Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-26T06:11:47.308Z Has data issue: false hasContentIssue false

Middle Ohio Valley Maize Histories: New Dates from the Crossroads of the Midcontinent

Published online by Cambridge University Press:  29 January 2024

Aaron R. Comstock*
Affiliation:
Department of Anthropology, University of Louisville, Louisville, KY, USA
Robert A. Cook
Affiliation:
Department of Anthropology, Ohio State University, Columbus, OH, USA
*
Corresponding author: Aaron R. Comstock; Email: aaron.comstock@louisville.edu
Rights & Permissions [Opens in a new window]

Abstract

The transition to maize agriculture frames important cultural shifts in the Eastern Woodlands. However, the tempo and mode of this transition are unclear, particularly when analytical techniques are not standard across the region. In this article, we present evidence of directly dated maize macrobotanical fragments from the Turpin site in southwest Ohio that date between cal AD 552–649 and 684–994. These dates add to current dialogues on the spread of maize in the American Midcontinent and help further situate the Middle Ohio Valley as a cultural crossroads through which people and ideas flowed. We echo suggestions that, to refine our understanding of the introduction of maize into the region, we must develop pan-regional analytical standards and create multiple working hypotheses at a variety of scales.

Resumen

Resumen

La transición a la agricultura del maíz perfila importantes cambios culturales en los Eastern Woodlands. Sin embargo, no son claros el ritmo y la forma de esta transición, particularmente, debido a que las técnicas analíticas a lo largo de la región no están estandarizadas. En este artículo, se presenta evidencia de la datación directa y calibrada de fragmentos macrobotánicos de maíz del periodo 552-649 dC y 684-994 dC del sitio de Turpin en el suroeste de Ohio. Estas fechas se suman a los debates actuales sobre la dispersión del maíz en el continente medio americano, contribuyendo a situar aún más el valle medio del Rio Ohio como la sede de una confluencia cultural a través de la cual fluyeron diversas personas e ideas. Apoyamos las sugerencias de que para refinar a mayor detalle nuestra comprensión sobre la introducción del maíz en la región, debemos desarrollar procedimientos analíticos estandarizados para toda la región y crear múltiples hipótesis de trabajo en varias escalas.

Type
Report
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of Society for American Archaeology

The introduction of maize into the Eastern Woodlands frames many considerations of cultural developments that occurred between AD 400 and 1600. Questions of when, where, and how maize appeared have fostered a long history of investigations (e.g., Staller et al. Reference Staller, Tykot and Benz2006). As we have collectively clarified maize histories in this region, long-standing narratives regarding the emergence of complexity and regional interconnectedness have changed (e.g., Bender et al. Reference Bender, Baerreis and Steventon1981; Simon Reference Simon, Raviele and Lovis2014, Reference Simon2017; Simon, Hedman, and Emerson Reference Simon, Hedman and Emerson2021). Increases in the variety and resolution of empirical testing have also revealed significant spatial and temporal nuance to these histories that can at times seem less than intuitive. A recent dialogue has emerged regarding the timing of maize in the American Bottom and Great Lakes regions and the nature of data used to assess this chronology (Emerson et al. Reference Emerson, Hedman, Simon, Fort and Witt2020; Hart et al. Reference Hart, Lovis and Anne Katzenberg2021; Simon, Hollenbach, and Redmond Reference Simon, Hollenbach and Redmond2021). This article reviews previously published data for maize use from pre-AD 1000 contexts in the Middle Ohio Valley (MOV) and adds to the discussion recent maize AMS dates from the Turpin site (33HA19) in southwest Ohio. Macrobotanical data from our region suggest that maize was used in the MOV as early or earlier than anywhere else in the Midcontinent and that the MOV may have acted as a crossroads between the American Bottom, the Great Lakes, and other regions in the midcontinent.

Maize Histories

The spread of maize from its initial area of domestication in the Balsas River Valley in south-central Mexico approximately 8,700 years ago (Piperno et al. Reference Piperno, Ranere, Holst, Iriarte and Dickau2009) has long interested researchers, given the social and ecological transformations that tended to accompany this crop. North of Mexico, maize entered the economies of indigenous foragers in the US Southwest by approximately 2500–2000 BC and was part of the package of cultural traits that moved with Basketmaker II phase farming groups early in the first millennium AD (Hanselka and Vierra Reference Hanselka, Vierra and Vierra2017). The pathway(s) that maize took into the Plains is currently unclear, but macrobotanical evidence in the eastern Plains points to its appearance between cal AD 688 and 977 (Adair Reference Adair2012). Recent microbotanical evidence suggests that maize was part of Indigenous systems in the eastern Plains as early as cal 361–197 BC (Adair et al. Reference Adair, Duncan, Young, Bozarth and Lusteck2022). This apparent lag signals a similar discrepancy between macrobotanical and microbotanical remains in the Eastern Woodlands.

Recent work by Mary Simon and colleagues (e.g., Emerson et al. Reference Emerson, Hedman, Simon, Fort and Witt2020; Simon, Hollenbach, and Redmond Reference Simon, Hollenbach and Redmond2021) and John Hart and coworkers (e.g., Hart Reference Hart2022; Hart and Lovis Reference Hart and Lovis2013; Hart et al. Reference Hart, Thompson and Brumbach2003, Reference Hart, Brumbach and Lusteck2007) has provided considerable insight into maize histories in the American Bottom and Great Lakes regions, respectively. Simon (Reference Simon, Raviele and Lovis2014, Reference Simon2017; Simon, Hedman, and Emerson Reference Simon, Hedman and Emerson2021) has demonstrated that maize is rare in the American Bottom before AD 900/1000, reshaping a common narrative in which gradually increasing amounts of maize were an integral part of Woodland period cultural evolution in this region. Even maize cited at Middle Woodland sites has been shown to be intrusive or originally misidentified as maize (Simon Reference Simon2017; Simon, Hedman, and Emerson Reference Simon, Hedman and Emerson2021). The sole Woodland maize date from western Illinois broadly that stands up to scrutiny was recovered from the Edgar Hoener site and dates between cal AD 657 and 775 (see Simon Reference Simon, Raviele and Lovis2014). This new perspective on early maize use fits well with what we are finding in the MOV.

Expanding our understanding of early maize use, Hart and colleagues (Reference Hart, Thompson and Brumbach2003, Reference Hart, Brumbach and Lusteck2007) identified maize phytoliths in residues from pots recovered from central New York dating to as early as 300 BC. Macrobotanical evidence is less common, but sites like Grand Banks in southern Ontario have produced directly dated maize cupules as early as cal AD 330–649 (Crawford et al. Reference Crawford, Smith and Bowyer1997:114).Footnote 1 These early dates on the opposite side of the continent from the south-central Mexican heartland of maize domestication have led some scholars to question their validity or at least find these dates confusing (Emerson et al. Reference Emerson, Hedman, Simon, Fort and Witt2020). However, considered broadly, these data offer an intriguing case for an early introduction of maize into the Great Lakes region.

The different types of evidence (i.e., macro- versus microbotanicals) create a situation in which we may talk past each other; yet, taken at face value these studies demonstrate some of the complexities in understanding the varying pathways that maize took as it entered subsistence systems of Indigenous foragers in the Eastern Woodlands before its establishment as a focal aspect of agricultural systems around AD 1000. The MOV reflects one possible avenue of movement between these regions and provides an otherwise missing perspective. The Ohio River Valley has long been seen as a thoroughfare for the movement of people and ideas (e.g., Griffin Reference Griffin1952). At least in the early years of the Late Precontact period (around AD 1000–1300), people were moving between the Great Lakes, MOV, and the American Bottom regions (Cook Reference Cook2017; Cook and Price Reference Cook and Douglas Price2015), and there is also some intriguing evidence for movement during the centuries preceding this period (Cook and Price Reference Cook and Douglas Price2015).

Now that remains from the Edwin Harness Mound in Ohio have been shown to be plants other than maize (Simon, Hollenbach, and Redmond Reference Simon, Hollenbach and Redmond2021), there are no directly dated maize macrobotanical remains from solid contexts before AD 1000 in the MOV. More common are secondary lines of evidence, including maize contextually associated with charcoal dates and carbon isotope evidence from human bone. For example, features from the Woods site in West Virginia containing maize date between cal AD 569 and 775 (Shott Reference Shott1990; Wymer Reference Wymer and Seeman1992, Reference Wymer, Johannessen and Hastorf1994). Similarly, maize is reported from Woodland contexts at the Sand Ridge site in southwest Ohio (Riggs Reference Riggs1998), but stratigraphic mixing at the site likely means that these kernels were intrusive. Direct analysis is necessary to confirm these dates and ensure that they are not examples of contamination or of non-maize plants like those identified elsewhere. Additionally, isotopic evidence from northeast Ohio indicates the presence of maize in the diets of individuals around cal AD 775–1022 (Redmond Reference Redmond2012:124). More work is clearly needed to confirm site-specific and regional patterns regarding the possibility of pre–AD 900/1000 maize use in the region. The Turpin site in southwest Ohio provides a compelling place to begin that work (Figure 1).

Figure 1. Map of sites and areas mentioned in this study.

Maize from Turpin: Spanning Late Woodland and Early Fort Ancient Time Periods

As part of our ongoing work to better understand the emergence of maize agriculture in the MOV, we conducted field and collections-based research at the Turpin site over the last decade (Comstock Reference Comstock2017; Comstock and Cook Reference Comstock and Cook2021; Cook Reference Cook2017). This multicomponent site contains both preagricultural (Late Woodland; around AD 400–1000) and Late Precontact Fort Ancient culture (around AD 1000–1300) occupations and is the type-site for the post-Hopewell Newtown phase (around AD 400–700) in the region (Griffin Reference Griffin1952; see also Comstock Reference Comstock2017; Cook Reference Cook2017). Excavations by the then Cincinnati Museum of Natural History (CMNH) revealed intensive Newtown Phase occupations, termed the “Old Village” component, that also purportedly contained maize (Oehler Reference Oehler1973). To determine whether these maize remains were intrusive like much of the maize recovered from Woodland period contexts in the American Bottom (Simon Reference Simon, Raviele and Lovis2014), six maize cob fragments were selected from CMNH collections for dating at the NSF Arizona AMS Laboratory: three from “Old Village” contexts and three from Fort Ancient contexts (see Cook Reference Cook2017).

The results of this analysis are consistent with the contexts from which the samples were taken (Table 1; Figure 2). Cob fragments sampled from the three Newtown phase “Old Village” contexts all resulted in pre–AD 1000 distributions. One date from the “2nd Old Village,” a context that we interpret to reflect a separate occupation based on CMNH parlance, produced a 12-row maize cob fragment that dates between cal AD 552 and 649, making it one of the earliest directly dated maize cobs in the Eastern Woodlands. Two additional cobs date to the centuries before AD 1000, although their accuracy suffers from the nature of the calibration curve during this period. One eight-row cob fragment dates between cal AD 684 and 973 and a 10-row cob fragment dates between cal AD 774 and 974. Note that these pre–AD 1000 distributions do not overlap calibrated ranges associated with Fort Ancient contexts and were recovered from contexts with distinctly different material culture. We thus interpret these early maize dates as earlier than established villages of maize agriculturalists in our region. Maize cob fragments sampled from suspected Fort Ancient contexts date between cal AD 1040 and 1275 (Table 1) and are consistent with other dated contexts from the site and the early Fort Ancient period more broadly (see Comstock Reference Comstock2017; Comstock and Cook Reference Comstock and Cook2021; Cook Reference Cook2017).

Table 1. Maize Dates and Contexts from CMC Excavations at Turpin.

Notes: Calibrations performed using OxCal 4.4.4 with the r.5 atmospheric data from Reimer and colleagues (Reference Reimer, Austin, Bard, Bayliss, Blackwell, Ramsey and Butzin2020).

* Row numbers estimated by Kristen Gremillion.

Figure 2. Calibrated distributions of maize dated from the Turpin site.

The pre–AD 1000 maize dates presented here point to maize use at the Turpin site earlier than has been so far discovered in the MOV, and at least one is earlier than most maize macroremains found in the Midcontinent. Considered at a regional scale, these dates place the MOV in consideration for one of multiple early areas of maize use in the midcontinent. We should note that unlike some regions in which there is a lag between early maize evidence and bone isotope evidence for maize consumption, Turpin has produced evidence for early maize remains and early maize consumption. For example, Greenlee (Reference Greenlee2002:191) notes that bone collagen from half the sampled individuals interred in the stone mound, a mortuary facility at Turpin dated between cal AD 600 and 900, produced elevated δ13C values (between −9‰ and −13‰). Analysis of dental enamel from an individual in this context dated between AD 651 and 867 returned δ13C values of −14.7‰ (M1) and −14.5‰ (M3), indicating the presence of maize in their diet (Cook and Price Reference Cook and Douglas Price2015:125).

These findings fit well with subtle evidence that imply networks of connectivity during the AD 500–1000 period. For example, the discovery of Scallorn-like arrow points (Comstock and Cook Reference Comstock and Cook2021) could point to connections between the MOV and western parts of the Midcontinent. Additionally, similarities between some artistic motifs such as the Newtown gorgets (Seeman and Dancey Reference Seeman, Dancey, Emerson, McElrath and Fortier2000:598) and the Missouri “Jaguar” gorget (Wood 1999) could point to continued regional connections after the apparent dissipation of Hopewell networks. Taking this a step further, we could also see regionally diagnostic pottery forms like the well-known Newtown “angled shoulder” as a precursor to similar vessels in the American Bottom that Griffin (Reference Griffin1943) called “Cahokia shoulders”: indeed, Perino (Reference Perino1964) also suggested that some vessels, dating between about AD 500 and 900, were precursors to Mississippian angled-shouldered vessels. All these data can be used for testing a variety of hypotheses regarding Woodland and Late Precontact‒era connections throughout the Eastern Woodlands.

Toward Multiple Working Hypotheses of Maize in the Eastern Woodlands

Hart and colleagues (Reference Hart, Lovis and Anne Katzenberg2021) suggest that multiple lines of evidence are needed to refine our understanding of regional maize histories. Disparities in the lines of evidence used and possibly in the lines of evidence available in each region make it difficult to form interregional comparisons. Yet these issues also provide opportunities to work together to solve this problem. For example, pan-regional research standards that incorporate analyses of macrobotanical remains, microbotanical remains, and pottery residues would provide multiple lines of evidence while leveling the analytical playing field. Currently, however, the disparities in methods applied to the problem do not allow us to meaningfully parse regional differences.

We also suggest that, as maize histories continue to be considered, refined, and integrated, multiple working hypotheses (sensu Chamberlin Reference Chamberlin1890) are needed to incorporate complex and varied outcomes. This approach allows us to consider a variety of possibilities while working to foster interregional research. We initiate this process by considering four hypotheses (of many possibilities) that could account for the complex maize histories evident.

Hypothesis 1. Changes in Maize Processing

Significant changes in food production (i.e., from garden horticulture to field agriculture) and/or preparation (the spread of hominy/nixtamalization) techniques around AD 1000 (see Pauketat Reference Pauketat, Emerson, Koldehoff and Brennan2018) increased the chances for charred maize (macrobotanical) evidence to enter the archaeological record. This could account for the low frequency of macrobotanical finds generally before AD 1000 and the common microbotanical evidence where it has been systematically examined.

Hypothesis 2. Regional Disparities in Maize Availability/Acceptance

Maize took complex pathways that did not fill in all areas equally and did not enter areas we might consider more sensible (like the American Bottom) until relatively late in the sequence. Perhaps these rich ecotonal environments did not require subsistence shifts or experimenting with exotic crops. This could account for the sparse maize evidence in the American Bottom, whereas clear evidence exists for pre–AD 900/1000 maize in the MOV, Illinois River Valley, and Great Lakes regions.

Hypothesis 3. Peripheral Maize-System Genesis

Maize-based adaptations formulated outside the American Bottom and became integrated into the historical developments of that region as people and ideas aggregated there from elsewhere into novel cultural forms around AD 900/1000. This could explain disparities in early maize dates and the subsequent shift in focus toward the American Bottom before or at the same time as the Mississippian emergence. This would expand the geographical focus of examinations of maize agriculture developments.

Hypothesis 4. Trade of Maize Grains

Precontact networks of connectivity existed throughout the Midcontinent. It is possible that maize was one of many items exchanged along these networks (e.g., Albert et al. Reference Albert, Kooiman, Clark and Lovis2018:353). Small amounts of trade maize included in meals would produce microbotanical evidence of maize. At low levels of use it seems unlikely that charred macrobotanical remains would be common. Parsing other aspects of these networks would help create a broader understanding of the pathways that maize took throughout North America.

Conclusion

These working hypotheses help frame the problems and possibilities that exist when considering the spread of maize into the Eastern Woodlands. From this perspective, evidence that does not fit current models in one region need not be problematic for scholars in another region but instead reflect opportunities for dialogue and refinement. We encourage our colleagues to continue thinking in ways that expand our knowledge of this critical transition. Following Hart and colleagues (Reference Hart, Lovis and Anne Katzenberg2021), we also encourage development of a standard of macro- and microbotanical analyses to refine understanding of the nuanced histories of maize. We intend to do so in our region as part of our broader investigation of precontact societies in the MOV.

Acknowledgments

We thank Kristen Gremillion of Ohio State University for reviewing the maize cobs and determining row numbers when possible before they were sent for analysis. Thanks to Lane Fargher for translating the Spanish abstract. Finally, we are grateful to the anonymous reviewers for their helpful feedback that made this a stronger and more accurate article.

Funding Statement

Funding for the AMS dates in this study were part of an NSF grant (#1122499) awarded to the second author.

Data Availability Statement

All documentation and data for this article are available on request.

Competing Interests

The authors declare none.

Footnotes

1. It should be noted that to our knowledge these samples were not analyzed for δ13C. That analysis should be conducted to confirm that they are indeed maize.

References

References Cited

Adair, Mary J. 2012. Refining Plains Woodland Chronology. Plains Anthropologist 57(223):183228. https://doi.org/10.1179/pan.2012.017.CrossRefGoogle Scholar
Adair, Mary J., Duncan, Neil A., Young, Danielle N., Bozarth, Steven R., and Lusteck, Robert K.. 2022. Early Maize (Zea mays) in the North American Central Plains: The Microbotanical Evidence. American Antiquity 87(2):333351. https://doi.org/10.1017/aaq.2021.152.CrossRefGoogle Scholar
Albert, Rebecca K., Kooiman, Susan M., Clark, Caitlin A., and Lovis, William A.. 2018. Earliest Microbotanical Evidence for Maize in the Northern Lake Michigan Basin. American Antiquity 83(2):345355. https://doi.org/10.1017/aaq.2018.10.CrossRefGoogle Scholar
Bender, Margaret M., Baerreis, David A., and Steventon, Raymond L.. 1981. Further Light on Carbon Isotopes and Hopewell Agriculture. American Antiquity 46(2):346353. https://doi.org/10.2307/280213.CrossRefGoogle Scholar
Chamberlin, T. C. 1890. The Method of Multiple Working Hypotheses. Science 15(366):9296.CrossRefGoogle Scholar
Comstock, Aaron R. 2017. Climate Change, Migration, and the Emergence of Village Life on the Mississippian Periphery: A Middle Ohio Valley Case Study. PhD dissertation, Department of Anthropology, Ohio State University, Columbus.Google Scholar
Comstock, Aaron R, and Cook, Robert A. 2021. Contextualizing Mississippian Migration in Early Fort Ancient Villages: Preliminary Results from Recent Excavations at the Turpin Site (33Ha19). Midcontinental Journal of Archaeology 46(1):5382. https://doi.org/10.2307/48629433.CrossRefGoogle Scholar
Cook, Robert A. 2017. Continuity and Change in the Native American Village: Multicultural Origins and Descendants of the Fort Ancient Culture. Cambridge University Press, Cambridge.CrossRefGoogle Scholar
Cook, Robert A., and Douglas Price, T.. 2015. Maize, Mounds, and the Movement of People: Isotope Analysis of a Mississippian/Fort Ancient Region. Journal of Archaeological Science 61:112128. https://doi.org/10.1016/j.jas.2015.03.022.CrossRefGoogle Scholar
Crawford, Gary W., Smith, David G., and Bowyer, Vandy E.. 1997. Dating the Entry of Corn (Zea mays) into the Lower Great Lakes Region. American Antiquity 62(1):112119. https://doi.org/10.2307/282382.CrossRefGoogle Scholar
Emerson, Thomas E., Hedman, Kristin M., Simon, Mary L., Fort, Mathew A., and Witt, Kelsey E.. 2020. Isotopic Confirmation of the Timing and Intensity of Maize Consumption in Greater Cahokia. American Antiquity 85(2):241262. https://doi.org/10.1017/aaq.2020.7.CrossRefGoogle Scholar
Greenlee, Diana. 2002. Accounting for Subsistence Variation among Maize Farmers in Ohio Valley Prehistory. PhD dissertation, Department of Anthropology, University of Washington, Seattle.Google Scholar
Griffin, James B. 1943. The Fort Ancient Aspect: Its Cultural and Chronological Position in Mississippi Valley Archaeology. University of Michigan Press, Ann Arbor.Google Scholar
Griffin, James B. 1952. Prehistoric Cultures of the Ohio Valley. Ohio State Archaeological and Historical Quarterly 61:185195.Google Scholar
Hanselka, J. Kevin, and Vierra, Bradley J.. 2017. A Pan-Regional Overview of Archaic Agriculture in the Southwest. In The Archaic Southwest : Foragers in an Arid Land, edited by Vierra, Bradley J., pp. 269295. University of Utah Press, Salt Lake City.Google Scholar
Hart, John P. 2022. Tracing Maize History in Northern Iroquoia through Radiocarbon Date Summed Probability Distributions. Open Archaeology 8(1):594607. https://doi.org/10.1515/opar-2022-0256.CrossRefGoogle Scholar
Hart, John P., Brumbach, Hetty Jo, and Lusteck, Robert. 2007. Extending the Phytolith Evidence for Early Maize (Zea mays ssp. mays) and Squash (Cucurbita sp.) in Central New York. American Antiquity 72(3):563583. https://doi.org/10.2307/40035861.CrossRefGoogle 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(2):175216. https://doi.org/10.1007/s10814-012-9062-9.CrossRefGoogle Scholar
Hart, John P., Lovis, William A., and Anne Katzenberg, M.. 2021. Early Maize in Northeastern North America: A Comment on Emerson and Colleagues. American Antiquity 86(2):425427. https://doi.org/10.1017/aaq.2020.93.CrossRefGoogle Scholar
Hart, John P., Thompson, Robert G., and Brumbach, Hetty Jo. 2003. Phytolith Evidence for Early Maize (Zea mays) in the Northern Finger Lakes Region of New York. American Antiquity 68(4):619640. https://doi.org/10.2307/3557065.CrossRefGoogle Scholar
Oehler, Charles. 1973. Turpin Indians: A Revised Report of the Findings of the Cincinnati Museum of Natural History's Archaeological Exploration of the Turpin Site, Hamilton County, Ohio 1946–1949. Popular Publication Series 1. Cincinnati Museum of Natural History, Ohio.Google Scholar
Pauketat, Timothy. 2018. Thinking through the Ashes, Architecture, and Artifacts of Ancient East St. Louis. In Revealing Cahokia's Urbanism: Rediscovery and Large-Scale Excavations of the East St. Louis Precinct, edited by Emerson, Thomas E., Koldehoff, Brad H., and Brennan, Tamira K., pp. 463486. Illinois State Archaeological Survey. Urbana.Google Scholar
Perino, Gregory. 1964. Possible Origin of Mississippian Jar. Central States Archaeological Journal 11(4):123126.Google Scholar
Piperno, Dolores R., Ranere, Anthony J., Holst, Irene, Iriarte, Jose, and Dickau, Ruth. 2009. Starch Grain and Phytolith Evidence for Early Ninth Millennium B.P. Maize from the Central Balsas River Valley, Mexico. PNAS 106(13):50195024. https://doi.org/10.1073/pnas.0812525106.CrossRefGoogle ScholarPubMed
Redmond, Brian G. 2012. Terminal Late Woodland Mortuary Ceremonialism, Social Differentiation, and Long Distance Interaction in Northern Ohio: New Evidence from the Danbury Site. Midcontinental Journal of Archaeology 37(1):99140. https://doi.org/10.1179/mca.2012.006.CrossRefGoogle Scholar
Reimer, Paula J., Austin, William E. N., Bard, Edouard, Bayliss, Alex, Blackwell, Paul G., Ramsey, Christopher Bronk, Butzin, Martin, et al. 2020. The IntCal20 Northern Hemisphere Radiocarbon Age Calibration Curve (0–55 cal kBP). Radiocarbon 62(4):725757. https://doi.org/10.1017/RDC.2020.41.CrossRefGoogle Scholar
Riggs, Rodney E. 1998. Ceramics, Chronology and Cultural Change in the Lower Little Miami River Valley, Southwestern Ohio, circa 100 B.C. to circa A.D. 1650. PhD dissertation, Department of Anthropology, University of Wisconsin-Madison, Madison.Google Scholar
Seeman, Mark F., and Dancey, William S.. 2000. The Late Woodland Period in Southern Ohio: Basic Issues and Prospects. In Late Woodland Societies: Tradition and Transformation across the Midcontinent, edited by Emerson, Thomas E., McElrath, Dale L., and Fortier, Andrew C., pp. 583612. University of Nebraska Press, Lincoln.Google Scholar
Shott, Michael J. 1990. Childers and Woods: Two Late Woodland Sites in the Upper Ohio Valley, Mason County, West Virginia. Archaeological Report No. 200. Program for Cultural Resource Assessment, University of Kentucky, Lexington.Google 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, Occasional Papers 1, edited by Raviele, Maria E. and Lovis, William A., pp. 93134. Midwest Archaeological Conference, Champaign, Illinois.Google Scholar
Simon, Mary L. 2017. Reevaluating the Evidence for Middle Woodland Maize from the Holding Site. American Antiquity 82(1):140150. https://doi.org/10.1017/aaq.2016.2.CrossRefGoogle Scholar
Simon, Mary L., Hedman, Kristin M., and Emerson, Thomas E.. 2021. Interpreting Isotopic and Macrobotanical Evidence for Early Maize in the Eastern Woodlands: A Response to Hart and Colleagues. American Antiquity 86(2):428430. https://doi.org/10.1017/aaq.2020.83.CrossRefGoogle Scholar
Simon, Mary L., Hollenbach, Kandace D., and Redmond, Brian G.. 2021. New Dates and Carbon Isotope Assays of Purported Middle Woodland Maize from the Icehouse Bottom and Edwin Harness Sites. American Antiquity 86(3):613624. https://doi.org/10.1017/aaq.2020.117.CrossRefGoogle Scholar
Staller, John E., Tykot, Robert H., and Benz, Bruce F. (editors). 2006. Histories of Maize: Multidisciplinary Approaches to the Prehistory, Linguistics, Biogeography, Domestication, and Evolution of Maize. Routledge, London.Google Scholar
Wood, W. Raymond 1999. The Jaguar Gorget: “The Missouri State Artifact.” Missouri Archaeological Society Quarterly 16(2):811.Google Scholar
Wymer, Dee Ann. 1992. Trends and Disparities: The Woodland Paleoethnobotanical Record of the Mid-Ohio Valley. In Cultural Variability in Context: Woodland Settlements of the Mid-Ohio Valley, edited by Seeman, Mark F., pp. 6576. MCJA Special Paper No. 7. Kent State University Press, Kent.Google Scholar
Wymer, Dee Ann. 1994. The Social Context of Early Maize in the Mid-Ohio Valley. In Corn and Culture in the Prehistoric New World, edited by Johannessen, Sissel and Hastorf, Christine A., pp. 411426. Westview Press, Boulder.Google Scholar
Figure 0

Figure 1. Map of sites and areas mentioned in this study.

Figure 1

Table 1. Maize Dates and Contexts from CMC Excavations at Turpin.

Figure 2

Figure 2. Calibrated distributions of maize dated from the Turpin site.