Hostname: page-component-848d4c4894-wg55d Total loading time: 0 Render date: 2024-05-05T13:55:48.579Z Has data issue: false hasContentIssue false
  • English
  • Français

Phytolith Evidence for Early Maize (Zea Mays) in the Northern Finger Lakes Region of New York

Published online by Cambridge University Press:  20 January 2017

John P. Hart ,
Robert G. Thompson  and
Hetty Jo Brumbach
John P. Hart
Affiliation:
Research and Collections Division, New York State Museum, 3140 Cultural Education Center, Albany, NY 12230. (jph_nysm@mail.nysed.gov)
Robert G. Thompson
Affiliation:
Department of Anthropology, University of Minnesota, 395 Hubert H. Humphrey Center, 301 19th Ave. S., Minneapolis, MN 55455. (phytodog@aol.com)
Hetty Jo Brumbach
Affiliation:
Department of Anthropology, University at Albany, SUNY, Arts & Sciences Building, Room 237, 1400 Washington Ave., Albany, NY 12222. (brumbach@albany.edu)
Get access Rights & Permissions [Opens in a new window]

Abstract

The timing of crop introductions, particularly of maize (Zea mays), has been of long-standing interest to archaeologists working in various regions of eastern North America. The earliest confirmed macrobotanical evidence for maize in New York is A.D. 1000. We report on the results of accelerator mass spectrometer (AMS) dating, phytolith analysis, and stable carbon isotope analysis of carbonized cooking residues adhering to the interior surface of pottery sherds from three sites in the northern Finger Lakes region of New York. Maize, squash (Cucurbita sp.), wild rice (Zizania aquatica), and sedge (Cyperus sp.) were identified in phytolith assemblages dating to as early as the first half of the calibrated seventh century A.D. The results demonstrate that low δ13C values on cooking residues cannot be used to preclude the possibility that maize was cooked in vessels. Two of the maize-bean-squash crop triad were present in New York at least 350 years earlier than previously documented, and the Northern Flint Corn Complex was present in New York by at least the first half of the seventh century A.D. This research highlights the potential of cooking residues to provide new insights on prehistoric plant-based subsistence.

Résumé

Résumé

El fechamiento de la introducción de productos agrícolas, especialmente el maíz (Zea mays), ha sido de interés por mucho tiempo para los arqueólogos que realizan investigaciones en varias regiones del este de América del Norte. La evidencia macrobotánica más antigua de maíz en Nueva York data de 1000 d.C.. En este estudio se presentan los resultados del fechamiento por EMA, de análisis de fitolitos y de isótopos estables de carbono realizados en residuos de alimentos carbonizados adheridos en la superficie interna de tiestos de tres sitios en el norte de la region de los Finger Lakes, Nueva York. De los conjuntos de fitolitios se han identificado maíz, calabaza (Cucurbita sp.), arroz silvestre (Zizania aquatica) y juncos (Cyperus sp.), con fechas calibradas correspondientes a la primera mitad de siglo VII d.C. Los resultados demuestran que los valores bajo de 13C en los residuos de alimentos no pueden ser usados para excluir la posibilidad de que el maíz se cocinaba en vasijas. Del trío maíz-frijol-calabaza, dos de los componentes estaban presentes en Nueva York por lo menos 350 años antes de lo que se había reportado previamente, mientras que el complejo de Maíz Northern Flint se identifica en Nueva York por lo menos para la primera mitad del siglo VII d.C. En esta investigación resalta el potencial que tienen los residuos de alimentos para aportar nuevas perspectivas acerca de la subsistencia basada en plantas.

Type
Articles
Information
American Antiquity , Volume 68 , Issue 4 , October 2003 , pp. 619 - 640
Copyright
Copyright © The Society for American Archaeology 2003

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References Cited

Arzigian, Constance M. 2000 Middle Woodland and Oneota Contexts for Wild Rice Exploitation in Southwestern Wisconsin. Midcontinental Journal of Archaeology 25:245-268.Google Scholar
Asch Sidell, Nancy 2000 Westheimer and Parslow Field Sites Tabular Summary. Report submitted to the New York State Museum, Albany.Google Scholar
Asch Sidell, Nancy 2002 Paleoethnobotanical Indicators of Subsistence and Settlement Change in the Northeast. In Northeast Subsistence- Settlement Change: A.D. 700-1300, edited by John, P. Hart and Christina, B. Rieth, pp. 241-264. New York State Museum Bulletin 496. The University of the State of New York, Albany.Google Scholar
Ball, Terry D., and Jack D., Brotherson 1992 Effect of Varying Environmental Conditions on Phytolith Morphometries in Two Species of Grass (Bouteloua curtipendula and Panicum virgatum) . Scanning Microscopy 6:1163-1181.Google Scholar
Battarbee, Richard W. 1988 The Use of Diatom Analysis in Archaeology: A Review. Journal of Archaeological Science 15:621-644.CrossRefGoogle Scholar
Berlin, Andrea, Terry, Ball, Robert, Thompson, and Sharon, Herbert 2003 Ptolemaic Agriculture, “Syrian Wheat,” and Triticum aestivum. Journal of Archaeological Science 30:115-121.CrossRefGoogle Scholar
Bozarth, Steven R. 1987 Diagnostic Opal Phytoliths from Rinds of Selected Cucurbita Species. American Antiquity 52:607-615.CrossRefGoogle Scholar
Cassedy, Daniel, and Paul, Webb 1999 New Data on the Chronology of Maize Horticulture in Eastern New York and Southern New England. In Current Northeast Paleoethnobotany, edited by John, P. Hart, pp. 85-100. New York State Museum Bulletin 494. The University of the State of New York, Albany.Google Scholar
Ceci, Lynn 1979 Maize Cultivation in Coastal New York: The Archaeological, Agronomical, and Documentary Evidence. North American Archaeologist 1:45-73.Google Scholar
Crawford, Gary W, and David G., Smith 2003 Paleoethnobotany in the Northeast. In People and Plants in Ancient Eastern North America, edited by Paul, E. Minnis, pp. 172-257. Smithsonian Books, Washington, D.C. Google Scholar
Crawford, Gary W., David G., Smith, and Vandy E., Bowyer 1997 Dating the Entry of Corn (Zea mays) into the Lower Great Lakes. American Antiquity 62:112-119.CrossRefGoogle Scholar
Doebley, John E, Major, M. Goodman, Charles, W. Stuber 1986 Exceptional Genetic Divergence of Northern Flint Corn. American Journal of Botany 73:6469.CrossRefGoogle ScholarPubMed
Dorweiler Jane, E., and John, Doebley 1997 Developmental Analysis of Teosinte Glume Architecturel: A Key Locus in the Evolution of Maize (Poaceae). American Journal of Botany 84:1313-1322.Google Scholar
Egan, Kathryn C. 2001 Archaeobotanical Analysis. In Stage III Archaeological Investigations at Zinselmeier No. 1 Site (ANR-222; A069-15-0026) Ontario County, New York, edited by Wier, D. J., pp. 7-1-7-20. Commonwealth Cultural Resources Group, Jackson, Michigan.Google Scholar
Ferris, Neal 1999 Telling Tales: Interpretive Trends in Southern Ontario Late Woodland Archaeology. Ontario Archaeology 68:1-62.Google Scholar
Fritz, Gayle J., and Bruce D., Smith 1988 Old Collections and New Technology: Documenting the Domestication of Chenopodium in Eastern North America. Midcontinental Journal of Archaeology 13:3-27.Google Scholar
Funk, Robert E. 1993 Archaeological Investigations in the Upper Susquehanna Valley, New York State. Persimmon Press, Buffalo, New York.Google Scholar
Galinat, W. C. 1967 Plant Habit and the Adaptation of Corn. Bulletin 565, Experimental Station, College of Agriculture, University of Massachusetts, Amherst.Google Scholar
Gates St-Pierre, Christian 2001 Two Sites, But Two Phases? Revisiting Kipp Island and Hunter's Home. Northeast Anthropology 62:31-53.Google Scholar
Hammer, Øyvind, David, A. T. Harper, and Paul, D. Ryan, 2001 PAST: Paleontological Statistics Software Package for Education and Data Analysis. Palaeontologia Electronica 4(1). http://palaeo-electronica.org/2001_1/past/issue 1J ) 1.htm (accessed March 2002).Google Scholar
Hart, John P. 1999a Dating Roundtop's Domesticates: Implications for Northeastern Late Prehistory. In Current Northeast Paleoethnobotany, edited by John, P. Hart, pp. 47-68. New York State Museum Bulletin 494. The University of the State of New York, Albany.Google Scholar
Hart, John P. 1999b Maize Agriculture Evolution in the Eastern Woodlands of North America: A Darwinian Perspective. Journal of Archaeological Method and Theory 6:137-180.Google Scholar
Hart, John P. 2000a New Dates on Classic New York State Sites: Just How Old Are Those Longhouses? Northeast Anthropology 60:1-22.Google Scholar
Hart, John P. 2000b New Dates from Old Collections: The Roundtop Site and Maize-Beans-Squash Agriculture in the Northeast. North American Archaeologist 21:7-17.CrossRefGoogle Scholar
Hammer, Øyvind, David, A. T. Harper, and Paul, D. Ryan, 2001 Maize, Matrilocality, Migration and Northern Iroquoian Evolution. Journal of Archaeological Method and Theory 8:151-182.Google Scholar
Hart, John P., David, L. Asch, Margaret Scarry, C., and Gary, W Crawford 2002 The Age of the Common Bean (Phaseolus vulgaris) in the Northern Eastern Woodlands of North America. Antiquity 76:377-383.CrossRefGoogle Scholar
Hart, John P., and Nancy, Asch Sidell 1996 Prehistoric Agricultural Systems in the West Branch of the Susquehanna River Basin, A.D. 800 to A.D. 1350. Northeast Anthropology 52:1-30.Google Scholar
Hart, John P., and Nancy, Asch Sidell 1997 Additional Evidence for Early Cucurbit Use in the Northern Eastern Woodlands East of the Allegheny Front. American Antiquity 62:523-537.Google Scholar
Hart, John P., and Bernard K., Means 2002 Maize and Villages: A Summary and Critical Assessment of Current Northeast Early Late Prehistoric Evidence. In Northeast Subsistence-Settlement Change: A.D. 700-1300, edited by John, P. Hart and Christina, B. Rieth, pp. 345-358. New York State Museum Bulletin 496. The University of the State of New York, Albany.Google Scholar
Hart, John P., and C. Margaret, Scarry 1999 The Age of Common Beans (Phaseolus vulgaris) in the Northeastern United States. American Antiquity 64: 653-658.CrossRefGoogle Scholar
Hastorf, Christine A., and Michael J., DeNiro 1985 Reconstruction of Prehistoric Plant Production and Cooking Practices by a New Isotope Method. Nature 315:489-491.Google Scholar
Hatch James, W. (editor) 1980 The Fisher Farm Site: A Late Woodland Hamlet in Context. The Pennsylvania State University, Department of Anthropology, Occasional Papers No. 12. University Park, Pennsylvania.Google Scholar
King, Frances B. 1992 Floral Remains. In The Prehistory of the Catawissa Bridge Replacement Site (36C09), Columbia County, Pennsylvania, edited by Thomas, C. East, James, A. Adovasio, William, C. Johnson, and David, R. Pedler. Prepared for the Cultural Resource Management Program, Department of Anthropology, University of Pittsburgh, Pittsburgh.Google Scholar
Knapp, Timothy D. 2002 Pits, Plants, and Place: Recognizing Late Prehistoric Subsistence and Settlement Diversity in the Upper Susquehanna Drainage. In Northeast Subsistence-Settlement Change: A.D. 700-1300, edited by John, P. Hart and Christina, B. Rieth, pp. 167-192. New York State Museum Bulletin 496. The University of the State of New York, Albany.Google Scholar
Kuhn, Robert D. 2001 The New York State Historic Preservation Office Archaeological Program, 1990 to 2000: A Ten-Year Retrospective. The Bulletin of the New York State Archaeological Association 117:25-35.Google Scholar
Little, Elizabeth A. 1999 Maize Age and Isotope Values at the Goldkrest Site. In Current Northeast Paleoethnobotany, edited by John, P. Hart, pp. 81-82. New York State Museum Bulletin 494. The University of the State of New York, Albany.Google Scholar
Lofstrom, Ted 1987 The Rise of Wild Rice Exploitation and Its Implication for Population Size and Social Organization in Minnesota Woodland Period Cultures. The Minnesota Archaeologist 46(2):3-15.Google Scholar
Lovis, William A. 1990 Curational Considerations for Systematic Research Collections: AMS Dating of a Curated Ceramic Assemblage. American Antiquity 55:382-387.Google Scholar
Matsuoka, Yoshihiro, Yves, Vigouroux, Major, M. Goodman, Jesus, Sanchez G., Edward, Bukler, and John, Doebley 2002 A Single Domestication for Maize Shown by Multilocus Microsatellite Genotyping. Proceedings of the National Academy of Sciences 99:6080-6084.Google Scholar
Mitchell, Richard S. 2003 A Compendium of New York Plants, Their Habitats and Distributions and Uses. Manuscript in preparation. New York State Museum, Albany, New York.Google Scholar
Mitchell, Richard S., and Gordon C., Tucker 1997 Revised Checklist of New York State Plants. New York State Museum Bulletin 490. The University of the State of New York, Albany.Google Scholar
Moffat, Charles R., and Constance M., Arzigian 2000 New Data on the Late Woodland Use of Wild Rice in Northern Wisconsin. Midcontinental Journal of Archaeology 25:49-81.Google Scholar
Mulholland, Susan C. 1993 A Test of Phytolith Analysis at Big Hidatsa, North Dakota. In Current Research in Phytolith Analysis: Applications in Archaeology and Paleoecology, edited by Deborah, Pearsall and Dolores, Piperno, pp. 131-145. MASCA, The University Museum of Archaeology and Anthropology, University of Pennsylvania, Philadelphia.Google Scholar
Mulholland, Susan C. and George, Rapp Jr. 1992 A Morphological Classification of Grass Silica Bodies. In Phytolith Systematics: Emerging Issues, edited by George, Rapp Jr. and Susan, C. Mulholland, pp. 65-89. Plenum Press, New York.CrossRefGoogle Scholar
New York Archaeological Council 1993-2001. NYAC Abstracts vols. 1-7. Albany, New York.Google Scholar
Ollendorf, Amy L. 1992 Towards a Classification Scheme of Sedge (Cyperaceae) Phytoliths. In Phytolith Systematics. Emerging Issues, edited by George, Rapp Jr. and Susan, C. Mulholland, pp. 91-111. Plenum Press, New York.Google Scholar
Overpeck, J. T, Webb, T. III, and Prentice, I. C. 1985 Quantitative Interpretation of Fossil Pollen Spectra: Dissimilarity Coefficients and the Method of Modern Analogues. Quaternary Research 23:87-108.CrossRefGoogle Scholar
Pearsall, Deborah M., and Dolores R., Piperno 1993 The Nature and Status of Phytolith Analysis. In Current Research in Phytolith Analysis: Applications in Archaeology and Paleoecology, edited by Deborah, M. Pearsall and Delores, R. Piperno, pp. 9-18. MASCA, The University Museum of Archaeology and Anthropology, University of Pennsylvania, Philadelphia.Google Scholar
Petersen, James B., and Nancy, Asch Sidell 1996 Mid-Holocene Evidence of Cucurbita sp. from Central Maine. American Antiquity 61:685-698.CrossRefGoogle Scholar
Piperno, Dolores R., Thomas C., Andres, and Karen, Stothert 2000 Phytoliths in Cucurbita and other Neotropical Cucurbitacae and their Occurrence in Early Archaeological Sites from the Lowland American Tropics. Journal of Archaeological Science 27:193-208.Google Scholar
Riley, Thomas J., Gregory, R. Waltz, Charles, J. Bareis, Andrew, C. Fortier, and Kathryn, E. Parker 1994 Accelerator Mass Spectrometry (AMS) Dates Confirm Early Zea mays in the Mississippi River Valley. American Antiquity 59:490-497.Google Scholar
Ritchie, William A. 1944 The Pre-Iroquoian Occupations of New York State. Rochester Museum of Arts and Sciences Memoir 1. Rochester, New York.Google Scholar
Ritchie, William A. 1946 A Stratified Prehistoric Site at Brewerton, New York. Rochester Museum of Arts and Sciences Research Record 5. Rochester, New York.Google Scholar
Ritchie, William A. 1965 The Archaeology of New York State. Natural History Press, Garden City, New York.Google Scholar
Ritchie, William A. 1969 The Archaeology of New York State 2nd ed. Natural History Press, Garden City, New York.Google Scholar
Ritchie, William A. 1973 The Kipp Island Site (Aub. 12-1, 13-1). In Aboriginal Settlement Patterns in the Northeast, by William, A. Ritchie and Robert, E. Funk, pp. 154-164. New York State Museum and Science Service Memoir 20. The University of the State of New York, Albany.Google Scholar
Ritchie, William A., and Robert E., Funk 1973 Aboriginal Settlement Patterns in the Northeast. New York State Museum and Science Service Memoir 20. The University of the State of New York, Albany.Google Scholar
Ritchie, William A., and Richard S., MacNeish 1949 The Pre-Iroquoian Pottery of New York State. American Antiquity 15:97-124.Google Scholar
Rovner, Irwin 1983 Plant Opal Phytolith Analysis: Major Advances in Archaeobotanical Research. In Advances in Archaeological Method and Theory Volume 6, edited by Michael, B. Schiffer, pp. 225-266. Academic Press, New York.Google Scholar
Bender, Susan J., and George S., Smith (editors) 2002a New Dates for Owasco Pots. In Northeast Subsistence- Settlement Change: A.D. 700-1300, edited by John, P. Hart and Christina, B. Rieth, pp. 153-166. New York State Museum Bulletin 496. The University of the State of New York, Albany.Google Scholar
Bender, Susan J., and George S., Smith (editors) 2002b The Point Peninsula to Owasco Transition in Central New York. Unpublished Ph.D. dissertation, Department of Anthropology, The Pennsylvania State University, College Park.Google Scholar
Shay, C. T. 1980 Food Plants in Manitoba. In Directions in Manitoba Prehistory, Papers in Honor of Chris Vickers, edited by Pettipas, L., pp. 233-290. Manitoba Archaeological Society, Winnipeg.Google Scholar
Smith, Bruce D. 1992 Rivers of Change: Essays on Early Agriculture in Eastern North America. Smithsonian Institution Press, Washington, D.C. Google Scholar
Snow, Dean R. 1995 Migration in Prehistory: The Northern Iroquoian Case. American Antiquity 60:59-79.CrossRefGoogle Scholar
Snow, Dean R. 1996 More on Migration in Prehistory: Accommodating New Evidence in the Northern Iroquoian Case. American Antiquity 61:791-796.Google Scholar
Staller, John E., and Robert G., Thompson 2002 A Multidisciplinary Approach to Understanding the Initial Introduction of Maize into Coastal Ecuador. Journal of Archaeological Science 29:33-50.Google Scholar
Stoltman, James B. 1978 Temporal Models in Prehistory: An Example from Eastern North America. Current Anthropology 19:703-746.Google Scholar
Stoltman, James B., and David A., Baerreis 1983 The Evolution of Human Ecosystems in the Eastern Woodlands. In Late Quaternary Environments of the United States, Volume 2, The Holocene, edited by Wright, H. E. Jr., , pp. 252-268. University of Minnesota Press, Minneapolis.Google Scholar
Stuiver, Minze, Paula, J. Reimer, Edouard, Bard, Warren Beck, J., Burr, G. S., Konrad, A. Hughen, Bernd, Kromer, Gerry, McCormac, Johannes van der, Plicht, and Marco, Spurk 1998 INTCAL98 Radiocarbon Age Calibration 24,000-0 cal BP. Radiocarbon 40:1041-1083.Google Scholar
Thompson, Robert G. 1993 Opal Phytolith Analysis Residues from the Mantaro Valley, Peru. Paper presented at the Northeast Andeanist Conference, Pittsburgh.Google Scholar
Thompson, Robert G. 2000 Phytolith Analysis of Food Residues from Yutopian, Argentina. Report prepared for Dr. Joan Gero. On file with Joan Gero, Department of Anthropology, American University.Google Scholar
Thompson, Robert G., and Umran Dogan, A. 1987 The Identification of Maize in Food Residues on Utilized Ceramics at the Shea Site (32CS101). Phytolitharian Newsletter 8:7-11.Google Scholar
Thompson, Robert G., Rose, Kluth, and David, Kluth 1995 Brainerd Ware Pottery Function Explored Through Opal Phytolith Analysis of Food Residues. Journal of Ethnobiology 15:305.Google Scholar
Thompson, Robert G., and Susan C., Mulholland 1994 The Identification of Phytoliths in Food Residues on Utilized Ceramics. Journal of Electron Microscopy Techniques 7:146.Google Scholar
Tieszen, Larry L., and Tim, Fagre 1993 Effect of Diet Quality and Composition on the Isotopic Composition of Respiratory C02, Bone Collagen, Bioapatite, and Soft Tissue. In Prehistorc Human BoneArchaeology at the Molecular Level, edited by Joseph, B. Lambert and Gisela, Grupe, pp. 121-155. Springer-Verlag. Berlin.Google Scholar
United States Department of Agriculture 2002 USDA Nutrient Database for Standard Reference. http://www.nal.usda.gov/fnic/cgi-bin/nut_search.pl. (accessed January 2002).Google Scholar
Vennum, Thomas Jr., 1988 Wild Rice and the Ojibway People. Minnesota Historical Society Press, St. Paul.Google Scholar
Wagner, Gail E. 1987 Uses of Plants by Fort Ancient Indians. Ph.D. dissertation, Washington University. University Microfilms International, Ann Arbor, Michigan.Google Scholar
Ward, G. K. and Wilson, S. R. 1978 Procedures for Comparing and Combining Radiocarbon Age Determinations: A Critical Review. Archaeometry 20:19-31.Google Scholar
Yarnell, Richard A. 1993 The Importance of Native Crops during the Late Archaic and Woodland Periods. In Foraging and Farming in the Eastern Woodlands, edited by Margaret Scarry, C., pp. 13-26. University Press of Florida, Gainesville.Google Scholar