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Dating the Entry of Corn (Zea Mays) into the Lower Great Lakes Region

Published online by Cambridge University Press:  20 January 2017

Gary W. Crawford ,
David G. Smith  and
Vandy E. Bowyer
Gary W. Crawford
Affiliation:
Department of Anthropology, University of Toronto at Mississauga, Mississauga, Ontario L5L 1C6 Canada
David G. Smith
Affiliation:
Department of Anthropology, University of Toronto at Mississauga, Mississauga, Ontario L5L 1C6 Canada
Vandy E. Bowyer
Affiliation:
Terra Archaeological Laboratories, 312A Third Street East, Cornwall, Ontario K6H 2E4 Canada
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Abstract

Five accelerator mass spectrometer (AMS) dates on corn (maize or Zea mays) from the Grand Banks site, Ontario, range from cal A.D. 540 to 1030. These are the earliest directly dated corn samples in the Lower Great Lakes region. The presence of corn during the Princess Point Complex, a transitional Late Woodland phase preceding the Ontario Iroquoian Tradition, is confirmed as is an early presence of the Princess Point culture in Ontario. Maize appears to have spread rapidly from the Southeast and/or Midwest to Ontario. The corn cupules and kernel remains are fragmentary, as they are elsewhere in the Eastern Woodlands during this period. The limited morphological data indicate that the corn is a diminutive form of Eastern Eight-Row, or Eastern Complex, maize.

Lasfechas de los cinco espectrómetros aceleradores de masa (SAM) del sitio arqueológico Grand Banks, Ontario, se extienden desde 540 a 1030 a.D. Estos son los ejemplos de maíz más recientes que han sido directamente fechados. Aqui se confirma la presencia del maíz durante el Complejo Princess Point, una fase transitoria de Late Woodland (ultimo periodo de las tierras boscosas) que precedió a la Tradicion Iroquesa de Ontario, asi como se confirma la presencia inicial del complejo Princess Point en Ontario. El maíz parece haber sido diseminado rapidamente a Ontario desde el sureste y el medio-oeste. Los restes de carozo y de granos de maíz se encuentran fragmentados de la misma manera que se encuentran en los Eastern Woodlands (bosques) del este durante este período. La limitada información morfológica señala que el maíz es una forma diminutiva del llamado “maíz de ocho” (Eight-Row), о complejo oriental de maíz.

Type
Reports
Information
American Antiquity , Volume 62 , Issue 1 , January 1997 , pp. 112 - 119
Copyright
Copyright © Society for American Archaeology 1997

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References

References Cited

Asch, N. B., and Asch, D. L. 1985 Prehistoric Plant Cultivation in West-Central Illinois. In Prehistoric Food Production in America, edited by Ford, R. I., pp. 149203. Anthropological Papers No. 75. Museum of Anthropology, University of Michigan, Ann Arbor.Google Scholar
Adovasio, J. M., and Johnson., W C. 1981 The Appearance of Cultigens in the Upper Ohio Valley: A View from Meadowcroft Rockshelter. Pennsylvania Archaeologist 51(2): 6380.Google Scholar
Chapman, J., and Crites, G. 1987 Evidence for Early Maize (Zea mays) from the Icehouse Bottom Site, Tennessee. American Antiquity 52: 352354.Google Scholar
Conard, N., Asch, D. L., Asch, N. B., Elmore, D., Gove, H., 1984 Accelerator Radiocarbon Dating of Evidence for Prehistoric Horticulture in Illinois. Nature 308: 443147.CrossRefGoogle Scholar
Crawford, G. W., and Smith, D. G. 1996 Migration in Prehistory: Princess Point and the Northern Iroquoian Case. American Antiquity 61: 782790.CrossRefGoogle Scholar
Crawford, G. W, Smith, D. G., Desloges, J. R., and Davis, A. M. 1997 Floodplains and Agricultural Origins: A Case Study in South-Central Ontario, Canada. Journal of Field Archaeology, in press.CrossRefGoogle Scholar
Delcourt, P. A., Delcourt, H. R., Cridlebaugh, P. A., and Chapman, J. 1986 Holocene Ethnobotanical and Paleoecological Record of Human Impact on Vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25: 330349.CrossRefGoogle Scholar
Desloges, J. R., and Walker, I. J. 1995 Fluvial Geomorphic Processes and Archaeological Site Integrity at the Grand Banks Site, Grand River, Ontario. Paper presented at the 60th Annual Meeting of the Society for American Archaeology, Minneapolis, Minnesota.Google Scholar
Fearn, M. L., and Liu, K.-B. 1995 Maize Pollen of 3500 B.P. from Southern Alabama. American Antiquity 60: 109117.CrossRefGoogle Scholar
Ford, R. I. 1985 Patterns of Prehistoric Food Production in North America. In Prehistoric Food Production in America, edited by Ford, R. I., pp. 341364. Anthropological Papers No. 75. Museum of Anthropology, University of Michigan, Ann Arbor.CrossRefGoogle Scholar
Fritz, G. J. 1990 Multiple Pathways to Farming in Precontact Eastern North America. Journal of World Prehistory 4: 387435.CrossRefGoogle Scholar
Fritz, G. J. 1993 Early and Middle Woodland Period Paleoethnobotany. In Foraging and Farming in the Eastern Woodlands, edited by Scarry, C. M., pp. 3956. University of Florida Press, Gainesville.Google Scholar
Fritz, G. J. 1994 Are the First American Farmers Getting Younger? Current Anthropology 35: 305309.Google Scholar
Hart, J. P., and Asch-Sidell, N. 1996 Prehistoric Agricultural Systems in the West Branch of the Susquehanna River Basin, A.D. 850 to A.D. 1350. Paper presented at the New York Natural History Conference IV, New York State Museum, Albany.Google Scholar
Hatch, J. W. 1980 The Fisher Farm Site: A Late Woodland Hamlet in Context. Occasional Papers No. 12. Department of Anthropology, Pennsylvania State University, University Park.Google Scholar
Jackson, L. 1983 Early Maize in South-Central Ontario. Arch Notes 83: 912.Google Scholar
Katzenberg, A., Schwartz, H. P., Knyf, M., and Melbye, F. J. 1995 Stable Isotope Evidence for Maize Horticulture and Paleodiet in Southern Ontario, Canada. American Antiquity 60: 335350.CrossRefGoogle Scholar
Noble, W. C, and Kenyon, I. T. 1972 Porteous (AgHb-1): A Probable Early Glen Meyer Village in Brant County, Ontario. Ontario Archaeology 19: 1138.Google Scholar
Parker, K. E. 1984 Botanical Remains from the Eidson Site. In Late Archaic and Early Woodland Adaptation in the Lower St. Joseph River Valley, Berrier County, Michigan, edited by Garland, E. B., pp. 396411. Department of Transportation and Department of State, Lansing, Michigan.Google Scholar
Riley, T. J., Edging, R., and Rossen, J. 1990 Cultigens in Prehistoric Eastern North America: Changing Paradigms. Current Anthropology 31: 525541.Google Scholar
Riley, T., Walz, G. R., Bareis, C. J., Fortier, A. C., and Parker, K. E. 1994 Accelerator Mass Spectrometry (AMS) Dates Confirm Early Zea mays in the Mississippi River Valley. American Antiquity 59: 490498.CrossRefGoogle Scholar
Rowley-Conwy, P. 1995 Making First Farmers Younger: The West European Evidence. Current Anthropology 36: 346353.Google Scholar
Scarry, C. M. 1990 Plant Remains from the Walling Truncated Mound: Evidence for Middle Woodland Horticultural Activities. In Excavations of the Truncated Mound at the Walling Site: Middle Woodland Culture and Copena in the Tennessee Valley, edited by Knight, J. V., pp. 115128. Report of Investigations 56. Division of Archaeology, Alabama State Museum of Natural History, Birmingham.Google Scholar
Schwarcz, H. P., Melbye, J., Katzenberg, M. A., and Knyf, M. 1985 Stable Isotopes in Human Skeletons of Southern Ontario: Reconstructing Paleodiet. Journal of Archaeological Science 12: 187206.Google Scholar
Sears, W. H. 1982 Fort Center, An Archaeological Site in the Lake Okeechobee Basin. University of Florida Press, Gainesville.Google Scholar
Smith, B. D. 1989 Origins of Agriculture in Eastern North America. Science 246: 15661571.Google Scholar
Snow, D. 1995 Migration in Prehistory: The Northern Iroquoian Case. American Antiquity 60: 5979.Google Scholar
Stothers, D. M. 1973 Early Evidence of Agriculture in the Great Lakes. Canadian Archaeological Association Bulletin 5: 6276.Google Scholar
Stothers, D. M. 1977 The Princess Point Complex. Mercury Series No. 58. Archaeological Survey of Canada, National Museum of Man, Ottawa, Ontario.Google Scholar
Stothers, D. M., and Yarnell, R. A. 1977 An Agricultural Revolution in the Lower Great Lakes. In Geobotany, edited by Romans, R. D., pp. 209232. Plenum Press, New York.CrossRefGoogle Scholar
Stuiver, M., and Reimer, P. J. 1993 Extended 14C Data Base and Revised Calib 3.0 14C Calibration Program. Radiocarbon 35: 215230.Google Scholar
Whitehead, D. R. 1965 Prehistoric Maize in Southeastern Virginia. Science 150: 881882.CrossRefGoogle ScholarPubMed
Whitehead, D. R., and Sheehan, M. C. 1985 Holocene Vegetational Changes in the Tombigbee River Valley, Eastern Mississippi. American Midland Naturalist \tt(\): \22-\Z7. Google Scholar
Williamson, R. F. 1990 The Early Iroquoian Period of Southern Ontario. In The Archaeology of Southern Ontario to A.D. 1650, edited by Ellis, C. J. and Ferris, N., pp. 291320. Occasional Publication of the London Chapter No. 5. Ontario Archaeological Society, London.Google Scholar
Yarnell, R. A. 1964 Aboriginal Relationships between Culture and Plant Life in the Upper Great Lakes Region. Anthropological Papers No. 23. Museum of Anthropology, University of Michigan, Ann Arbor.Google Scholar