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EARLY–MIDDLE FORMATIVE PERIOD SUBSISTENCE IN THE TEOTIHUACAN VALLEY, MEXICO: PRE-HISPANIC PLANT REMAINS FROM ALTICA

Published online by Cambridge University Press:  13 August 2019

Emily McClung de Tapia*
Affiliation:
Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Circuito Exterior s/n, Ciudad Universitaria, Delegación Coyoacán, Mexico City, Mexico, 04510
Guillermo Acosta-Ochoa
Affiliation:
Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Circuito Exterior s/n, Ciudad Universitaria, Delegación Coyoacán, Mexico City, Mexico, 04510
Diana Martínez-Yrizar
Affiliation:
Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Circuito Exterior s/n, Ciudad Universitaria, Delegación Coyoacán, Mexico City, Mexico, 04510
Carmen Cristina Adriano-Morán
Affiliation:
Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Circuito Exterior s/n, Ciudad Universitaria, Delegación Coyoacán, Mexico City, Mexico, 04510
Jorge Cruz-Palma
Affiliation:
Programa de Posgrado en Antropología, Universidad Nacional Autónoma de México, Circuito de Posgrados, Ciudad Universitaria, Delegación Coyoacán, Mexico City, Mexico, 04510
Berenice Chaparro-Rueda
Affiliation:
Escuela Nacional de Antropología e Historia, Periférico Sur y Zapote s/n, Colonia Isidro Fabela, Delegación Tlalpan, Mexico City, Mexico, 14030
*
E-mail correspondence to: [email protected]

Abstract

Recent excavations at the Early–Middle Formative period site of Altica in the southern piedmont of the Teotihuacan Valley, Mexico, provide evidence for early agriculture and plant use in a rural community in the northern Basin of Mexico. In the Basin of Mexico, settled agricultural communities were present in the southern sector of the region from at least 1200 cal b.c. Initial expansion into the semiarid northern sector of the Basin, however, appears to have taken place towards the end of the Early Formative, during the transition to the Middle Formative when agricultural economies based on maize cultivation became firmly established, setting the scene for increased population density and concomitant social complexity.

Altica is currently the only community in the Teotihuacan Valley spanning this transitional period that has survived in the face of intensive changes in land use over the last three millennia. Macro- and microbotanical evidence recovered from radiocarbon-dated excavated contexts at Altica provide evidence for maize cultivation and suggest a subsistence economy in transition, prior to the establishment of intensive dependence upon a broader range of domesticated and cultivated plants.

Type
Special Section: Before Teotihuacan—Altica, Exchange, Interactions, and the Origins of Complex Society in the Northeast Basin of Mexico
Copyright
Copyright © Cambridge University Press 2019 

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References

REFERENCES

Acosta, Guillermo 2012 Ice Age Hunter-Gatherers and Colonization of Mesoamerica. In Oxford Handbook of Mesoamerican Archaeology, edited by Nichols, Deborah L. and Pool, Christopher, pp. 129140. Oxford University Press, New York.Google Scholar
Acosta, Guillermo, McClung de Tapia, Emily, Pérez, Patricia, and Arroyo, Joaquín (editors) 2017 Informe del proyecto Proyecto Poblamiento, agricultura inicial y sociedades aldeanas en la Cuenca de México (PAISA-CdM), Segunda Fase. Informe técnico on file, Consejo de Arqueología, Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Barton, Huw, Torrence, Robin, and Fullagar, Richard 1998 Clues to Stone Tool Function Re-Examined: Comparing Starch Grain Frequencies on Used and Unused Obsidian Artefacts. Journal of Archaeological Science 25:12311238.Google Scholar
Benz, Bruce F. 2001 Archaeological Evidence of Teosinte Domestication from Guilá Naquitz, Oaxaca. Proceedings of the National Academy of Sciences of the United States of America 98:21042106.Google Scholar
Booth, Robert K., Jackson, Stephen T., Forman, Steven L., Kutzbach, John E., Bettis, E. Arthur III, Krieg, Joseph, and Wright, David K. 2005 A Severe Centennial-Scale Drought in Mid-Continental North America 4200 Years Ago and Apparent Global Linkages. The Holocene 15:321328.Google Scholar
Bradbury, John P. 1989 Late Quaternary Lacustrine Paleoenvironments in the Cuenca de Mexico. Quaternary Science Reviews 8:75100.Google Scholar
Bronk Ramsey, Christopher 2017 Methods for Summarizing Radiocarbon Datasets. Radiocarbon 59:18091833.Google Scholar
Castillo, Martha, and Tejero, Daniel 1987 Flora y vegetación del Cerro Gordo (San Juan Teotihuacan) y regiones aledañas, Valle de México, México. Biotica 12:231255.Google Scholar
Cruz-Palma, Jorge 2012 Análisis de almidones de vasijas cerámicas de las cuevas Petapa y Retazo, Ocozocoautla, Chiapas. Licenciatura thesis, Archaeology, Escuela Nacional de Antropología, Mexico City.Google Scholar
Emmart, Emily Walcott (translator) 1940 The Badianus Manuscript (Codex Barberini, Latin 241. Vatican Library): An Aztec Herbal of 1552. Johns Hopkins, Baltimore.Google Scholar
Gamio, Manuel 1922 La población del valle de Teotihuacan, Vol. 3. Secretaría de Agricultura y Fomento, Mexico City.Google Scholar
González Arqueros, María Lourdes, Mendoza-Cantú, Manuel E., and Vázquez-Selem, Lorenzo 2017 Human Impact on Natural Systems Modeled through Soil Erosion in GeoWEPP: A Comparison Between Pre-Hispanic Periods and Modern Times in the Teotihuacan Valley (Central Mexico). Catena 149:505513.Google Scholar
González Quintero, Lauro 1986 Análisis polínicos de los sedimentos. In Tlapacoya: 35,000 años de historia del lago de Chalco, edited by Lorenzo, José Luis and Mirambell, Lorena, pp. 157166. Instituto de Antropología e Historia, Mexico City.Google Scholar
Gott, Beth, Barton, Huw, Samuel, Delwen, and Torrence, Robin 2006 Biology of Starch. In Ancient Starch Research, edited by Torrence, Robin and Barton, Huw, pp. 3545. Left Coast Press, Walnut Creek.Google Scholar
Guissani, Liliana M., Cota-Sánchez, Hugo, Zuloaga, Fernando, and Kellogg, Elizabeth 2001 A Molecular Phylogeny of the Grass Subfamily Panicoideae (Poaceae) Shows Multiple Origins of C4 Photosynthesis. American Journal of Botany 88:19932012.Google Scholar
Hermann-Lejarazu, Manuel A. 2008 Códice Nuttall, Lado 2. La historia de Tilantongo y Teozacoalco. Arqueología Mexicana, Edición Especial 29.Google Scholar
Hernández Javier, Ignacio 2007 Geología y geomorfología volcánica de la región de los yacimientos de obsidiana de Otumba en el sector norte de la Sierra Nevada de México. Licenciatura thesis, Geography, Facultad de Filosofía y Letras, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Hinke, Nina 2008 El barbasco. Ciencias 89:5457.Google Scholar
Instituto Nacional de Estadística Geografía e Informática (INEGI) 1999 Carta de suelos: E14B21, Texcoco. Instituto Nacional de Estadística Geografía e Informática, Mexico City.Google Scholar
Linares-Mazari, Edelmira, and Bye-Boettler, Robert 2015 Las especies subutilizadas de la Milpa. RDU Revista Digital Universitaria 16. Electronic document, http://www.revista.unam.mx/vol.16/num5/art35/, accessed February 28, 2018.Google Scholar
Long, Austin, Benz, Bruce, Donahue, Douglas, Jull, A.J. Timothy, and Toolin, Lawrence 1989 First AMS Dates on Early Maize from Tehuacan, Mexico. Radiocarbon 31:10351040.Google Scholar
López-Austin, Alfredo 2006 Los mitos del tlacuache. Caminos de la mitología mesoamericana. 2nd ed. Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Lu, Tracey 2006 The Survival of Starch Residues in a Subtropical Environment. In Ancient Starch Research, edited by Torrence, Robin and Barton, Huw, pp. 8081. Left Coast Press, Walnut Creek.Google Scholar
Madella, M., Powers-Jones, A. H., and Jones, M. K. 1998 A Simple Method of Extraction of Opal Phytoliths from Sediments Using a Non-Toxic Heavy Liquid. Journal of Archaeological Science 25:801803.Google Scholar
Manzanilla, Linda 1985 El sitio de Cuanalan en el marco de las comunidades preurbanas del valle de Teotihuacan. In Mesoamérica y el centro de México: Una antología, edited by Monjarás-Ruiz, Jesús, Rocha, Emma Pérez, and Brambila, Rosa, pp. 133178. Instituto Nacional de Antropología, Mexico City.Google Scholar
Martínez, Maximino 1959 Plantas utiles de la flora Mexicana. Ediciones Botas, Mexico City.Google Scholar
Martínez, Maximino 1969 Las plantas medicinales de México. 5th ed. Ediciones Botas, Mexico City.Google Scholar
McClung de Tapia, Emily 2015 Holocene Paleoenvironment and Prehispanic Landscape Evolution in the Basin of Mexico. Ancient Mesoamerica 26:375389.Google Scholar
McClung de Tapia, Emily, and Martínez-Yrizar, Diana 2017 The Potential of Paleoethnobotanical Evidence for the Study of Teotihuacan Foodways. Archaeological and Anthropological Science 9:3950.Google Scholar
McClung de Tapia, Emily, and Sugiyama, Nawa 2012 El uso de algunas plantas y animales en el pasado y presente: Conservando la diversidad biocultural de México. Arqueologia Mexicana 114:2025.Google Scholar
McClung de Tapia, Emily, Martínez-Yrizar, Diana, Ibarra-Morales, Emilio, and Adriano-Morán, Carmen Cristina 2014 Los orígenes prehispánicos de una tradición alimentaria en la cuenca de México. Anales de Antropología 48:97121.Google Scholar
McClung de Tapia, Emily, Serra Puche, Mari Carmen, and Limón de Dyer, Amie Ellen 1986 Formative Lacustrine Adaptations: Botanical Remains from Terremote-Tlaltenco, D.F., Mexico. Journal of Field Archaeology 13:99113.Google Scholar
Nichols, Deborah L. 2015 Intensive Agriculture and Early Complex Societies in the Basin of Mexico: The Formative Period. Ancient Mesoamerica 26:407421.Google Scholar
Nichols, Deborah L., and Stoner, Wesley D. 2019 Before Teotihuacan: Altica, Exchange, Interactions, and the Origins of Complex Society in the Northeast Basin of Mexico. Ancient Mesoamerica 30:369382.Google Scholar
Niederberger, Christine 1976 Zohapilco: Cinco milenios de ocupación humana en un sitio lacustre de la Cuenca de México. Colección Científica 30. Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Niederberger, Christine 1979 Early Sedentary Economy in the Basin of Mexico. Science 203:131142.Google Scholar
Niederberger, Christine 2000 Ranked Societies, Iconographic Complexity, and Economic Wealth in the Basin of Mexico Toward 1200 B.C. In Olmec Art and Archaeology in Mesoamerica, edited by Clark, John E. and Pye, Mary E., pp. 169192. Yale University Press, New Haven.Google Scholar
Osborne, Colin P., Salomaa, Anna, Kluyver, Thomas A., Visser, Vernon, Kellogg, Elizabeth A., Morrone, Osvaldo, Vorontsova, Maria S., Derek Clayton, W., and Simpson, David A. 2014 A Global Database of C4 Photosynthesis in Grasses. New Phytologist 204:441446.Google Scholar
Pagán, Jaime 2007 De antiguos pueblos y culturas botánicas en el Puerto Rico indígena. British Archaeological Reports, Paris Monographs in American Archaeology, No. 18. Archaeopress, Oxford.Google Scholar
Pearsall, Deborah M. 2015 Paleoethnobotany, A Handbook of Procedures. Left Coast Press, Walnut Creek.Google Scholar
Piperno, Dolores 2006 Phytoliths: A Comprehensive Guide for Archaeologists and Paleoecologists. Altamira Press, Lanham.Google Scholar
Piperno, Dolores, and Holst, Irene 1998 The Presence of Starch Grains on Prehistoric Stone Tools from the Humid Neotropics: Indications of Early Tuber Use and Agriculture in Panama. Journal of Archaeological Science 25:765776.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. Proceedings of the National Academy of Sciences of the United States of America 106:50195024.Google Scholar
Pohl, Mary E.D., Piperno, Dolores R., Pope, Kevin O., and Jones, John G. 2007 Microfossil Evidence for Pre-Columbian Maize Dispersals in the Neotropics from San Andrés, Tabasco, Mexico. Proceedings of the National Academy of Sciences of the United States of America 104:68706875.Google Scholar
Pope, Kevin O., Pohl, Mary E.D., Jones, John G., Lentz, David L., Von Nagy, Christopher, Vega, Francisco J., and Quitmyer, Irvy R. 2001 Origin and Environmental Setting of Ancient Agriculture in the Lowlands of Mesoamerica. Science 292:13701373.Google Scholar
Ramos-Madrigal, Jazmín, Smith, Bruce D., Moreno-Mayar, J. Victor, Gopalakrishnan, Shyam, Ross-Ibarra, Jeffrey, Thomas, M., Gilbert, P., and Wales, Nathan 2016 Genome Sequence of a 5310-Year-Old Maize Cob Provides Insights into the Early Stages of Maize Domestication. Current Biology 26:17.Google Scholar
Reichert, Edward T. 1913 The Differentiation and Specificity of Starches in Relation to Genera, Species, Etc: Stereochemistry Applied to Protoplasmic Processes and Products, and as a Strictly Scientific Basis for the Classification of Plants and Animals. Carnegie Institution of Washington, Washington, DC.Google Scholar
Reimer, Paula J., Bard, Edouard, Bayliss, Alex, Beck, J. Warren, Blackwell, Paul G., Ramsey, Christopher Bronk, Buck, Caitlin, Cheng, Hai, Edwards, R. Lawrence, Friedrich, Michael, Grootes, Pieter M., Guilderson, Thomas P., Haflidason, Haflidi, Hajdas, Irka, Hatté, Christine, Heaton, Timothy J., Hoffman, Dirk L., Hogg, Alan G., Hughen, Konrad A., Kaiser, K. Felix, Kromer, Bernd, Manning, Sturt W., Niu, Mu, Reimer, Ron W., Richards, David A., Scott, E. Marian, Southon, John R., Staff, Richard A., Turney, Christian S.M., and van der Plicht, Johannes 2013 IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0–50,000 Years cal BP. Radiocarbon 55:18691887.Google Scholar
Reyna-Robles, Rosa, and González-Quintero, Lauro 1984 Resultados del análisis botánico de formaciones troncocónicas en Loma Torremote, Cuauhtitlan, estado de México. In Arqueobotánica: Métodos y aplicaciones, pp. 3342. Colección Científica 63. Departamento de Prehistoria, Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Rosenswig, Robert M. 2015 A Mosaic of Adaptation: The Archaeological Record for Mesoamerica's Archaic Period. Journal of Archaeological Research 23:115162.Google Scholar
Rosenswig, Robert M., Vanderwarker, Amber M., Cullerton, Brendan J., and Kennett, Douglas J. 2015 Is It Agriculture Yet?: Intensified Maize Use at 1000 cal BC in the Soconusco and Mesoamerica. Journal of Anthropological Archaeology 40:89108.Google Scholar
Sanders, William T. 1981 Ecological Adaptation in the Basin of Mexico: 23,000 b.c. to the Present. In Archaeology, edited by Sabloff, Jeremy, pp. 147197. Supplement to the Handbook of Middle American Indians, Vol. 1. University of Texas Press, Austin.Google Scholar
Sanders, William T., Parsons, Jeffrey R., and Santley, Robert S. 1979 The Basin of Mexico. Ecological Processes in the Evolution of a Civilization. Academic Press, New York.Google Scholar
Serra Puche, Mari Carmen 1988 Los recursos lacustres de la Cuenca de México durante el formativo. Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Smith, Bruce D. 1997 The Initial Domestication of Cucurbita pepo in the America. 10,000 Years Ago. Science 276:932934.Google Scholar
Stoner, Wesley D., and Nichols, Deborah L. 2019 The Altica Project: Reframing the Formative Basin of Mexico. Ancient Mesoamerica 30:247265.Google Scholar
Stoner, Wesley D., Nichols, Deborah L., Alex, Bridget A., and Crider, Destiny L. 2015 The Emergence of Early–Middle Exchange Patterns in Mesoamerica: A View from Altica in the Teotihuacan Valley. Journal of Anthropological Anthropology 39:1935.Google Scholar
Storey, Rebecca, Buckley, Gina M., and Kennett, Douglas J. 2019 A Glimpse of the People of Altica: Osteological and Isotopic/Radiocarbon Analysis. Ancient Mesoamerica 30:355368.Google Scholar
Tassara, Gerardo, and Osterrieth, Margarita 2008 Silicofilitos de artefactos de molienda de sitios arqueológicos del área interserrana, Buenos Aires. Un estudio preliminar. In Matices interdisciplinarios en estudios de fitolitos y de otros microfossiles, edited by Korstanje, María Alejandra and Babot, María del Pilar, pp. 163171. BAR International Series No. S1870. Oxford, Archaeopress.Google Scholar
Tolstoy, Paul, and Paradis, Louise I. 1970 Early and Middle Preclassic Culture in the Basin of Mexico. Science 167:344351.Google Scholar
Tolstoy, Paul, and Fish, Suzanne K. 1975 Surface and Subsurface Evidence for Community Size at Coapexco, Mexico. Journal of Field Archaeology 2:97104.Google Scholar
Tolstoy, Paul, Fish, Suzanne K., Boksenbaum, Martin W., Vaughn, Kathryn Blair, and Smith, C. Earle 1977 Early Sedentary Communities of the Basin of Mexico. Journal of Field Archaeology 4:91106.Google Scholar
Vallebueno-Estrada, Miguel, Árévalo, Isaac Rodríguez, Rougon-Cardoso, Alejandra, González, Javier Martínez, Cook, Angel García, Montiel, Raael, and Vielle-Calzada, Jean-Philippe 2016 The Earliest Maize from San Marcos Tehuacán Is a Partial Domesticate with Genomic Evidence of Inbreeding. Papers of the National Academy of Sciences of the United States of America 113:1415114156.Google Scholar
Wanner, Heinz, Beer, Jurg, Butikofer, Jonathan, Crowley, Thomas J., Cusbasch, Ulrich, Fluckiger, Jacqueline, Goosse, Hugues, Grosjean, Mrtin, Joos, Fortunat, Kaplan, Jed. O., Kuttel, Marcel, Muller, Simon A., Prentice, I. Colin, Solomina, Olga, Stocker, Thomas F., Wagner, Pavel Tarasav Mauke, and Widmann, Maartin 2008 Mid- to Late Holocene Climate Change: An Overview. Quaternary Science Reviews. 27:17911828.Google Scholar
Watson, Leslie, Macfarlane, Terry D., and Dallwitz, Michael J. 1992 The Grass Genera of the World: Descriptions, Illustrations, Identification, and Information Retrieval; Including Synonyms, Morphology, Anatomy, Physiology, Phytochemistry, Cytology, Classification, Pathogens, World and Local Distribution, and References. Electronic document, http://delta-intkey.com/grass, accessed February 28, 2018.Google Scholar
Williamson, Bonny 2006 Investigation of Potential Contamination on Stone Tools. In Ancient Starch Research, edited by Torrence, Robin and Barton, Huw, pp. 8990. Left Coast Press, Walnut Creek.Google Scholar
Zizumbo-Villareal, Daniel, Flores-Silva, Alondra, and Marín, Patricia Colunga-García 2012 The Archaic Diet in Mesoamerica: Incentive for Milpa Development and Species Domestication. Economic Botany 66:328343.Google Scholar