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The Terminal Formative to Classic Period Obsidian Assemblage at Palo Errado, Veracruz, Mexico

Published online by Cambridge University Press:  20 January 2017

Charles L. F. Knight  and
Michael D. Glascock
Charles L. F. Knight
Affiliation:
Consulting Archaeology Program, 111 Delehanty Hall, University of Vermont, Burlington, VT 05405 ([email protected])
Michael D. Glascock
Affiliation:
Research Reactor Center, University of Missouri, Columbia, MO 65211
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Abstract

Abbreviated Neutron Activation Analysis (NAA) was carried out on a sample of obsidian artifacts from the Terminal Formative to early Late Classic period site of Palo Errado, located in the southern Gulf lowlands of Veracruz, Mexico. Our understanding of Classic period obsidian economies in the southern Gulf lowlands has been largely informed by studies of the political economies of the highland Mexican cities of Teotihuacan and Cantona, which appear to have controlled the Pachuca and Otumba, and Zaragoza-Oyameles obsidian sources, respectively. However, the NAA results from Palo Errado indicate that while the local obsidian economy was dominated by prismatic blade technology utilizing Zaragoza-Oyameles obsidian, five additional highland Mexican sources were used during the Early Classic period. The presence of Ucareo and the use of Otumba in core-blade reduction, for instance, set Palo Errado apart from contemporary sites in the southern Gulf lowlands. Temporal variation in quantity of supplemental obsidian sources and their use in different reduction technologies suggest that consumers at Palo Errado had access to abundant Zaragoza-Oyameles obsidian of a quality high enough to facilitate the production of fine prismatic blades. At the same time, however, they continued to participate in exchange networks that tied them to other areas of central Mexico, independently from other contemporaneous sites in the southern Gulf lowlands.

Un Análisis de Activación de Neutrones (NAA) se llevó a cabo en una muestra de artefactos de obsidiana proveniente del sitio de Palo Errado (Período Formativo Terminal a fase temprana del Período Clásico Tardío), localizado en la Costa Sur del Golfo de Veracruz, México. La idea persistente sobre la economía de la obsidiana en la Costa Sur del Golfo durante el Período Clásico, es que ésta estuvo ligada a las economías políticas de las ciudades serranas de Teotihuacán y Cantona, que aparentemente controlaban las fuentes de obsidiana de Pachuca y Otumba, y Zaragoza-Oyameles, respectivamente. Los resultados del Análisis de Activación de Neutrones de la muestra de Palo Errado indican que aunque en la economía local de la obsidiana dominaba la tecnología de navajas prismáticas fabricadas con obsidiana de la fuente de Zaragoza-Oyameles, también se utilizaba obsidiana proveniente de cinco fuentes adicionales de la Sierra durante el Período Clásico Temprano. La presencia de obsidiana proveniente de Ucareo y el uso de obsidiana proveniente de Otumba en tecnología prismática, por ejemplo, sitúan a Palo Errado aparte de otros sitios contemporáneos en la Costa Sur del Golfo. La variación temporal en cuanto a la cantidad de fuentes adicionales de obsidiana en uso, y el uso del material proveniente de éstas bajo diversas tecnologías líticas, sugiere que los habitantes de Palo Errado tuvieron acceso abundante a obsidiana de alta calidad proveniente de la fuente de Zaragoza-Oyameles. Al mismo tiempo, sin embargo, la participación en redes de intercambio que los conectaron a otras áreas de México central se mantuvo independientemente de la participación de otras localidades contemporáneas en la Costa Sur del Golfo.

Type
Articles
Information
Latin American Antiquity , Volume 20 , Issue 4 , December 2009 , pp. 507 - 524
Copyright
Copyright © 2009 by the Society for American Archaeology.

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References

References Cited

Arnold, Philip J. III 2003 Isla Agaltepec: Postclassic Occupation in the Tuxtla Mountains, Veracruz, México. Electronic Document, http://www.famsi.org/reports/00046/index.html, accessed July 19, 2007. Foundation for the Advancement of Mesoamerican StudiesGoogle Scholar
Arnold, Philip J. III 2005 Early Postclassic Boundary Dynamics in the Sierra de los Tuxtlas, Mexico. Manuscript on file, Department of Anthropology, Loyola University, Chicago.Google Scholar
Arnold, Philip J. III., and Santley, Robert S. 2008 Classic Currents in the West-Central Tuxtlas. In Cultural Currents in Southern and Central Veracruz, edited by Philip J. Arnold III and Christopher A. Pool, pp. 293321. Harvard University Press, Cambridge.Google Scholar
Arnold, Philip J. III., and Venter, Marcie L. 2004 Postclassic Occupation at Isla Agaltepec, Southern Veracruz, Mexico. Mexican 26:121126.Google Scholar
Barrett, Thomas P. 2003 Tuxtlas Obsidian: Organization and Change in a Regional Craft Industry. Ph.D. dissertation, University of New Mexico. University Microfilms, Ann Arbor.Google Scholar
Braswell, Geoffrey E., Willis Andrews, E. V, and Glascock, Michael D. 1994 The Obsidian Artifacts of Quelapa, El Salvador. Ancient Mesoamerica 5:173192.Google Scholar
Braswell, Geoffrey E., Clark, John E., Aoyama, Kazuo, McKillop, Heather I., and Glascock, Michael D. 2000 Determining the Provenance of Obsidian Artifacts from the Maya Region: A Test of the Efficacy of Visual Sourcing. Latin American Antiquity 11:269282.Google Scholar
Carballo, David M., Carballo, Jennifer, and Neff, Hector 2007 Formative and Classic Period Obsidian Procurement in Central Mexico: A Compositional Study Using Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry. Latin American Antiquity 18:2743.Google Scholar
Clark, John E. 1982 Manufacture of Mesoamerican Prismatic Blades: An Alternative Technique. American Antiquity 47:355376.Google Scholar
Clark, John E. 1986 From Mountains to Molehills: A Critical Review of Teotihuacan’s Obsidian Industry. In Research in Economic Anthropology: Supplement 2, edited by Barry L. Isaac, pp. 2374. JAI Press, Greenwich.Google Scholar
Clark, John E. 1987 Prismatic Blades and Mesoamerican Civilization. In The Organization of Core Technology, edited by J. K. Johnson and C. A. Morrow, pp. 259284. Westview Press, Boulder.Google Scholar
Clark, John E. 1997 Prismatic Blademaking, Craftsmanship, and Production: An Analysis of Obsidian from Ojo de Agua, Chiapas, Mexico. Ancient Mesoamerica 8:137159.CrossRefGoogle Scholar
Clark, John E., and Bryant, Douglas D. 1997 A Technological Typology of Prismatic Blades and Debitage from Ojo de Agua, Chiapas, Mexico. Ancient Mesoamerica 8:111136.CrossRefGoogle Scholar
Clark, John E., Lee, Thomas A. Jr., and Salcedo, Tamara 1989 The Distribution of Obsidian. In Ancient Economies of the Soconusco: The Prehistory and History of the Economic Development in the Coastal Lowlands of Chiapas, Mexico, edited by Barbara Voorhies, pp. 268284. University of Utah Press, Salt Lake City.Google Scholar
Cobean, Robert H. 2002 A World of Obsidian: The Mining and Trade of a Volcanic Glass in Ancient Mexico. Instituto Nacional de Antropología e Historia and The University of Pittsburgh.Google Scholar
Cobean, Robert H., Coe, Michael D., Perry, Edward A. Jr., Turekian, Karl K., and Kharkar, Dinkar P. 1971 Obsidian Trade at San Lorenzo Tenochtitlan, Mexico. Science 174:666671.CrossRefGoogle Scholar
Cobean, Robert H., Vogt, James R., Glascock, Michael D., and Stacker, Terrance L. 1991 High-Precision Trace-Element Characterization of Major Mesoamerican Obsidian Sources and Further Analysis of Artifacts from San Lorenzo Tenochtitlan, Mexico. Latin American Antiquity 2:6991.CrossRefGoogle Scholar
Coe, Michael D., and Diehl, Richard A. 1980 The Archaeology of San Lorenzo Tenochtitlán. In In the Land of the Olmec, Vol 1. University of Texas Press. Austin.Google Scholar
Crabtree, Don E. 1968 Mesoamerican Polyhedral Cores and Prismatic Blades. American Antiquity 33:446478.CrossRefGoogle Scholar
Daneels, Annick 1997 Settlement History in the Lower Cotaxtla Basin. In Olmec to Aztec: Settlement Patterns in the Ancient Gulf Lowlands, edited by Barbara L. Stark and Philip J. Arnold III, pp. 206252. University of Arizona Press, Tucson.Google Scholar
Daneels, Annick, and Pastrana, Alejandro 1988 Aprovechamiento de la Obsidiana del Pico de Orizaba: el Caso de la Cuenca Baja del Jamapa-Cotaxtla, Arqueología 4:99120 Google Scholar
Darras, Véronique 1999 Tecnologias Prehispánicas de la Obsidiana: Los Centros de Producción de la Región de Zinaparo-Prieto, Michoacán. Centro Francés de Estudios Mexicanos y Centroamericanos, Mexico D.F.Google Scholar
Drennan, Robert D., Fitzgibbons, Philip T., and Dehn, Heinz 1990 Imports and Exports in Classic Mesoamerican Political Economy: The Tehuacan Valley and Teotihuacan Obsidian Industry. In Research in Economic Anthropology, Vol 12, edited by Barry Isaac, pp. 177200. JAI Press, Greenwich.Google Scholar
Elam, J. Michael 1993 Obsidian Exchange in the Valley ofOaxaca, Mexico. Ph.D. Dissertation, University of Missouri-Columbia. University Microfilms international, Ann Arbor.Google Scholar
Esquivias, Chantal 2003 On the Edge of Empire? Settlement Changes in Chacalapan, Southern Veracruz, Mexico, During the Classic and Post Classic Periods. Ph.D. Dissertation, Boston University. University Microfilms, Ann Arbor.Google Scholar
García Cook, Angel 2003 Cantona: The City. In Urbanism in Mesoamerica. Vol. I., edited by William T. Sanders, Alba Guadalupe Mastasche, and Robert H. Cobean, pp. 311343. Instituto Nacional de Antopología e Historia and The Pennsylvania State University.Google Scholar
García Cook, Angel, and Carrión, Beatriz Leonor Merino 1998 Cantona: Urbe Prehispánica en el Altiplano Central de Mexico. Latin American Antiquity 9:191216.Google Scholar
Glascock, Michael D., Neff, Hector, Stryker, Kathryn. S., and Johnson, Taryn. N. 1994 Sourcing Archaeological Obsidian by an Abbreviated NAA Procedure. Journal of Radioanalytical and Nuclear Chemistry, Articles 180:2935.Google Scholar
Healan, Dan M. 1993 Local versus Non-Local Obsidian Exchange at Tula and Its Implications for Post-Formative Mesoamerica. World Archaeology 24(3):449466.Google Scholar
Healan, Dan M. 1997 Pre-Hispanic Quarrying in the Ucareo-Zinapecuaro Obsidian Source Area. Ancient Mesoamerica 8:77100.Google Scholar
Heller, Lynette 2001 Sources, Technology, Production, Use, and Deposition of Knapped Obsidian. In Classic Period Mixtequilla, Veracruz, Mexico: Diachronic Inferences from Residential Excavations, edited by Barbara L. Stark, pp. 159170. Monograph 12, Institute for Mesoamerican Studies, University of Albany, New York.Google Scholar
Heller, Lynette, and Stark, Barbara L. 1998 Classic and Postclassic Obsidian Tool Production and Consumption: A Regional Perspective from the Mixtequilla, Veracruz. Mexicon 20:119128.Google Scholar
Hester, Thomas R., Heizer, Robert F., and Jack, Robert N. 1971 Technology and Geologic Sources of Obsidian Artifacts from Cerro de las Mesas, Veracruz, Mexico with Observations on Olmec Trade. Contributions of the University of California Archaeological Research Facility 13:133141.Google Scholar
Hester, Thomas R., Jack, Robert N., and Heizer, Robert F. 1971 The Obsidian of Tres Zapotes, Veracruz, Mexico. Contributions of the University of California Archaeological Research Facility 13:65131.Google Scholar
Hirth, Kenneth G., and Andrews, Bradford 2002 Pathways to Prismatic Blades: Sources of Variation in Mesoamerican Lithic Technology. In Pathways to Prismatic Blades: A Study in Mesoamerican Obsidian Core-Blade Technology, edited by Kenneth G. Hirth and Bradford Andrews, pp. 114. Monograph 45, Costen Institute of Archaeology, University of California, Los Angeles.Google Scholar
Hirth, Kenneth G., Andrews, Bradford, and Jeffrey Flenniken, J. 2006 A Technological Analysis of Xochicalco Obsidian Prismatic Blade Production. In Obsidian Craft Production in Ancient Mexico, edited by Kenneth G. Hirth, pp. 6395. The University of Utah Press, Salt Lake City.Google Scholar
Jack, Robert N., Hester, Thomas R., and Heizer, Robert F. 1972 Geologic Sources of Archaeological Obsidian from Sites in Northern and Central Veracruz, Mexico. Contributions of the University of California Archaeological Research Facility 16:117122.Google Scholar
Joyce, Arthur A., Michael Elam, J., Glascock, Michael D., Neff, Hector, and Winter, Marcus 1995 Exchange Implications of Obsidian Source Analysis from the Lower Verde Valley. Latin American Antiquity 6:315.Google Scholar
Knight, Charles L. F. 1999 The Late Formative to Classic Period Obsidian Economy at Palo Errado, Veracruz, Mexico. Ph.D. Dissertation, University of Pittsburgh. University Microfilms, Ann Arbor.Google Scholar
Knight, Charles L. F. 2003 Obsidian Production, Consumption, and Distribution at Tres Zapotes: Piecing Together Political Economy. In Settlement Archaeology and Political Economy at Tres Zapotes, Veracruz, Mexico, edited by Christopher A. Pool, pp. 6989. Monograph 50, Costen Institute of Archaeology, University of California, Los Angeles.Google Scholar
Knight, Charles L. F. 2007 Obsidian Replication Experiments of Possible Wood-working Tools from Palo Errado, Veracruz, Mexico. Manuscript on file, Consulting Archaeology Program, University of Vermont, Burlington, Vermont.Google Scholar
Knight, Charles L. F., and Pool, Christopher A. 2008 Formative to Classic Period Obsidian Consumption at Tres Zapotes, Veracruz, Mexico. Paper presented at the 73rd Annual Meeting for the Society for American Archaeology, Vancouver.Google Scholar
Kruszczynski, Mark A. R. 2001 Prehistoric Basalt Exploitation and Core-Periphery Relations Observed from the Cerro el Vigía Hinterland of Tres Zapotes, Veracruz, Mexico. Ph.D. Dissertation, University of Pittsburgh. University Microfilms, Ann Arbor.Google Scholar
Lara Galicia, Aline 2003 El Yacimiento de Oyameles-Zaragoza en Puebla, Míxico: Evidencias de Explotación Prehispánica. Tésis Profesional, Escuela Nacional de Antropología e Historia, Mexico City.Google Scholar
León Pérez, Ignacio 2002 Jimba 3D. Primera y Segunda Fase: Rescate Arqueológico realizado en Estudios Sismológicos. Archivo Técnico, Instituto Nacional de Antropología e Historia, México.Google Scholar
Lewenstein, Suzanne 2001 Use of Obsidian Blades, Hakes, and Scrapers in the Mixtequilla. In Classic Period Mixtequilla, Veracruz, Mexico: Diachronic Inferences from Residential Excavations, edited by Barbara L. Stark, pp. 170175. Monograph 12, Institute for Mesoamerican Studies, University of Albany, New York.Google Scholar
Moholy-Nagy, Hattula, and Nelson, Fred W. 1990 New Data on Sources of Obsidian Artifacts from Tikal, Guatemala. Ancient Mesoamerica 1:7180.CrossRefGoogle Scholar
Morales, Erika 2003 Informe Técnico del Proyecto Norte de la Cuenca de Oriental y Proyecto Arqueológico Cantona. Archivo del Proyecto Arqueologico Cantona, D.E.A. Mexico.Google Scholar
Ohnersorgen, Michael A. 2001 Social and Economic Organization ofCotaxtla in the Postclassic Gulf Lowlands. Ph.D. Dissertation, Arizona State University. University Microfilms International, Ann Arbor.Google Scholar
Ortiz Ceballos, Ponciano 1975 La Cerámica de Los Tuxtlas. Tésis Profesional, Universidad Veracruzana, Xalapa.Google Scholar
Ortiz Ceballos, Ponciano, and Santley, Robert S. 1988 Matacapan: Un Ejemplo de Enclave Teotihuacano en la Costa del Golfo. In Los Ritmos de Cambio en Teotihuacán: Reflexiones y Discusiones de su Cronologéa, edited by Rosa Bambila and Ruben Cabrera, pp. 377460. Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Pastrana, Alejandro, and Gómez, Hernando 1988 Las Minas de Obsidiana de Pico de Orizaba, Arqueología 3:728 Google Scholar
Pastrana, Alejandro 2002 Variation at the Source: Obsidian Exploitation at Sierra de las Navajas, Mexico. In Pathways to Prismatic Blades: A Study in Mesoamerican Obsidian Core-Blade Technology, edited by Kenneth G. Hirth and Bradford Andrews, pp. 1526. Monograph 45, Costen Institute of Archaeology, University of California, Los Angeles.Google Scholar
Pires-Ferreira, Jane W. 1975 Formative Mesoamerican Exchange Networks and Special Reference to the Valley of Oaxaca. In Prehistoric and Human Ecology of the Valley of Oaxaca, edited by Kent V. Flannery. Memoirs of the Museum of Anthropology Vol. 7, University of Michigan, Ann Arbor.Google Scholar
Pires-Ferreira, Jane W. 1976 Obsidian Exchange in Formative Mesoamerica. In The Early Mesoamerican Village, edited by Kent V. Flannery, pp. 292306. Academic Press, New York.Google Scholar
Pool, Christopher A. 1997a Tres Zapotes Archaeological Survey: 1995 Field Season, Technical Report. Submitted to the National Science Foundation.Google Scholar
Pool, Christopher A. 1997b The Spatial Structure of Formative Houselots at Bezuapan. In Olmec to Aztec: Settlement Patterns in the Ancient Gulf Lowlands, edited by Barbara L. Stark and Philip J. Arnold III, pp. 4067. University of Arizona Press, Tucson.Google Scholar
Pool, Christopher A. (editor) 2003 Settlement Archaeology and Political Economy at Tres Zapotes, Veracruz, Mexico, edited by Christopher A. Pool, pp. 6989. Monograph 50, Costen Institute of Archaeology, University of California, Los Angeles.Google Scholar
Pool, Christopher A., and Britt, Georgia M. 2000 A Ceramic Perspective on the Formative to Classic Transition in Southern Veracruz, Mexico. Latin American Antiquity 11:139161.CrossRefGoogle Scholar
Pool, Christopher A., and Ohnersorgen, Michael A. 2003 Archaeological Survey and Settlement at Tres Zapotes. In Settlement Archaeology and Political Economy at Tres Zapotes, Veracruz, Mexico, edited by Christopher A. Pool, pp. 731. Monograph 50, Costen Institute of Archaeology, University of California, Los Angeles.Google Scholar
Raab, L. Mark, Boxt, Matthew A., Bradford, Katherine, Stokes, Brian A., and González Lauck, Rebecca B. 2000 Testing at Isla Alorin the La Venta Olmec Hinterland. In Journal of Field Archaeology 27:257270.Google Scholar
Renfrew, Colin, Cann, J. R., and Dixon, J. E. 1968 Further Analysis of Near Eastern Obsidian. Proceedings of the Prehistoric Society 34:319331.Google Scholar
Santley, Robert S. 1983 Obsidian Trade and Teotihuacan influences in Mesoamerica. In Highland-Lowland Interaction in Mesoamerica: Interdisciplinary Approaches, edited by Arthur Miller, pp. 69124. Dumbarton Oaks Research Library and Collection, Washington D.C.Google Scholar
Santley, Robert S. 1989 Obsidian Working, Long Distance Exchange, and the Teotihuacan presence on the South Gulf Coast. In Mesoamerica after the Decline of Teotihuacan A.D. 700–900, edited by Richard A. Diehl and Janet. C. Barlow, pp. 131151. Dumbarton Oaks Research Library and Collection, Washington D.C.Google Scholar
Santley, Robert S. 2007 The Prehistory of the Tuxtlas. University of New Mexico Press, Albuquerque.Google Scholar
Santley, Robert S., and Arnold, Philip J. III 2005 The Obsidian Trade to the Tuxtlas Region and its Implications for the Prehistory of Southern Veracruz, Mexico. Ancient Mesoamerica 16:179194.Google Scholar
Santley, Robert S., and Barrett, Thomas P. 2002 Lithic Technology, Assemblage Variation, and the Organization of Production and Use of Obsidian on the South Gulf Coast of Veracruz, Mexico. In Pathways to Prismatic Blades: A Study in Mesoamerican Obsidian Core-Blade Technology, edited by Kenneth G. Hirth and Bradford Andrews, pp. 91103. Monograph 45, Costen Institute of Archaeology, University of California, Los Angeles.Google Scholar
Santley, Robert S., Arnold, Philip J. III, and Barrett, Thomas 1997 Formative Period Settlement Patterns in the Tuxtla Mountains. In Olmec to Aztec: Settlement Patterns in the Ancient Gulf Lowlands, edited by Barbara L. Stark and Philip J. Arnold III, pp. 174205. University of Arizona Press, Tucson.Google Scholar
Santley, Robert S., Barrett, Thomas P., Glascock, Michael D., and Neff, Hector 2001 Pre-Hispanic Obsidian Procurement in the Tuxtla Mountains, Southern Veracruz, Mexico. Ancient Mesoamerica 12:4963.Google Scholar
Sheets, Payson 1977 The Analysis of Chipped Stone Artifacts in Southern Mesoamerica: An Assessment. In Latin American Research Review 12(1):130158.Google Scholar
Smith, Michael E., and Schreiber, Katherine J. 2005 New World States and Empires: Economic and Social Organization. Journal of Archaeological Research 13(3):189229.Google Scholar
Spence, Michael W. 1981 Obsidian Production and the State in Teotihuacan. In American Antiquity 46:769788.Google Scholar
Spence, Michael W. 1996 Commodity or Gift: Teotihuacan Obsidian in the Maya Region. In Latin American Antiquity 7:2139.Google Scholar
Stark, Barbara L., Heller, Lynette, Glascock, Michael D., Michael Elam, J., and Neff, Hector 1992 Obsidian-Artifact Source Analysis for the Mixtequi-Ila Region, South-Central Veracruz, Mexico. Latin American Antiquity 3:221239.Google Scholar
Tolstoy, Paul 1971 Utilitarian Artifacts of Central Mexico. In Archaeology of Northern Mesoamerica, Part I, edited by Gordon F. Ekholm and Ignacio Bernal, pp. 270296. Handbook of Middle American Indians, Vol. 10, Robert Wauchope, general editor, University of Texas Press, Austin.Google Scholar
Venter, Marcie L. 2005 Totógal: Investigations of Postclassic Occupation and the Aztec Frontier in the Tuxtla Mountains, Veracruz, México. Electronic Document, http://www.famsi.org/reports/03045/index.html, accessed July 19, 2007. Foundation for the Advancement of Mesoamerican Studies.Google Scholar
Zeitlin, Robert N. 1982 Toward a More Comprehensive Model of Interregional Commodity Distribution: Political Variables and Prehistoric Obsidian Procurement in Mesoamerica. American Antiquity 47:260275.Google Scholar