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Early Maize (Zea mays) in the North American Central Plains: The Microbotanical Evidence

Published online by Cambridge University Press:  20 April 2022

Mary J. Adair*
Affiliation:
Division of Archaeology, Biodiversity Institute, University of Kansas, Lawrence, KS, USA
Neil A. Duncan
Affiliation:
Paleoethnobotany and Environmental Archaeology Laboratory, Department of Anthropology, University of Central Florida, Orlando, FL, USA (neil.duncan@ucf.edu)
Danielle N. Young
Affiliation:
Independent Researcher, USA (dnllyng@gmail.com)
Steven R. Bozarth
Affiliation:
Palynology and Phytolith Laboratory, Biodiversity Institute, University of Kansas, Lawrence, KS, USA (sbozarth@ku.edu)
Robert K. Lusteck
Affiliation:
Department of Anthropology, Minneapolis College, MN, USA (zeamays001@gmail.com)
*
(madair@ku.edu, corresponding author)

Abstract

Artifacts, including ceramics, ground stone, and soil samples, as well as dental calculus, recovered from sites in the eastern North American central Plains were submitted to multiple laboratories for analysis of microbotanical remains. Direct accelerator mass spectrometer (AMS) dates of 361–197 cal BC provide evidence for the earliest use of maize (Zea mays ssp. mays) in this region. Squash (Cucurbita sp.), wild rice (cf. Zizania spp.), and palm (Arecaceae sp.) microremains were also found. This research adds to the growing evidence of the importance of microbotanical analysis in documenting plant use and in the identification of early maize. The combined data on early maize from the eastern Plains adds to our understanding of the timing and dispersal of this crop out of the American Southwest. Alternative explanations for the adoption and early use of maize by eastern central Plains communities include its value as a secondary resource, as an addition to an existing farming strategy, or as a component of Middle Woodland rituals.

Artefactos, incluida la cerámica, la piedra de molino, la muestra de suelo, y el cálculo dental recuperados de sitios en el este de las llanuras centrales de América del Norte fueron enviados a varios laboratorios para análisis de los restos micro botánicos. La espectrometría de masas con acelerador indica fechas de 361 a 197 cal BC y proporciona evidencia para el uso más antiguo del maíz (Zea mays ssp. mays) en estaregión. La presencia de la calabaza (Cucurbita sp.), el arroz salvaje (Zizania spp.), y la palma (Arecaceae sp.) identifica la selección de otras plantas. Esta investigación añade a la evidencia creciente de la importancia del análisis micro botánico en la documentación del uso de plantas y la identificación del maíz antiguo. La información combinada sobre maíz antiguo de las llanuras orientales añade a nuestro conocimiento del tiempo y la dispersión de esta cosecha desde el suroeste americano. Explicaciones alternativas para la adopción y el uso antiguo de maíz por las comunidades en el este de las llanuras centrales incluyen su valor como recurso secundario, como adición a una estrategia agrícola existente, o como un componente en los rituales del periodo silvícola medio.

Type
Article
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of the Society for American Archaeology

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References

References Cited

Adair, Mary J. 2003 Great Plains Paleoethnobotany. In People and Plants in Ancient Eastern North America, edited by Minnis, Paul E., pp. 258346. Smithsonian Institution, Washington, DC.Google Scholar
Adair, Mary J. 2012 Refining Plains Woodland Chronology. Plains Anthropologist 57:183228.CrossRefGoogle Scholar
Adair, Mary J., and Drass, Richard R. 2011 Patterns of Plant Use in the Prehistoric Central and Southern Plains. In Subsistence Economies of Indigenous North American Societies: A Handbook, edited by Smith, Bruce D., pp. 307352. Rowman & Littlefield, Lanham, Maryland.Google Scholar
Adair, Mary J., Duncan, Neil, Lusteck, Robert, Malainey, Mary, and Perry, Linda 2012 Paleodietary Implications from Starch, Lipid, and Phytolith Analysis: A Case from the Kansas City Hopewell. Paper presented at the 70th Annual Plains Anthropological Society Conference, Saskatoon, Saskatchewan, Canada.Google Scholar
Adams, Karen R., and Fish, Suzanne K. 2011 Subsistence through Time in the Greater Southwest. In The Subsistence Economies of Indigenous North American Societies: A Handbook, edited by Smith, Bruce D., pp: 147184. Rowman & Littlefield, Lanham, MarylandGoogle Scholar
Arzigian, Constance 2000 Middle Woodland and Oneota Contexts for Wild Rice Exploitation in Southwestern Wisconsin. Midcontinental Journal of Archaeology 25:245268.Google Scholar
Barton, Huw 2009 Starch Granule Taphonomy: The Results of a Two-Year Field Experiment. In Archaeological Science under a Microscope: Studies in Residue and Ancient DNA Analysis in Honour of Tom Loy, edited by Haslam, Michael, Robertson, Gail, Crowther, Alison, Nugent, Sue, and Kirkwood, Luke, pp. 129140. ANU E Press, Canberra, Australia.Google Scholar
Benz, Bruce F., and Staller, John E. 2006 The Antiquity, Biogeography, and Culture History of Maize in the Americas. 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. 665673. Elsevier, New York.Google Scholar
Bowers, Alfred W. 1991 Mandan Social and Ceremonial Organization. University of Idaho Press, Moscow.Google Scholar
Boyd, Matthew, and Surette, Clarence 2010 Northernmost Pre-Contact Maize in North America. American Antiquity 75:117133.10.7183/0002-7316.75.1.117CrossRefGoogle Scholar
Bozarth, Steven R. 1989 Opal Phytolith Analysis for Cultigen Identification: The Quixote and Reichart Sites. In Archaeological Investigations in the Perry Lake Project Area, Northeastern Kansas: National Register Evaluation of 17 Sites, edited by Logan, Brad, pp. 239242. Report submitted to the US Army Corps of Engineers, Kansas City District.Google Scholar
Bozarth, Steven R. 2011 Phytolith Analysis of a Sherd Scraping at 23PL285. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Bozarth, Steven R. 2014a Opal Phytolith and Starch Grain Analysis of Sherd Scrapings from 14WY1 and 25VY1. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Bozarth, Steven R. 2014b Opal Phytolith and Starch Grain Analysis of Dental Calculus. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Brock Ramsey, Christopher 2020 Comment on “The Use of Bayesian Statistics for 14C Dates of Chronologically Ordered Samples: A Critical Analysis.” Radiocarbon 42:199202.10.1017/S0033822200059002CrossRefGoogle Scholar
Carlson, Gayle F. 1997 A Preliminary Survey of Marine Shell Artifacts from Prehistoric Archaeological Sites in Nebraska. Central Plains Archaeology 5:1148.Google Scholar
Castetter, Edward F., and Opler, Morris E. 1936 The Ethnobiology of the Chiricahua and Mescalero Apache: The Use of Plants for Foods, Beverages and Narcotics. University of New Mexico Press, Albuquerque.Google Scholar
Crawford, Gary W., and Smith, David G. 2003 Paleoethnobotany in the Northeast. In People and Plants in Ancient Eastern North America, edited by Minnis, Paul E., pp. 172257. Smithsonian Institution, Washington, DC.Google Scholar
Crowther, Alison 2012 The Differential Survival of Native Starch during Cooking and Implication for Archaeological Analysis: A Review. Archaeological and Anthropological Sciences 4:221235.10.1007/s12520-012-0097-0CrossRefGoogle Scholar
Cumming, Robert B. Jr. 1958 Archaeological Investigations at the Tuttle Creek Dam, Kansas.River Basin Survey Papers No. 10. Bureau of American Ethnology Bulletin 169:4178.Google Scholar
Dietler, Michael 2006 Alcohol: Anthropological/Archaeological Perspective. Annual Review of Anthropology 35:229249.CrossRefGoogle Scholar
Dineley, Merryn 2004 Barley, Malt and Ale in the Neolithic. BAR International Series S1213. Archaeopress, Oxford.10.30861/9781841713526CrossRefGoogle Scholar
Dotzel, Krista M. 2021 Mind the Gap: Maize Phytoliths, Macroremains, and Processing Strategies in Southern New England 2500–500 BP. Economic Botany 75:3047.CrossRefGoogle Scholar
Dougherty, Sean 2012 Mortality and Morbidity among Three Skeletal Samples from the Republican River Valley. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Duncan, Neil A., and Pearsall, Deborah M. 2012 An Assessment of Microfossil Preservation in Artifact Residue and Soils from Two Hopewell Period Sites, Kansas. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Duncan, Neil A., and Young, Danielle N. 2018 Results of Dental Calculus and Ceramic Residue Analysis for Starch and Phytoliths from Prehistoric Contexts in Kansas. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Eerkens, Jelmer W., and Barnard, H. 2007 Introduction. In Theory and Practice of Archaeological Residue Analysis, edited by Barnard, Hans and Eerkens, Jelmer W., pp. 17. BAR International Series 1650. Archaeopress, Oxford.Google Scholar
Emerson, Thomas E., Hedman, Kristin M., Simon, Mary L., Fort, Matthew A., and Witt, Kelsey E. 2020 Isotopic Confirmation of the Timing and Intensity of Maize Consumption in Greater Cahokia. American Antiquity 85:241262.CrossRefGoogle Scholar
Fages, Pedro 1937 A Historical, Political, and Natural Description of California: Written for the Viceroy in 1775. Translated by Priestley, Herbert Ingram. University of California Press, Berkeley.Google Scholar
Fie, Shannon M. 2006 Visiting in the Interaction Sphere: Ceramic Exchange and Interaction in the Lower Illinois Valley. In Recreating Hopewell, edited by Charles, Douglas K. and Buikstra, Jane E., pp. 427445. University of Florida Press, Gainesville.Google Scholar
Fish, Suzanne K. 2004 Corn, Crops, and Cultivation in the North American Southwest. In People and Plants in Ancient Western North America, edited by Minnis, Paul E., pp. 115166. Smithsonian Institution, Washington, DC.Google Scholar
Fritz, Gayle J. 2006 Introduction and Diffusion of Crops from Mexico. In Environment, Origins, and Population, edited by Ubelaker, Douglas H., pp. 437446. Handbook of North American Indians Vol. 3, William C. Sturtevant, general editor. Smithsonian Institution, Washington, DC.Google Scholar
Fritz, Gayle J. 2019 Feeding Cahokia: Early Agriculture in the North American Heartland. University of Alabama Press, Tuscaloosa.Google Scholar
Gilmore, Melvin R. 1909 A Study in the Ethnobotany of the Omaha Indians. Master's thesis, Department of Botany and Horticulture, University of Nebraska, Lincoln.Google Scholar
Gilmore, Melvin R. 1977 Uses of Plants by the Indians of the Missouri River Region. Reproduced from the 33rd Annual Report of the Bureau of American Ethnology (1919). University of Nebraska Press, Lincoln.10.5962/bhl.title.32507CrossRefGoogle Scholar
Goguitchaichvili, Avto, Solano, Miguel Cervantes, Carlos Lazcano Arce, Jesús, Carmen Serra Puche, Mari, Morales, Juan, Solar, Ana María, and Urrutia-Fucugauchi, Jamie 2018 Archaeomagnetic Evidence of Pre-Hispanic Origin of Mezcal. Journal of Archaeological Science; Reports 21:504511.CrossRefGoogle Scholar
Great Plains Floral Association 1986 Flora of the Great Plains. Edited by Barkley, T. M., Brooks, Ralph E., and Schofield, Eileen K.. University Press of Kansas, Lawrence.Google Scholar
Guerra-Doce, Elisa 2015 The Origins of Inebriation: Archaeological Evidence of the Consumption of Fermented Beverages and Drugs in Prehistoric Eurasia. Journal of Archaeological Method and Theory 22:751782.CrossRefGoogle Scholar
Hanselka, J. Kevin 2018 A Pan-Regional Overview of Archaic Agriculture in the Southwest. In The Archaic Southwest, edited by Vierra, Bradley J., pp. 269295. University of Utah Press, Salt Lake City.Google Scholar
Hart, John P., Lovis, William A., and Katzenberg, M. Anne 2021 Early Maize in Northeastern North America: A Comment on Emerson and Colleagues. American Antiquity 86:425427.CrossRefGoogle Scholar
Haslam, Michael 2004 The Decomposition of Starch Grains in Soils: Implications for Archaeological Residue Analysis. Journal of Archaeological Science 31:17151734.CrossRefGoogle Scholar
Hastorf, Christine 2016 The Social Archaeology of Food: Thinking about Eating from Prehistory to the Present. Cambridge University Press, Cambridge.Google Scholar
Hayden, Brian, Canuel, Neil, and Shanse, Jennifer 2013 What Was Brewing in the Natufian? An Archaeological Assessment of Brewing Technology in the Epipaleolithic. Journal of Archaeological Methods and Theory 20:102150.10.1007/s10816-011-9127-yCrossRefGoogle Scholar
Henry, Amanda G., and Piperno, Dolores R. 2008 Using Plant Microfossils from Dental Calculus to Recover Human Diet: A Case Study from Tell al-Raqa'i, Syria. Journal of Archaeological Science 35:19431950.CrossRefGoogle Scholar
Hernandez Xolocotzi, Efraím 1985 Maize and Man in the Greater Southwest. Economic Botany 39:416430.10.1007/BF02858749CrossRefGoogle Scholar
Hillson, Simon W. 1996 Dental Anthropology. Cambridge University Press, Cambridge.CrossRefGoogle Scholar
Hoard, Robert J., and Chaney, Henry W. 2010 Olivella Shells from Kansas Archaeological Sites. Plains Anthropologist 55:293298.CrossRefGoogle Scholar
Johannessen, Sissel, and Hastorf, Christine A. (editors) 1994 Corn and Culture in the Prehistoric New World. Westview Press, Boulder, Colorado.Google Scholar
Johnson, Alfred E. 1992 Early Woodland in the Trans-Missouri West. Plains Anthropologist 17:129136.Google Scholar
Johnson, Eileen M. 1975 Faunal and Floral Remains from a Kansas City Hopewell Site: Analysis and Interpretation. Occasional Papers of the Museum No. 36. Texas Tech University, Lubbock.Google Scholar
Keehner, Steven P., and Adair, Mary J. 2019 Modeling Kansas City Hopewell Developments and Regional Social Interactions: A Multisite Ceramic Analysis and New AMS Radiocarbon Ages. Midcontinental Journal of Archaeology 44:241.CrossRefGoogle Scholar
Keeley, Lawrence H. 1995 Protoagricultural Practices among Hunter-Gatherers: A Cross-Cultural Survey. In Last Hunters, First Farmers: New Perspectives on the Prehistoric Transition to Agriculture, edited by Douglas Price, T. and Gebauer, Anne Birgitte, pp. 243272. School of American Research Press, Santa Fe, New Mexico.Google Scholar
Kelly, Robert L. 1995 The Foraging Spectrum: Diversity in Hunter-Gatherer Lifeways. Smithsonian Institution, Washington, DC.Google Scholar
Kennedy, John G. 1978 Tarahumara of the Sierra Madre: Beer, Ecology, and Social Organization. AHM Publishing, Arlington Heights, Virginia.Google Scholar
Kozuch, Laura 2014 Shell Identifications. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Lints, Andrew 2012 Evidence of Domesticates from Early Ceramics of the Northern Plains: An Analysis of Avonlea Cultural Materials (AD 300–1000). Master's thesis, Department of Anthropology, Lakehead University, Thunder Bay, Canada.Google Scholar
Liu, Li, Wang, Jiajing, Rosenberg, Danny, Zhao, Hao, Lengyel, György, and Nadel, Dani 2018 Fermented Beverage and Food Storage in 13,000 Yr-Old Stone Mortars at Raqefet Cave, Israel: Investigating Natufian Ritual Feasting. Journal of Archaeological Science: Reports 21:783793.Google Scholar
Logan, Amanda, Hastorf, Christine A., and Pearsall, Deborah M. 2012 “Let's Drink Together”: Early Ceremonial Use of Maize in the Titicaca Basin. Latin American Antiquity 23:235258.CrossRefGoogle Scholar
Lovis, William A. 1990 Curatorial Considerations for Systematic Research Collections: AMS Dating a Curated Ceramic Assemblage. American Antiquity 55:382387.CrossRefGoogle Scholar
Lusteck, Robert K. 2006 The Migrations of Maize into the Southeastern United States. 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. 521528. Elsevier, New York.Google Scholar
Lusteck, Robert K. 2012 Phytolith Identifications. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Lusteck, Robert K., and Thompson, Robert G. 2006 Phytolith Residues Recovered from Pottery at St. Catherine's Island, Georgia. Paper submitted to David Hurst Thomas, American Museum of Natural History, New York.Google Scholar
Lusteck, Robert K., and Thompson, Robert G. 2007 Residues of Maize in North American Pottery: What Phytoliths Can Add to the Story of Maize. In Theory and Practice of Archaeological Residue Analysis, edited by Barnard, Hans and Eerkens, Jelmer W., pp. 817. BAR International Series 1650. Archaeopress, Oxford.Google Scholar
Mandelbaum, David G. 1965 Alcohol and Culture. Current Anthropology 6:281293.10.1086/200597CrossRefGoogle Scholar
Marshall, Mac (editor) 1979 Beliefs, Behaviors, and Alcoholic Beverages: A Cross-Cultural Survey. University of Michigan Press, Ann Arbor.10.3998/mpub.8257CrossRefGoogle Scholar
Martin, Terrell L. 2007 Early Woodland Black Sand Occupation in the Lower Missouri Valley, Western Missouri. Plains Anthropologist 52:4361.10.1179/pan.2007.003CrossRefGoogle Scholar
Mickleburgh, Hayley L., and Pagán-Jiménez, Jamie R. 2012 New Insights into the Consumption of Maize and Other Food Plants in the Pre-Columbian Caribbean from Starch Grains Trapped in Human Dental Calculus. Journal of Archaeological Science 39:2486–2478.CrossRefGoogle Scholar
Miller, Victor J. 1990 Washingtonia filifera: Native Habitats in Arizona. Principes 34(4):177180.Google Scholar
Minnis, Paul E. 1992 Earliest Plant Cultivation in the Desert Borderlands of North America. In Origins of Agriculture: An International Perspective, edited by Cowan, C. Welsey and Watson, Patty Jo, pp. 121141. Smithsonian Institution, Washington DC.Google Scholar
Moerman, Daniel E. 1998 Native American Ethnobotany. Timber Press, Portland, Oregon.Google Scholar
Mueller, Natalie G. 2013 Mound Centers and Seed Scarcity: A Comparative Analysis of Botanical Assemblages from Middle Woodland Sites in the Lower Illinois Valley. Springer, New York.CrossRefGoogle Scholar
Munro, Neil G. 1963 Ainu Creed and Cult. Columbia University Press, New York.Google Scholar
Newsom, Lee A., and Deagan, Kathleen A. 1994 Zea mays in the West Indies: The Archaeological and Early Historic Record. In Corn and Culture in the Prehistoric New World, edited by Johannessen, Sissel and Hastorf, Christine A., pp. 203218. Westview Press, Boulder, Colorado.Google Scholar
Pearsall, Deborah M. 2015 Paleoethnobotany: A Handbook of Procedures. 3rd ed. Routledge, London.Google Scholar
Pearsall, Deborah M., and Piperno, Dolores R. 1993 The Nature and Status of Phytolith Analysis. In Current Research in Phytolith Analysis: Applications in Archaeology and Paleoecology, edited by Pearsall, Deborah M. and Piperno, Dolores R., pp. 918. University Museum of Archaeology and Anthropology, University of Pennsylvania, Philadelphia.Google Scholar
Perry, Linda, Dickau, Ruth, Zarrillo, Sonia, Holst, Irene, Pearsall, Deborah, Piperno, Dolores, Berman, Mary Jane, et al. 2007 Starch Fossils and the Domestication and Dispersal of Chili Peppers (Capsicum spp. L.) in the Americas. Science 315:986988.CrossRefGoogle Scholar
Piperno, Dolores. R. 1988 Phytolith Analysis: An Archaeological and Geological Perspective. Academic Press, New York.Google Scholar
Piperno, Dolores R., Andres, Thomas C., and Stothert, Karen E. 2000 Phytoliths in Cucurbita and Other Neotropical Cucurbitaceae and their Occurrence in Early Archaeological Sites from the Lowland American Tropics. Journal of Archaeological Science 27:193208.10.1006/jasc.1999.0443CrossRefGoogle Scholar
Piperno, Dolores R., Weiss, Ehud, Holst, Irene, and Nadel, D. 2004 Processing of Wild Cereal Grains in the Upper Paleolithic Revealed by Starch Grain Analysis. Nature 430:670673.CrossRefGoogle Scholar
Powell, Gina S. 2009 Plant Remains from 23JA266. Appendix A. In Excavations at Sibley Bluff Top (23JA266): A Multiple Component Site at the Fort Osage National Historic Landmark, Jackson County, Missouri, pp. 220–246. Report submitted to Jackson County Parks and Recreation, Missouri.Google Scholar
Powell, Gina S. 2019 Macrobotanical Remains, In Quixote: A Late Woodland Site in Northeastern Kansas, edited by Logan, Brad, pp. 113132. Report Submitted to the Kansas Anthropological Association and the Cultural Resources Division, Kansas Historical Society, Topeka.Google Scholar
Raviele, Maria E. 2010 Assessing the Archaeological Cooking Residues: Evaluation of Maize Phytolith Taphonomy and Density through Experimental Residue Analysis. PhD dissertation, Department of Anthropology, Michigan State University, East Lansing.Google Scholar
Raviele, Maria E. 2011 Experimental Assessment of Maize Phytolith and Starch Taphonomy in Carbonized Cooking Residue. Journal of Archaeological Science 38:27082713.CrossRefGoogle Scholar
Ray, Jack H. 2014 Notes on ARC Artifacts Loaned to Missouri State University. Report submitted to Archaeological Research Center, University of Kansas, Lawrence.Google Scholar
Reimer, Paula, Austin, William E. N., Bard, Edouard, Bayliss, Alex, Blackwell, Paul G., Bronk Ramsey, Christopher, Butzin, Martin, et al. 2020 The IntCal20 Northern Hemisphere Radiocarbon Age Calibration Curve (0–55 cal kBP). Radiocarbon 62:725757.CrossRefGoogle Scholar
Roth, Barbara J, and Freeman, Andrea 2008 The Middle Archaic Period and the Transition to Agriculture in the Sonoran Desert of Southern Arizona. Kiva 73:321353.10.1179/kiv.2008.73.3.004CrossRefGoogle Scholar
Sayre, Matthew P., and Bruno, Maria C. (editors) 2017 Social Perspectives on Ancient Lives from Paleoethnobotanical Data. Springer, New York.CrossRefGoogle Scholar
Scarry, C. Margaret 1993 Variability in Mississippian Crop Production Strategies. In Foraging and Farming in the Eastern Woodlands, edited by Scarry, C. Margaret, pp. 7890. University Press of Florida, Gainesville.Google Scholar
Schmits, Larry J., and Bailey, Bruce C. 1989 Prehistoric Chronology and Settlement-Subsistence Patterns in the Little Blue Valley, Western Missouri. In Prehistory of the Little Blue River Valley, Western Missouri: Archaeological Investigations at Blue Springs Lake, edited by Schmits, Larry J., pp. 221251. Report Submitted to the US Army Corps of Engineers, Kansas City District by Environmental Systems Analysis, Shawnee Mission.CrossRefGoogle Scholar
Schoenwetter, James 2001 Paleoethnobotanical Expressions of Prehistoric Ritual: An Early Woodland Case. In Fleeting Identities: Perishable Material Culture in Archaeological Research, edited by Drooker, Penelope, pp. 273282. Southern Illinois University, Carbondale.Google Scholar
Schroeder, Marjorie 2012 Archaeobotanical Analysis. In Recent Limited Investigations at the Renner Site, 23PL1, compiled by Booth, Don L.. Report submitted to the City of Riverside, Missouri by SCI Engineering, St. Charles.Google Scholar
Schultz, Floyd, and Spaulding, Albert 1948 A Hopewellian Burial Site in the Lower Republican Valley, Kansas. American Antiquity 13:306313.10.2307/275298CrossRefGoogle Scholar
Simon, Mary L. 2014 Reevaluating the Introduction of Maize into the American Bottom and Western Illinois. In Reassessing the Timing, Rate, and Adoption Trajectories of Domesticate Use in the Midwest and Great Lakes, edited by Raviele, Maria E. and Lovis, William A., pp. 97–134. Midwest Archaeological Conference Occasional Papers No. 1. University of Illinois, Champaign.Google Scholar
Simon, Mary L. 2017 Reevaluating the Evidence for Middle Woodland Maize from the Holding Site. American Antiquity 82:140150.CrossRefGoogle Scholar
Simon, Mary L. 2021 New Dates and Carbon Isotope Assays of Purported Middle Woodland Maize from the Icehouse Bottom and Edwin Harness Sites. American Antiquity 86:613624.CrossRefGoogle Scholar
Skibo, James M. 1992 Pottery Function: A Use-Alternative Perspective. Plenum Press, New York.CrossRefGoogle Scholar
Small, John K. 1931 Palms of the Continental United States. Scientific Monthly 32:240255.Google Scholar
Smalley, John, and Blake, Michael 2003 Sweet Beginnings: Stalk Sugar and the Domestication of Corn. Current Anthropology 44:675703.CrossRefGoogle Scholar
Smith, Bruce D., and Cowan, Wesley 2003 Domesticated Crop Plants and the Evolution of Food Producing Economies in Eastern North America. In People and Plants in Ancient Eastern North America, edited by Minnis, Paul E., pp. 105125. Smithsonian Institution, Washington, DC.Google Scholar
Staller, John, Tykot, Robert H., and Bruce F, Benz (editors) 2006 Histories of Maize: Multidisciplinary Approaches to the Prehistory, Linguistics, Biogeography, Domestication, and Evolution of Maize. Elsevier, New York.Google Scholar
VanDerwarker, Amber M., Bardolph, Dana N., Hoppa, Kristin M., Thakar, Heather B., Martin, Lana S., Jaqua, Allison L., Biwer, Matthew E., and Gill, Kristina M. 2016 New World Paleoethnobotany in the New Millennium (2000–2013). Journal of Archaeological Research 24:125177.10.1007/s10814-015-9089-9CrossRefGoogle Scholar
Vierra, Bradley J., and Ford, Richard I. 2006 Early Maize Agriculture in the Northern Rio Grande Valley, New Mexico. In Histories of Maize: Multidisciplinary Approaches to the Prehistory, Linguistics, Biogeography, Domestication, and Evolution of Maize, edited by Staller, John, Tykot, Robert, and Benz, Bruce, pp. 497510. Elsevier, New York.Google Scholar
Wang, Jiajing, Liu, Li, Ball, Terry, Yu, Linjie, Li, Yuanqing, and Xing, Fulai 2016 Revealing a 5000 Year Old Beer Recipe in China. PNAS 113:64446448.10.1073/pnas.1601465113CrossRefGoogle Scholar
Wang, Jiajing, Lui, Li, Georgescu, Andreea, Le, Vivienne V., Ota, Madeleine H., Tang, Silu, and Vanderbilt, Mahpiya 2017 Identifying Ancient Beer Brewing through Starch Analysis: A Methodology. Journal of Archaeological Science: Reports 15:150160.Google Scholar
Weaver, John J. 1965 Native Vegetation of Nebraska. University of Nebraska Press, Lincoln.Google Scholar
Will, George F., and Hyde, George E. 1964 Corn among the Indians of the Upper Missouri. University of Nebraska Press, Lincoln.Google Scholar
Wills, Wirt H. 1989 Patterns of Prehistoric Food Production in West-Central New Mexico. Journal of Anthropological Research 45:139157.CrossRefGoogle Scholar
Wills, Wirt H. 1995 Archaic Foraging and the Beginning of Food Production in the American Southwest. In Last Hunters, First Farmers: New Perspectives on the Prehistoric Transition to Agriculture, edited by Price, T. Douglas and Gebauer, Anne Birgitte, pp. 215242. School of American Research Press, Santa Fe, New Mexico.Google Scholar
Wilson, Gilbert L. 1987 Buffalo Bird Woman's Garden: Agriculture of the Hidatsa Indians. Reprinted Minnesota Historical Society Press, St. Paul. Originally published 1917 as Agriculture of the Hidatsa Indians: An Indian Interpretation, University of Minnesota, Minneapolis.Google Scholar
Young, Danielle N., and Duncan, Neil 2020 Results of Starch Grain Analysis from Prehistoric Ceramics in Kansas. Report submitted to Paleoethnobotany and Environmental Archaeology Laboratory, University of Central Florida, Orlando.Google Scholar
Zarrillo, Sonia, Pearsall, Deborah, Scott Raymond, J., Tisdale, Mary Ann, and Ouon, Dugane J. 2008 Directly Dated Starch Residues Document Early Formative Maize (Zea mays L.) in Tropical Ecuador. PNAS 105:50065011.CrossRefGoogle Scholar
Zier, Christian J. 2018 The Role of Horticulture in the Prehistoric Apishapa Region of Southwestern Colorado. Review in Colorado Archaeology 1(Article 2):1140.CrossRefGoogle Scholar
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