preview. Archaeometry 23 : 318.Google Scholar
Hedges, R. E. M. 1985 Progress in Radiocarbon Dating. Science Progress 69 : 409427.Google Scholar
Hedges, R. E. M., and Gowlett, J. A. J. 1986 Radiocarbon Dating by Accelerator Mass Spectrometer. Scientific American 254(1) : 100107.CrossRefGoogle Scholar
Hedges, R. E. M., Law, I. A., Bronk, C. R., and Housley, R. A. 1989 The Oxford Accelerator Mass Spectrometry Facility : Technical Developments in Routine Dating. Archaeometry 31 : 99-113.Google Scholar
Law, I. A., and Hedges, R. E. M. 1989 A Semi-automated Bone Pretreatment System and the Pretreatment of Older and Contaminated Samples. Radiocarbon 31 : 247253.Google Scholar
Law, I. A., Housley, R. A., Hammond, N., and Hedges, R. E. M. 1991 Cuello : Resolving the Chronology Through Direct Dating of Conserved and Low-Collagen Bone by AMS. Radiocarbon 33(2), in press.Google Scholar
Linick, T. W. 1984 La Jolla Natural Radiocarbon Measurements X. Radiocarbon 26 : 75110.Google Scholar
Marcus, J. 1984 Reply to Hammond and Andrews. American Antiquity 49 : 829833.CrossRefGoogle Scholar
Pearson, G. W., and Stuiver, M. 1986 High-Precision Calibration of the Radiocarbon Time Scale, 500-2500 BC. Radiocarbon 28 : 839862.Google Scholar
Pearson, G. W., Pilcher, J. R., Baillie, M. G. L., Corbett, D. M., and Qua, F. 1986 High-Precision 14C Measurement of Irish Oaks to Show the Natural 14C Variations from AD 1840-5210 BC. Radiocarbon 28 : 911934.CrossRefGoogle Scholar
Stuiver, M., and Pearson, G. W. 1986 High-Precision Calibration of the Radiocarbon Time Scale, AD 1950-500 BC. Radiocarbon 28 : 805838.CrossRefGoogle Scholar
van der Plicht, J., and Mook, W. G. 1989 Calibration of Radiocarbon Ages by Computer. Radiocarbon 31 : 805816.CrossRefGoogle Scholar