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A GEOARCHAEOLOGICAL INVESTIGATION OF THE STREET OF THE DEAD AT THE TLAJINGA DISTRICT, TEOTIHUACAN, MEXICO

Published online by Cambridge University Press:  11 April 2019

Mareike C. Stahlschmidt*
Affiliation:
University College Dublin, School of Archaeology, Room K004, Newman Building, Belfield, Dublin 4, Ireland Max Planck Institute for Evolutionary Anthropology, Department of Human Evolution, Deutscher Platz 6, 04103 Leipzig, Germany
Emily McClung de Tapia
Affiliation:
Laboratorio de Paleoetnobotánica y Paleoambiente, Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Ciudad Universitaria, Delegación Coyoacán, Mexico City 04510, Mexico
Ma. del Carmen Gutiérrez-Castorena
Affiliation:
Génesis, Morfología y Clasificación de Suelos, Programa de Edafología, Colegio de Postgraduados, Carretera México, Texcoco km 36.5., Texcoco 5623, Mexico
*
E-mail correspondence to: [email protected]

Abstract

Archaeological investigations undertaken by the Proyecto Arqueológico Tlajinga Teotihuacán are focused on understanding urban expansion and household economies in this southern district of the city. Our geoarchaeological research addresses similar topics through examination of relevant microstratigraphic and botanical signatures as well as those relevant to reconstructing paleoenvironment. We investigated four different contexts at Tlajinga: the southern extension of the Street of the Dead, an obsidian working area outside Compound 17:S3E1, anthropogenic and natural layers below Compound 18:S3E1, and a soil profile at the San Lorenzo river. We employed micromorphological, pollen, and phytolith analyses as well as standard soil analytics to study the various deposits in these contexts. Our analysis demonstrates artificial lowering of the tepetate for continuing the axis of the Street of the Dead, microdebitage from obsidian working outside Compound 17:S3E1, and the preservation of in situ burning activities at Compound 18:S3E1. Further, we reconstruct alluvial infilling of the Street of the Dead with pedogenetic overprinting and present further evidence on the occurrence and variability of the Black San Pablo Paleosol and its agricultural significance.

Type
Special Section: Urban Life on Teotihuacan's Periphery–New Research at the Tlajinga District
Copyright
Copyright © Cambridge University Press 2019 

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References

REFERENCES

Blancas, Jorge, Barba, Luis, Ortiz, Agustín, Acosta, Guillermo, Mejía Ramón, Andrés G., and Carballo, David M. 2019 Estudio de conjuntos departamentales y organización de barrios utilizando sensores remotos y geofísca en el distrito de Tlajinga, Teotihuacan. Ancient Mesoamerica 30:115–128.Google Scholar
Bronk Ramsey, Christopher 2017 Methods for Summarizing Radiocarbon Datasets. Radiocarbon 59:18091833.Google Scholar
Bullock, Peter, Fedoroff, Nicholas, Jongerius, Amilius, Stoops, George, Tursina, Tatiana V., and Babel, Ulrich 1985 Handbook for Soil Thin Section Description. Waine Research Publications, Wolverhampton.Google Scholar
Cabadas-Báez, Héctor Víctor, Sedov, Sergey, Jiménez-Álvarez, Socorro del Pilar, Leonard, Daniel, Lailson-Tinoco, Becket, García-Moll, Roberto, Ancona-Aragón, Iliana Isabel, and Hernández-Velázquez, María Lizeth 2018 Soils as a Source of Raw Materials for Ancient Ceramic Production in the Maya Region of Mexico: Micromorphological Insight. Boletín de la Sociedad Geológica Mexicana 70:2148.Google Scholar
Carballo, David M. 2013 The Social Organization of Craft Production and Interregional Exchange at Teotihuacan. In Merchants, Trade and Exchange in the Pre-Columbian World, edited by Hirth, Kenneth G. and Pillsbury, Joanne, pp. 113140. Dumbarton Oaks Research Library and Collection, Washington, DC.Google Scholar
Carballo, David M., Hirth, Kenneth G., Sariñana, Daniela Hernández, Buckley, Gina M., Ramón, Andrés G. Mejía, and Kennett, Douglas J. 2019 New Research at Teotihuacan's Tlajinga District, 2012–2015. Ancient Mesoamerica 30:95–113.Google Scholar
Castilla-Hernández, Martha, and Tejero-Diez, Daniel 1987 Flora y vegetación del Cerro Gordo (San Juan Teotihuacán) y regiones aledañas, Valle de México, México. Biótica 12:231255.Google Scholar
Charlton, Thomas 1970 Contemporary Agriculture in the Teotihuacan Valley. In The Natural Environment, Contemporary Occupation and 16th Century Population of the Valley, The Teotihuacan Valley Project: Final Report V. 1, edited by Sanders, William T., Kovar, Anton, Charlton, Thomas, and Diehl, Richard A., pp. 253383. Occasional Papers in Anthropology, Vol. 5, No. 3. Department of Anthropology, Pennsylvania State University, University Park.Google Scholar
Charlton, Thomas 1972 Post-Conquest Developments in the Teotihuacan Valley, Mexico. Part 1: Excavations. Office of the State Archaeologist, Report 5. University of Iowa, Iowa City.Google Scholar
Cordova, Carlos E. 2016 Prehispanic and Colonial Flood Plain Destabilization in the Texcoco Region and Lower Teotihuacan Valley, Mexico. Geoarchaeology: An International Journal 32:6489Google Scholar
Courty, Marie-Agnès, Goldberg, Paul, and Macphail, Richard I. 1989 Soils and Micromorphology in Archaeology. Cambridge University Press, Cambridge.Google Scholar
Cowgill, George L. 1997 State and Society at Teotihuacan. Annual Review of Anthropology 26:126161.Google Scholar
Cowgill, George L. 2015 Ancient Teotihuacan: Early Urbanism in Central Mexico. Cambridge University Press, New York.Google Scholar
Dunning, Nicholas P., McCane, Carmen, Swinney, Tyler, Purtill, Matthew, Sparks, Jani, Mann, Ashley, McCool, Jon-Paul, and Ivenso, Chantal 2015 Geoarchaeological Investigations in Mesoamerica Move into the 21st Century: A Review. Geoarchaeology: An International Journal 30:167199.Google Scholar
Food and Agriculture Organization of the United Nations (FAO) 2006 Guidelines for Soil Description. 4th ed. Food and Agriculture Organization of the United Nations, Rome.Google Scholar
, Thierry, Courty, Marie-Agnès, Matthews, Wendy, and Wattez, Julia 1993 Sedimentary Formation Processes of Occupation Surfaces. In Formation Processes in Archaeological Context, edited by Goldberg, Paul, Nash, David T., and Petraglia, Michael D., pp. 149163. Prehistory Press, Madison.Google Scholar
González-Arqueros, María Lourdes 2014 Dinámica de la erosión/sedimentación en la época prehispánica y periodo colonial: Reconstrucción de las condiciones paleoambientales en el Valle de Teotihuacán (Estado de México, México). Ph.D. dissertation, Instituto de Geología, Ciencias de la Tierra, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
González-Arqueros, María Lourdes, Vazquez-Selem, Lorenzo, Gama-Castro, Jorge E., and McClung de Tapia, Emily 2013 History of Pedogenesis and Geomorphic Processes in the Valley of Teotihuacan, Mexico: Micromorphological Evidence from a Soil Catena. Spanish Journal of Soil Science 3:201216.Google Scholar
González-Arqueros, María Lourdes, Vazquez-Selem, Lorenzo, Gama-Castro, Jorge E., and McClung de Tapia, Emily 2017 Late Holocene Erosion Events in the Valley of Teotihuacan, Central Mexico: Insights From a Soil-Geomorphic Analysis of Catenas. Catena 158:6981.Google Scholar
Gutiérrez-Castorena, Ma. del Carmen, Oritz-Solorio, Carlos Alberto, Sánchez-Guzmán, Patricio 2007 Clay Coatings Formation in Tepetates from Texcoco, Mexico. Catena 71:411434.Google Scholar
Hirth, Kenneth G., Carballo, David M., Dennison, Mark, Carr, Sean, Imfeld, Sarah, and Dyrdahl, Eric 2019 Excavation of an Obsidian Craft Workshop at Teotihuacan, Mexico. Ancient Mesoamerica 30:163–179.Google Scholar
Jongerius, Amilius 1970 Some Morphological Aspects of Regrouping Phenomena in Dutch Soils. Geoderma 4:311331.Google Scholar
Lachniet, Matthew S., Bernal, Juan Pablo, Asmerom, Yemane, Polyak, Victor, and Piperno, Dolores 2012 A 2400 yr Mesomerican Rainfall Reconstruction Links Climate and Culture Change. Geology 40:259262.Google Scholar
Lorenzo, José Luis 1968 Clima y agricultura en Teotihuacán. In Materiales para la arqueología de Teotihuacán, edited by Lorenzo, José Luis, pp. 5172. Serie Investigaciones 17. Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Lounejeva-Baturina, Elena, Morales-Puente, Pedro, Cabadas-Báez, Héctor V., Cienfuegos-Alvarado, Edith, Sedov, Sergey, Vallejo-Gómez, Ernestina, and Solleiro-Rebolledo, Elizabeth 2006 Late Pleistocene to Holocene Environmental Changes from δ13C Determinations in Soils at Teotihuacan, Mexico. Geofísica Internacional 45:8598.Google Scholar
Madella, Marco, Power-Jones, Alix, and Jones, Martin 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 R. 2009 Corporate Life in Apartment and Barrio Compounds at Teotihuacan, Central Mexico: Craft Specialization, Hierarchy, and Ethnicity. In Domestic Life in Prehispanic Capitals: A Study of Specialization, Hierarchy, and Ethnicity, edited by Manzanilla, Linda R. and Chapdelaine, Claude, pp. 2142. Museum of Anthropology, University of Michigan, Ann Arbor.Google Scholar
McClung de Tapia, Emily 2012 Silent Hazards – Invisible Risks: Prehispanic Erosion in the Teotihuacan Valley, Central Mexico. In Living with the Dangers of Sudden Environmental Change: Understanding Hazards, Mitigating Impacts, Avoiding Disasters, edited by Cooper, Jago and Sheets, Payson, pp. 139161. University Press of Colorado, Boulder.Google Scholar
McClung de Tapia, Emily, and Adriano-Morán, Carmen Cristina 2012 Stable Carbon Isotopes Applied to Landscape Reconstruction in the Teotihuacan Valley, Mexico. Boletín de la Sociedad Geológica Mexicana 64:161169.Google Scholar
McClung de Tapia, Emily, Solleiro-Rebolledo, Elizabeth, Gama-Castro, Jorge, Villalpando, José Luis, and Sedov, Sergey 2003 Paleosols in the Teotihuacan Valley, Mexico: Evidence for Paleoenvironment and Human Impact. Revista Mexicana de ciencias geológicas 20:270282.Google Scholar
McClung de Tapia, Emily, Domínguez-Rubio, Irma, Solleiro-Rebolledo, Elizabeth, Gama-Castro, Jorge, and Sedov, Sergey 2005 Radiocarbon Dates from Soil Profiles in the Teotihuacan Valley, Mexico: Indicators of Geomorphological Processes. Radiocarbon 47:159175.Google Scholar
McClung de Tapia, Emily, and Luis Barba, Pingarrón 2011 Ciencias aplicadas al estudio de estructuras monumentales en Teotihuacan, México. Advances in Archaeological Practice: A Journal of the Society for American Archaeology 1:1928.Google Scholar
McClung de Tapia, Emily, Tapia-McClung, Rodrigo, and Gorenflo, Larry J. 2013 Biodiversity and Landscape Development in the Teotihuacan Valley, Basin of Mexico: Lessons from Ecohistory for Modern Society. Cultural Symbiosis Research Journal 8:185192.Google Scholar
Mentzer, Susan Marie 2014 Microarchaeological Approaches to the Identification and Interpretation of Combustion Features in Prehistoric Archaeological Sites. Journal of Archaeological Method and Theory 21:616668.Google Scholar
Miller, Christopher Evan, Conard, Nicholas John, Goldberg, Paul, and Berna, Francesco 2010 Sweeping, Dumping and Trampling: Experimental Micromorphological Analysis of Anthropogenically Modified Combustion Features. Palethnologie 2:2537.Google Scholar
Millon, René 1973 Urbanization at Teotihuacán, Mexico, Vol. I: The Teotihuacan Map. Part 2: Maps. University of Texas Press, Austin.Google Scholar
Nichols, Deborah L. 1987 Prehispanic Irrigation at Teotihuacan, New Evidence: The Tlajinga Canals. In Teotihuacán: Nuevos datos, nuevas síntesis, nuevos problemas, edited by McClung de Tapia, Emily and Rattray, Evelyn Childs, pp. 133160. Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Nichols, Deborah L. 2016 Teotihuacan. Journal of Archaeological Research 24:174.Google Scholar
Pecci, Alessandra, Miriello, Domenico, Barca, Donatella, Crisci, Gino M., de Luca, Raffaella, Ortiz, Agustín, Manzanilla, Linda R., Blancas, Jorge, and Barba, Luis 2018 Identifying a Technological Style in the Making of Lime Plasters at Teopancazco (Teotihuacan, Mexico). Archaeological and Anthropological Sciences 10:315335.Google Scholar
Rattray, Evelyn Childs 2001 Teotihuacan: Ceramics, Chronology and Cultural Trends. University of Pittsburgh, Pittsburgh, and Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Reimer, Paula J., Bard, Edouard, Bayliss, Alex, Beck, J. Warren, Blackwell, Paul G., Ramsey, Christopher Bronk, Buck, Caitlin E., Cheng, Hai, Edwards, R. Lawrence, Friedrich, Michael, Grootes, Pieter M., Guilderson, Thomas P., Haflidason, Haflidi, Hajdas, Irka, Hatté, Christine, Heaton, Timothy J., Hoffmann, 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
Rentzel, Philippe, and Narten, Gesa-Britt 1999 Zur Entstehung von Gehniveaus in sandig-lehmigen Ablagerungen – Experimente und archäologische Befunde. Jahresbericht der Archäologischen Bodenforschung. Basel-Stadt 1999:107127.Google Scholar
Rivera-Úria, Yazmín, Sedov, Sergey, Solleiro-Rebolledo, Elizabeth, Pérez-Pérez, Julia, McClung de Tapia, Emily, González, Alfredo, and Gama-Castro, Jorge 2007 Degradación ambiental en el Valle de Teotihuacán: Evidencias geológicas y paleopedológicas. Boletín de la Sociedad Geológica Mexicana 59:203217.Google Scholar
Robertson, Ian G. 2005 Patrones diacrónicos en la constitución de los vecindarios teotihuacanos. In Arquitectura y urbanismo: Pasado y presente de los espacios en Teotihuacán, edited by Gallut, María Elena Ruiz and Peralta, Jesús Torres, pp. 277294. Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Sánchez-Pérez, Serafín 2015 Los paleosuelos negros como indicadores de cambios ambientales naturales e inducido por el hombre en el periodo de ocupación teotihuacano. Ph.D. dissertation, Ciencias de la Tierra, Instituto de Geología, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Sánchez-Pérez, Serafín, Solleiro-Rebolledo, Elizabeth, Sedov, Sergey, McClung de Tapia, Emily, Golyeva, Alexandra, Prado, Blanca, and Ibarra-Morales, Emilio 2013 The Black San Pablo Paleosol of the Teotihuacan Valley, Mexico: Pedogenesis, Fertility, and Use in Ancient Agricultural and Urban Systems. Geoarchaeology: An International Journal 28:249267.Google Scholar
Sanders, William T. 1965 The Cultural Ecology of the Teotihuacan Valley. Department of Sociology and Anthropology, Pennsylvania State University. University Park.Google Scholar
Sanders, William T. 1976 The Agricultural History of the Basin of Mexico. In The Valley of Mexico: Studies in Pre-Hispanic Ecology and Society, edited by Wolf, Eric R., pp. 101159. School of American Research, University of New Mexico Press, Albuquerque.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, Orlando.Google Scholar
Sedov, Sergey, Stoops, George, and Shoba, Sergei 2010 Regoliths and Soils on Volcanic Ash. In Interpretation of Micromorphological Features of Soils and Regoliths, edited by Stoops, Georges, Marcelino, Vera, and Mees, Florias, pp. 275303. Elsevier, Amsterdam.Google Scholar
Sedov, Sergey, Rivera, Yazmín, and Solleiro-Rebolledo, Elizabeth 2009 Holocene Paleoecology of Teotihuacan: Micromorphological Evidence from Alluvial Paleosols and Pedosediments. Frankfurter Geowissenschaftliche Arbeiten 30:123131.Google Scholar
Sherwood, Sarah C. 2001 The Geoarchaeology of Dust Cave: A Late Paleoindian Through Middle Archaic Site in the Western Middle Tennessee River Valley. Ph.D. dissertation, Department of Anthropology, University of Tennessee, Knoxville.Google Scholar
Simms, Stephanie, Berna, Francesco, and Bey, George J. III 2013 A Prehispanic Maya Pit Oven? Microanalysis of Fired Clay Balls from the Puuc Region, Yucatán, Mexico. Journal of Archaeological Science 40:11441157.Google Scholar
Solleiro-Rebolledo, Elizabeth, Sedov, Sergey, McClung de Tapia, Emily, Cabadas, Héctor, Gama-Castro, Jorge, and Vallejo-Gómez, Ernestina 2006 Spatial Variability of Environment Change in the Teotihuacan Valley during the Late Quaternary: Paleopedological Inferences. Quaternary International 156–157:1331.Google Scholar
Solleiro-Rebolledo, Elizabeth, Sedov, Sergey, Gama-Castro, Jorge, Román, David Flores, and Escamilla-Sarabia, Guadalupe 2003 Paleosol-Sedimentary Sequences of the Glacis de Buenavista, Central Mexico: Interaction of Late Quaternary Pedogenesis and Volcanic Sedimentation. Quaternary International 106–107:185201.Google Scholar
Solleiro-Rebolledo, Elizabeth, Sycheva, Svetlana, Sedov, Sergey, McClung de Tapia, Emily, Rivera, Yazmín, and Salcedo-Berkivich, César 2011 Fluvial Responses and Paleopoedgenesis in the Teotihuacan Valley, Mexico: Responses to the Late Quaternary Landscape Dynamics. Quaternary International 233:4052.Google Scholar
Spence, Michael W., White, Christine D., Rattray, Evelyn C., and Longstaffe, Fred J. 2005 Past Lives in Different Places: The Origins and Relationships of Teotihuacan's Foreign Residents. In Settlement, Subsistence, and Social Complexity: Essays Honoring the Legacy of Jeffrey R. Parsons, edited by Blanton, Richard E., pp. 155197. Cotsen Institute of Archaeology Press, University of California, Los Angeles.Google Scholar
Stahle, David W., Diaz, José Villanueva, Burnette, Dorian J., Paredes, Julian Cerano, Heim, Richard R. Jr., Fye, Falko K., Soto, Rodolfo Acuna, Therrell, Matthew D., Cleaveland, Malcolm K., and Stahle, Daniel K. 2011 Major Mesoamerican Drought of the Past Millennium. Geophysical Research Letters 38:L05703.Google Scholar
Stoops, Georges 2003 Guidelines for Analysis and Description of Soil and Regolith Thin Sections. Soil Science Society of America, Madison.Google Scholar
Stoops, Georges, Marcelino, Vera, and Mees, Florias (editors) 2010 Interpretation of Micromorphological Features of Soils and Regoliths. Elsevier, Amsterdam.Google Scholar
van Reeuwijk, L. Piet 2002 Procedures for Soil Analysis. 6th ed. Technical Paper 9. International Soil Reference and Information Centre (ISRIC), Wageningen.Google Scholar
Widmer, Randolph J. 1987 The Evolution of Form and Function in a Teotihuacan Apartment Compound. In Teotihuacan: Nuevos datos, nuevas síntesis, nuevos problemas, edited by McClung de Tapia, Emily and Rattray, Evelyn C., pp. 317368. Instituto de Investigaciones Antropológicas, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Widmer, Randolph J., and Storey, Rebecca 1993 Social Organization and Household Structure of a Teotihuacán Apartment Compound: S3W1:33 of the Tlajinga Barrio. In Prehispanic Domestic Units in Western Mesoamerica: Studies of the Household, Compound, and Residence, edited by Santley, Robert S. and Hirth, Kenneth G., pp. 87104. CRC Press, Boca Raton.Google Scholar
Widmer, Randolph J., and Storey, Rebecca 2012 The “Tlajinga Barrio”: A Distinctive Cluster of Neighborhoods in Teotihuacan. In The Neighborhood as a Social and Spatial Unit in Mesoamerican Cities, edited by Arnauld, M. Charlotte, Manzanilla, Linda R., and Smith, Michael E., pp. 102116. University of Arizona Press, Tucson.Google Scholar
Williams, Barbara J. 1972 Tepetate in the Valley of Mexico. Annals of the Association of American Geographers 62:618626.Google Scholar