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Maize, Fish, and Deer: Investigating Dietary Staples among Ancestral Huron-Wendat Villages, as Documented from Tooth Samples

Published online by Cambridge University Press:  20 January 2017

Susan Pfeiffer ,
Judith C. Sealy ,
Ronald F. Williamson ,
Suzanne Needs-Howarth  and
Louis Lesage
Susan Pfeiffer*
Affiliation:
Department of Anthropology, University of Toronto, 19 Russell Street, Toronto, Canada M5S 2S2; Department of Archaelogy, University of Cape Town, Private Bag X3, Rondebosch, South Africa 7701 Department of Archaeology, University of Cape Town, Private Bag X3, Rondebosch, South Africa 7701
Judith C. Sealy*
Affiliation:
Department of Archaeology, University of Cape Town, Private Bag X3, Rondebosch, South Africa 7701
Ronald F. Williamson*
Affiliation:
Archaeological Services Inc., 528 Bathurst Street, Toronto, Canada, M5S 2P9
Suzanne Needs-Howarth*
Affiliation:
Perca Zooarchaeological Research, Toronto; Trent University Archaeological Research Centre, 1600 West Bank Drive, Peterborough, Canada, K9J 7B8 (, percazooarch@gmail.com)
Louis Lesage
Affiliation:
Nation Huronne-Wendat, Bureau du Nionwentsïo, 255 Place Michel-Laveau, Wendake, Canada, G0A 4V0
*
(susan.pfeiffer@utoronto.ca, corresponding author)
(Judith.sealy@uct.ac.za)
(rwilliamson@asiheritage.ca)
(Louis.lesage@cnhw.qc.ca)
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Abstract

Following the entry of Zea mays to northeast North America, Northern Iroquoian populations expanded their numbers and range. Isotopic values from bone collagen have shown fluctuations in reliance on this dietary staple. With permission of the Huron-Wendat Nation of Wendake, Quebec, we measured δ13Cenamel, δ13Cdentine and δ15Ndentine from 167 permanent teeth, retained before reburial of their ancestral skeletons, and δ13Ccollagene and δ15Ncollagene from adhering bone (n = 53). Enamel values encapsulate diet from ca. 1.5 to 4 years of age; dentine values reflect later childhood. Teeth are from 16 ancestral Huron-Wendat sites in southern Ontario. Isotopic values show consistent reliance on maize from early fourteenth to sixteenth centuries, with higher reliance in the seventeenth century—the time of contact with Europeans and disruptive changes. We show a difference between the diets of children and adults; children consumed more maize and less animal protein. Whitetailed deer (Odocoileus virginianus) did not exploit maize fields, reflecting hunters’ exploitation of distant regions. New values from fish species (n = 21) are pooled with prior data, demonstrating diverse C and N stable isotope patterns. American eel (Anguilla rostrata) is particularly variable. Dietary protein sources were variable compared to the stability of maize: a reliable source of carbohydrate food energy across four centuries.

Suite à l’apparition du maïs (Zea mays) dans le Nord-est de l’Amérique du Nord, les populations iroquoiennes du nord ont accru leurs effectifs et élargi leur territoire. Avec la permission de la Nation huronne-wendat de Wendake, au Québec, nous avons mesuré δ13Cémail, δ13Cdentine et δ15Ndentine de 167 dents ainsi que δ13Ccollagène et δ15Ncollagène à partir de 53 échantillons d’os adhérant à ces dents, lesquelles ont été obtenues avant la réinhumation de leurs squelettes ancestraux. Les valeurs d’émail se rapportent à l’alimentation de la petite enfance (environ 1,5 à 4 ans) tandis que les valeurs de la dentine reflètent plutôt l’enfance tardive. Les dents proviennent de 16 sites du territoire ancestral des hurons-wendat du sud de l’Ontario. Les valeurs des isotopes démontrent une dépendance constante du maïs du début du 14ème au 16ème siècle, avec une plus grande dépendance au 17 ème siècle, soit la période de contact avec les Européens et où surviennent des changements sociétaux significatifs. Nous démontrons une différence entre les régimes alimentaires des enfants et des adultes, où les jeunes enfants consomment plus de maïs et moins de protéines animales que les adultes. Nous n’observons aucune évidence isotopique que le cerf de Virginie (Odocoileus virginianus) exploite les champs de maïs. Nous démontrons plutôt que les chasseurs exploitent cette ressource dans des régions plus éloignées. Vingt-et-une nouvelles valeurs ont été regroupées à des données antérieures pour fournir une meilleure évaluation des modèles d’isotopes stables de C et N dans différentes espèces de poissons exploités. L’anguille d’Amérique (Anguilla rostrata) démontre une grande variabilité. Les sources de protéines alimentaires étaient variables comparativement à la stabilité du maïs, ce dernier semble avoir été une source fiable d’énergie sous forme de glucides pendant quatre siècles.

Type
Articles
Information
American Antiquity , Volume 81 , Issue 3 , July 2016 , pp. 515 - 532
Copyright
Copyright © Society for American Archaeology 2016 

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References

References Cited

AlQahtani, sakher J., and Liversidge, Helen M. 2010 Brief Communication: The London Atlas of Human Tooth Development and Eruption. American Journal of Physical Anthropology 142:481–490.Google Scholar
Ambrose, Stanley H. 1990 Preparation and Characterization of Bone and Tooth Collagen for Isotopic Analysis. Journal of Archaeological Science 17:431–451.Google Scholar
Biggar, Henry P. (editor) 1922–36 The Works of Samuel de Champlain. 6 vols. Champlain Society, Toronto.Google Scholar
Birch, Jennifer 2015 Current Research on the Historical Development of Northern Iroquoian Societies. Journal of Archaeological Research 23:263–323.Google Scholar
Birch, Jennifer, and Williamson, Ronald F. 2013 The Mantle Site: An Archaeological History of an Ancestral Wendat Community. Issues in Eastern Woodlands Archaeology. AltaMira Press, Lanham, Maryland.Google Scholar
Caut, Stephane, Angulo, Elena, and Courchamp, Frank 2009 Variation in Discrimination Factors (δ15N and δ13C): The Effect of Diet Isotopic Values and Applications for Diet Reconstruction. Journal of Applied Ecology 46: 443–453.Google Scholar
Chisholm, Brian S., Nelson, D. E., and Schwarcz, Henry P. 1982 Stable-Carbon Isotope Ratios as a Measure of Marine versus Terrestrial Protein in Ancient Diets. Science 216 (4550): 1131–1132.Google Scholar
DeNiro, Michael J., and Epstein, S. 1981 Influence of Diet on the Distribution of Nitrogen Isotopes in Animals. Geochimica et Cosmochimica Acta 45:341-351.Google Scholar
Ellwood, Emily C., Scott, Paul M., Lipe, William D., Matson, R.G., and Jones, John G. 2013 Stone-Boiling Maize with Limestone: Experimental Results and Implications for Nutrition among SE Utah Preceramic Groups. Journal of Archaeological Science 40: 35–44.Google Scholar
Forrest, Crystal 2010 The In-House Burials at the Late Ontario Iroquoian Draper Site (AlGt-2): A Multidirectional Approach to Interpretation. Ontario Archaeology 8990:97119 Google Scholar
Fox, William A. 2000 A True Canadian Fish Story: Archaeological Food for Thought. Kewa (Newsletter of the London Chapter of the Ontario Archaeological Society) 00-7/8:1623.Google Scholar
France, C. A. M. and Owsley, Douglas W. 2015 Stable Carbon and Oxygen Isotope Spacing between Bone and Tooth Collagen and Hydroxyapatite in Human Archaeological Remains. International Journal of Os-teoarchaeology 25:3:299-312.Google Scholar
Gates St-Pierre, Christian 2014 Fish and Ch Corn St. Lawrence Iroquoians as Fishers and Farmers. Paper presented at the International Council for Archaeozoology, San Rafael, Argentina.Google Scholar
Harrison, Roman G., and Katzenberg, M. Anne 2003 Paleodiet Studies using Stable Carbon Isotopes from Bone Apatite and Collagen: Examples from Southern Ontario and San Nicolas Island, California. Journal of Anthropological Archaeology 22:227244.Google Scholar
Hart, John. P., and Lovis, William. A. 2013 Reevaluating What We Know about the Histories of Maize in Northeastern North America: A Review of Current Evidence. Journal of Archaeological Research 21:175216.Google Scholar
Hawkins, Alicia.L., and Caley, Erin 2012 Seasonality, Mass Capture and Exploitation of Fish at the Steven Patrick Site, a Uren Village near Kempenfelt Bay. Ontario Archaeology 92:95122.Google Scholar
Hedges, Robert E.M., and Reynard, L.M. 2007 Nitrogen Isotopes and the Trophic Level of Humans in Archaeology. Journal of Archaeological Science 34:12401251.Google Scholar
Heidenreich, Conrad.E. 1971 Huronia: A History and Geography of the Huron Indians, 16001650. McClelland and Stewart Ltd., Toronto.Google Scholar
Howland, Mark R., Corr, Lorna T., Young, Suzanne M.M., Jones, Vicky, Jim, Susan, van der Merwe, Nikolaas J., Mitchell, Alva D. and Evershed, Richard P. 2003 Expression of the Dietary Isotope Signal in the Compound-Specific Delta(13) Values of Pig Bone Lipids and Amino Acids. International Journal of Osteoarchaeology 13(12):5465.Google Scholar
Jenkins, Tara 2016 Contexts, Needs, and Social Messaging: Situating Iroquoian Human Bone Artifacts in Southern Ontario, Canada. In Theoretical Approaches to Analysis and Interpretation of Commingled Remains, edited by Osterholtz, Anna J., pp. 139–184. Springer, New York.Google Scholar
Junker-Andersen, Chris 1988 The Eel Fisheries of the St. Lawrence Iroquoians. North American Archaeologist 9:97–121.Google Scholar
Katzenberg, M. Anne 1989 Stable Isotope Analysis of Archaeological Faunal Remains from Southern Ontario. Journal of Archaeological Science 16:319–329.Google Scholar
Katzenberg, M. Anne 2006 Prehistoric Maize in Southern Ontario: Contributions from Stable Isotope Studies. In Histories of Maize: Multidisciplinary Approaches to the Prehistory, Linguistics, Biogeography, Domestication, and Evolution of Maize, edited by Staller, John E., Tykot, Robert H. and Benz, Bruce F., pp. 263–273. Elsevier Academic Press, Amsterdam.Google Scholar
Katzenberg, M. Anne, and Harrison, Roman G. 1997 What’s in a Bone? Recent Advances in Archaeological Bone Chemistry. Journal of Archaeological Research 5:265–293.Google Scholar
Katzenberg, M. Anne, Schwarcz, Henry P., Knyf, Martin, and Melbye, F. Jerome 1995 Stable Isotope Evidence for Maize Horticulture and Paleodiet in Southern Ontario, Canada. American Antiquity 60:335–350.Google Scholar
Kellner, Corina M., and Schoeninger, Margaret J. 2007 A Simple Carbon Isotope Model for Reconstructing Prehistoric Human Diet. American Journal of Physical Anthropology 133:1112–1127.Google Scholar
Lee-Thorp, Julia A. 2008 On Isotopes and Old Bones. Archaeometry 50:925–950.Google Scholar
Lee-Thorp, Julia A., Manning, L., and Sponheimer, Matt 1997 Problems and Prospects for Carbon Isotope Analysis of Very Small Samples of Fossil Tooth Enamel. Bulletin de la Société Géologique de France 168(6):767–773.Google Scholar
MacDonald, Robert I. 2002 Late Woodland Settlement Trends in South-Central Ontario: A Study of Ecological Relationships and Culture Change. Unpublished Ph.D. dissertation, Department of Anthropology, McGill University, Montreal.Google Scholar
Makarewicz, Cheryl A., and Sealy, Judith 2015 Dietary Reconstruction, Mobility, and the Analysis of Ancient Skeletal Tissues: Expanding the Prospects of Stable Isotope Research in Archaeology. Journal of Archaeological Science 56:146–158.Google Scholar
Matson, R. G. 2016 The Nutritional Context of the Pueblo III Depopulation of the Northern San Juan: Too Much Maize? Journal of Archaeological Science Reports 5:622–631.Google Scholar
Morris, Zoe Hensley 2015 Reconstructing Subsistence Practices of Southwestern Ontario Woodland Peoples (AD 900–1600) using Stable Isotopic Analyses of Faunal Material. Unpublished Ph.D. dissertation, Department of Anthropology, University of Western Ontario, London.Google Scholar
Needs-Howarth, Suzanne 1999 Native Fishing in the Great Lakes: A Multidisciplinary Approach to Zooarchaeological Remains from Precontact Iroquoian Villages near Lake Simcoe, Ontario. Ph.D. dissertation, Groningen Institute for Archaeology, University of Groningen, the Netherlands.Google Scholar
Needs-Howarth, Suzanne, and Thomas, Stephen Cox 1998 Seasonal Variation in Fishing Strategies at Two Iroquoian Village Sites near Lake Simcoe, Ontario. Environmental Archaeology 3:109–120.Google Scholar
Needs-HowartSuzanne, , and Willamson, Ronald F. 2010 Feeding and Clothing the Masses: The Role of White-tailed Deer in Community Planning in Sixteenth Century Ontario. Paper presented at the 11th Conference of the International Council for Archaeozoology, Paris, France.Google Scholar
O’ConnelTamsin C., , Kneale, C.J., Tasevska, N., and Kuhnle, G.G.C. 2012 A Diet-Body Offset in Human Nitrogen Isotopic Values: A Controlled Dietary Study. American Journal of Physical Anthropology 149:426–434.Google Scholar
Pfeiffer, Susan, and Fairgrieve, Scott 1994 Evidence from Ossuaries: The Effect of Contact on the Health of Iroquoians. In In the Wake of Contact: Biological Responses to Conquest, edited by Larsen, Clark Spencer and Milner, George, pp. 47–61. A.R. Liss, New York.Google Scholar
Pfeiffer, Susan, and Lesage, Louis 2014 The Repatriation of Wendat Ancestors /Le rapatriement des ancêtres Wendat, 2013. Canadian Journal of Archaeology 38:1–22.Google Scholar
Pfeiffer, Susan, Willamson, Ronald F., Sealy, Judith C., Smith, David G., and Snow, Meredeth H. 2014 Stable Dietary Isotopes and mtDNA from Woodland Period Southern Ontario People: Results from a Tooth Sampling Protocol. Journal of Archaeological Science 42:334–345.Google Scholar
Pfeiffer, Susan, Williamson, Ronald F., Sealy, Judith C., and Forrest, Crystal 2013 Environmental Isotopes Indicate Interactions among Iroquoians. Paper presented at the Chacmool Conference: Trading Spaces: The Archaeology of Interaction, Migration and Exchange. University of Calgary, Calgary.Google Scholar
Robertson, David A. 2004 The Hutchinson Site: A Place to Prepare for the Final Journey. Ontario Archaeology 77/78:95–120.Google Scholar
Robertson, David A., Monckton, Stephen G., and Williamson, Ronald F. 1995 The Wiacek Site Revisited: The Results of the 1990 Excavations. Ontario Archaeology 60:40–91.Google Scholar
Salazar-Garcia, Domingo Carlos, Richards, Michael P., Nehlich, Olaf, and Henry, Amanda G. 2014 Dental Calculus is not Equivalent to Bone Collagen for Isotope Analysis: A Comparison between Carbon and Nitrogen Stable Isotope Analysis of Bulk Dental Calculus, Cone and Centine Collagen from Same Individuals from the Medieval Site of El Raval (Alicante, Spain). Journal of Archaeological Science 47:70–77.Google Scholar
Saunders, Shelly R., and Melbye, F. Jerome 1990 Subadult Mortality and Skeletal Indicators of Health in Late Woodland Ontario Iroquois. Canadian Journal of Archaeology 14:61–74.Google Scholar
Schoeninger, Margaret J., and DeNiro, Michael J. 1984 Nitrogen and Carbon Isotopic Composition of Bone-Collagen from Marine and Terrestrial Animals. Geochimica Et Cosmochimica Acta 48:625–639.Google Scholar
Schwarcz, Henry P., Melbye, Jerome, Katzenburg, M. Anne, and Knyf, Martin 1985 Stable Isotopes in Human Skeletons of Southern Ontario: Reconstructing Paleodiet. Journal of Archaeo logical Science 12:187–206.Google Scholar
Scott, William Beverley (editor) 1967 Freshwater Fishes of Eastern Canada. 2nd ed. University of Toronto Press, Toronto.Google Scholar
Szpak, Paul 2011 Fish Bone Chemistry and Ultrastructure: Implications for Taphonomy and Stable Isotope Analysis. Journal of Archaeological Science 38:3358–3372.Google Scholar
Thwaites, Reuben G. 1896–1901 The Jesuit Relations and Allied Documents. 73 vols. Burrows Brothers Company, Cleveland.Google Scholar
Tooker, Elizabeth 1964 An Ethnography of the Huron Indians, 1615–1649. Smithsonian Institution, Bureau of American Ethnology Bulletin 190. U.S. Government Printing Office, Washington, D.C. Google Scholar
Trigger, Bruce G. 1976 The Children of Aataentsic: A History of the Huron People to 1660. 2 vols. McGill-Queen’s University Press, Montreal.Google Scholar
van der Merwe, Nikolaas J., Pfeiffer, Susan, Williamson, Ronald F., and Thomas, Stephen Cox 2003 Isotopic Analysis and the Diet of the Moatfield Community. In Bones of the Ancestors: The Archaeology and Osteobiography of the Moatfield Ossuary, edited by Willamson, Ronld F. and Pfeiffer, Susan, pp. 205–222. Canadian Museum of Civilization, Ottawa, Ontario.Google Scholar
van der Merwe, Nikolaas J., and Vogel, John C. 1978 13C Content of Human Collagen as a Measure of Prehistoric Diet in Woodland North America. Nature 276(21):815–816.Google Scholar
van der Merwe, Nikolaas J., Williamson, Ronald F., Pfeiffer, Susan, Thomas, Stephen Cox, and Allegretto, Kim O. 2003 The Moatfield Ossuary: Isotopic Dietary Analysis of an Iroquoian Community, using Dental Tissue. Journal of Anthropological Archaeology: 245–261.Google Scholar
Van Klinken, G. J. 1999 Bone Collagen Quality Indicators for Palaeodietary and Radiocarbon Measurements. Journal of Archaeological Science 26:687–695.Google Scholar
Warinner, Christina, and Tuross, Noreen 2009 Alkaline Cooking and Stable Isotope Tissue-Diet Spacing in Swine: Archaeological Implications. Journal of Archaeological Science 36:1690–1697.Google Scholar
Warrick, Gary A. 2008 A Population History of the Huron-Petun, A.D. 500–1650. Cambridge University Press, Cambridge, U.K. Google Scholar
Williamson, Ronald F. 2007 “Ontinontsiskiaj ondaon” (“The House of Cut-Off Heads”): The History and Archaeology of Northern Iroquoian Trophy Taking. In The Taking and Displaying of Human Body Parts as Trophies, edited by Chacon, Richard J. and Dye, David H., pp. 190–221. Springer Books, New York.Google Scholar
Williamson, Ronald F. 2014 The Archaeological History of the Wendat to A.D. 1651: An Overview. Ontario Archaeology 94:3–64.Google Scholar
Williamson, Ronald F., and Pfeiffer, Susan K. (editors) 2003 Bones of the Ancestors: The Archaeology and Osteobiography of the Moatfield Site. Canadian Museum of Civilization, Ottawa.Google Scholar
Williamson, Ronald F., and Steiss, Deborah A. 2003 A History of Iroquoian Multiple Burial Practice. In Bones of the Ancestors: The Archaeology and Osteobiography of the Moatfield Ossuary, edited by Williamson, Ronald F. and Pfeiffer, Susan, pp. 89–132. Mercury Series Archaeology Paper 163. Canadian Museum of Civilization, Ottawa.Google Scholar
Williamson, Ronald F., Thomas, Stephen Cox, and MacDonald, Robert I. 2003 The Archaeology of the Moatfield Village Site. In Bones of the Ancestors: The Archaeology and Osteobiography of the Moatfield Site, edited by Williamson, Ronald F. and Pfeiffer, Susan, pp. 19–88. Mercury Series Paper 163. Archaeological Survey of Canada Ottawa.Google Scholar
Wright, Joyce 2004 Ouatit’s People: The Cosmological Significance of Dogs in Wendat Society. In A Passion for the Past: Papers in Honour of James F. Pendergast, Mercury Series Archaeology Paper 164, edited by Wright, James V. and Pilon, Jean-Luc, pp. 305–320. Canadian Museum of Civilization, Gatineau.Google Scholar
Wrong, George M. (editor) 1939 The Long Journey to the Country of the Hurons, by Sagard, Gabriel (1632). Champlain Society, Toronto.Google Scholar
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