Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-25T16:17:08.709Z Has data issue: false hasContentIssue false

The Color of Influence: A Provenance Study of Hematite-Based Paints on Early Olmec Carved Pottery

Published online by Cambridge University Press:  20 January 2017

Clarus J. Backes Jr.
Affiliation:
Sapphos Environmental, Inc., 430 N. Halstead Street, Pasadena, CA 91107 ([email protected])
David Cheetham
Affiliation:
Arizona State University, School of Human Evolution & Social Change, P.O. Box 872402, Tempe, AZ 85287-2402 ([email protected])
Hector Neff
Affiliation:
California State University-Long Beach, Department of Anthropology, 1250 Bellflower Blvd., Long Beach, CA 90840-0001 ([email protected])

Abstract

Recent research and debates regarding the origin and spread of Olmec iconography during the Early Formative have centered on provenance and stylistic analyses of carved and incised pottery. Studies by instrumental neutron activation analysis (INAA) have indicated that Gulf Coast-style carved-incised pots were exported extensively from the area of the first Olmec capital, San Lorenzo, to several other regions of Mesoamerica. More recently, excavations at the Pacific Coast site of Cantón Corralito have shown that carved-incised pottery and other Olmec-style artifacts dominate strata contemporary with Early Olmec, suggesting the site may represent a settlement enclave of Gulf Olmec peoples. In this study we provide additional evidence of exchange between the Gulf Olmec and the Pacific Coast region by using laser ablation time-of-flight inductively coupled plasma mass spectrometry (LA-TOF-ICP-MS) to characterize hematite-based paints on Olmec-style pottery from Cantón Corralito, and to compare these paints to raw hematite recovered from Cantón Corralito and San Lorenzo. When examined in combination with sherd provenance data, the LA-TOF-ICP-MS data demonstrate that Olmec vessels were decorated in the San Lorenzo region before being exported to the Pacific Coast, and that Gulf Coast hematite was exported to Cantón Corralito, where it was used to enhance Olmec-style symbolism on locally produced vessels.

Recientes investigaciones y debates sobre el origen y la extensión de la iconografía olmeca durante el Formativo Temprano se han centrado en los análisis estilísticos y de procedencia de la cerámica tallada y cincelada. Estudios utilizando análisis de activación de neutrones (INAA) han indicado que vasijas talladas-cinceladas en el estilo de la Costa del Golfo fueron exportadas extensivamente desde el área de la primera capital olmeca de San Lorenzo a otras regiones de Mesoamérica. Recientemente, excavaciones en el sitio de Cantón Corralito, ubicado en la costa del Pacífico, han mostrado que la cerámica tallada-cincelada y otros artefactos de estilo olmeca dominan los estratos contemporáneos con o olmeca temprano, lo que sugiere que el sitio puede representar un posible asentamiento de una población olmeca del Golfo. En este estudio, presentamos evidencia adicional acerca del intercambio entre los olmecas del Golfo y la región de la costa del Pacífico, usando espectroscopia de masas acoplada inductivamente con ablación laser de tiempo de vuelo (Laser Ablation Time-Of-Flight Inductively Coupled Plasma Mass Spectrometry -LA-TOF-ICP-MS), para caracterizar colorantes a base de hematita en la cerámica de estilo olmeca de Cantón Corralito, y para comparar estos colorantes con hematita sin procesar recuperada de Cantón Corralito y San Lorenzo. Cuando los datos de LA-TOF-ICP-MS son examinados junto con información de procedencia de los fragmentos, demuestran que las vasijas olmecas fueron decoradas en la región de San Lorenzo antes de ser exportadas a la costa del Pacífico, y que la hematita de la costa del Golfo fue exportada a Cantón Corralito, donde se usó para acentuar el simbolismo de estilo olmeca en los recipientes localmente producidos.

Type
Reports
Copyright
Copyright © 2012 by the Society for American Archaeology

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References Cited

Beaudry, Marilyn P. 1989 Investigation of Interregional Contacts: The Distribution and Use of a Specialized Pigment. In New Frontiers in the Archaeology of the Pacific Coast of Southern Mesoamerica, edited by Frederick J. Bove and Lynette Heller, pp. 195208. Arizona State University Anthropological Research Papers No. 39, Tempe.Google Scholar
Blake, Michael, Clark, John E., Voorhies, Barbara, Michaels, George, Love, Michael W., Pye, Mary E., Demarest, Arthur A., and Arroyo, Bárbara 1995 Radiocarbon Chronology for the Late Archaic and Early Formative Periods on the Pacific Coast of Southeastern Mesoamerica. Ancient Mesoamerica 6:161183.Google Scholar
Blomster, Jeffrey P., Neff, Hector, and Glascock, Michael D. 2005 Olmec Pottery Production and Export in Ancient Mexico Determined Through Elemental Analysis. Science 307:10681072.Google Scholar
Campbell, Lyle, and Kaufman, Terrence 1976 A Linguistic Look at the Olmecs. American Antiquity 41:8089.Google Scholar
Chalmin, Emilie, Menu, Michel, and Vignaud, Colette 2003 Analysis of Rock Art Painting and Technology of Palaeolithic Painters. Measurement Science and Technology 14:15901597.Google Scholar
Cheetham, David 2005 Recent Investigations at Cantón Corralito: A Possible Olmec Enclave on the Pacific Coast of Chiapas, Mexico. Paper presented at the 70th Annual Meeting of the Society for American Archaeology, Salt Lake City, Utah.Google Scholar
Cheetham, David 2006a The Americas’ First Colony? Archaeology 59:4246.Google Scholar
Cheetham, David 2006b Style as Cultural Imperative (II): Early Olmec Pottery from Cantón Corralito and San Lorenzo. Paper presented at the 71st Annual Meeting of the Society for American Archaeology, San Juan, Puerto Rico.Google Scholar
Cheetham, David 2009 Early Olmec Figurines from Two Regions: Style as Cultural Imperative. In Mesoamerican Figurines: Small-Scale Indices of Large-Scale Social Phenomena, edited by Christina T. Halperin, Katherine A. Faust, Rhonda Taube and Aurore Giguet, pp. 149179. University Press of Florida, Gainesville.Google Scholar
Cheetham, David 2010a Cultural Imperatives in Clay: Early Olmec Carved Pottery from San Lorenzo and Canton Corralito. Ancient Mesoamerica, in press.Google Scholar
Cheetham, David 2010b America’s First Colony: Olmec Materiality and Ethnicity at Canton Corralito, Chiapas, Mexico. Unpublished Ph.D. dissertation, School of Human Evolution and Social Change, Arizona State University, Tempe.Google Scholar
Cheetham, David, Gonzáles, Susana E., Behl, Richard J., Coe, Michael D., Diehl, Richard A., and Neff, Hector 2009 Petrographic Analyses of Early Formative Olmec Carved Pottery. Mexicon 31:6972.Google Scholar
Clark, John E. 2007 Mesoamerica’s First State. In The Political Economy of Ancient Mesoamerica: Transformations During the Formative and Classic Periods, edited by Vernon L. Scarborough and John E. Clark, pp. 1146. University of New Mexico Press, Albuquerque.Google Scholar
Clark, John E., and Blake, Michael 1989 El origen de la civilizacíon en Mesoamérica: los olmecas y mokaya del Soconusco de Chiapas, México. In El Preclásico o Formativo: avances y perspectivas, edited by M. Carmona Macías, pp. 385103. Museo Nacional de Antropología, Mexico City.Google Scholar
Clark, John E., and Cheetham, David 2005 Cerámica del Formativo de Chiapas. In La productión alfarera en el México antiguo, Vol. I, edited by Beatriz Leonor Merino Carrión and Ángel Garcia Cook, pp. 285433. Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Clark, John E., and Pye, Mary E. 2000 The Pacific Coast and the Olmec Question. In Olmec Art and Archaeology in Mesoamerica, edited by John E. Clark and Mary E. Pye, pp. 217251. Yale University Press, New Haven, Connecticut.Google Scholar
Clottes, Jean 1993 Paint Analyses from Several Magdalenian Caves in the Ariege Region of France. Journal of Archaeological Science 20:223235.Google Scholar
Coe, Michael D., and Diehl, Richard A. 1980 In the Land of the Olmec: Volume 1, The Archaeology of San Lorenzo Tenochtitlán. University of Texas Press, Austin.Google Scholar
DiCastro, Anna, and Cyphers, Ann 2006 Iconografía de la cerámica de San Lorenzo. Anales del Instituto de Investigaciones Estéticas 89:2958.Google Scholar
Erlandson, Jon M., Robertson, J. David, and Descantes, Christophe 1999 Geochemical Analysis of Eight Red Ochres from Western North America. American Antiquity 64:517526.Google Scholar
Fiore, Dánae, Maier, Marta, Parera, Sara D., Orquera, Luis, and Piana, Ernesto 2008 Chemical Analyses of the Earliest Pigment Residues from the Uttermost Part of the Planet (Beagle Channel Region, Tierra del Fuego, Southern South America). Journal of Archaeological Science 35:30473056.Google Scholar
Flannery, Kent V, Balkansky, Andrew K., Feinman, Gary M., Grove, David C., Marcus, Joyce, Redmond, Elsa M., Reynolds, Robert C., Sharer, Robert J., Spencer, Charles S., and Yaeger, Jason 2005 Implications of New Petrographic Analysis for the Olmec “Mother Culture” Model. Proceedings of the National Academy of Sciences 102:1121911223.Google Scholar
Fuller, Carl W. 1988 Natural, Colored Iron Oxide Pigments. In Pigment Handbook, edited by Peter A. Lewis, pp. 281286. Wiley-Interscience, New York.Google Scholar
Goodall, R. A., Hall, J., Viel, R., and Fredericks, P. M. 2009 A Spectroscopic Investigation of Pigment and Ceramic Samples from Copán, Honduras. Archaeometry 51:95109.Google Scholar
Gorden, Mary 1996 An Ethnographic Comparison of the Sources, Composition and Uses of Paints by the Yokuts of the Southern San Joaquin Valley and Sierra Nevada, California. Kern County Archaeological Society Journal 7:3658.Google Scholar
Gratuze, Bernard 1999 Obsidian Characterization by Laser Ablation ICP-MS and its Application to Prehistoric Trade in the Mediterranean and the Near East: Sources and Distribution of Obsidian within the Aegean and Anatolia. Journal of Archaeological Science 26:869881.Google Scholar
Gratuze, Bernard, Blet-Lemarquand, Maryse, and Barrandon, Jean-Noel 2001 Mass Spectrometry with Laser Sampling: A New Tool to Characterize Archaeological Materials. Journal of Radioanalytical and Nuclear Chemistry 247:645656.Google Scholar
Hill, Warren. D., Blake, Michael, and Clark, John E. 1998 Ball Court Design Dates Back 3,400 Years. Nature 392:878879.Google Scholar
Iriarte, Eneko, Foyo, Alberto, Sánchez, Miguel Angel, Tomillo, Carmen, and Setién, Jesús 2009 The Origin and Geochemical Characterization of Red Ochres from the Tito Bustillo and Monte Castillo caves (Northern Spain). Archaeometry 51:231251.Google Scholar
Lesure, Richard G., and Blake, Michael 2002 Interpretive Challenges in the Study of Early Complexity: Economy, Ritual, and Architecture at Paso de la Amada, Mexico. Journal of Anthropological Archaeology 21:124.Google Scholar
Martínez-Hernández, Enrique, Corona-Esquivel, Rodolfo, Ramirez-Arriaga, Elia, and Morales-Isunza, Azucena 2005 Edad y ambiente sedimentario asociado al yacimiento de hierro “El Palotal,” Distrito de Almagres, Estado de Veracruz. Paper presented at the Asociacion de Ingenieros de Minas, Metalurgistas y Geologos de México, A. C. XXVI Convención Internacional de Mineria, Veracruz, Mexico.Google Scholar
Meneses-Rocha, Javier J. 2001 Tectonic Evolution of the Ixtapa Graben, an Example of a Strike-slip Basin of Southeastern Mexico: Implications for Regional Petroleum Systems. In The Western Gulf of Mexico Basin: Tectonics, Sedimentary Basins, and Petroleum Systems, edited by Claudio Bartolini, Richard T. Buffler, and Abelardo Cantú-Chapa, pp. 183218. American Association of Petroleum Geologists, Tulsa.Google Scholar
Neff, Hector 1994 RQ-mode Principal Components Analysis of Ceramic Compositional Data. Archaeometry 36:115130.Google Scholar
Neff, Hector 2002 Quantitative Techniques for Analyzing Ceramic Compositional Data In Ceramic Production and Circulation in the Greater Southwest: Source Determination by INAA and Complementary Mineralogical Investigations, edited by Donna M. Glowacki and Hector Neff, pp. 1536. Cotsen Institute of Archaeology, UCLA.Google Scholar
Neff, Hector, Blomster, Jeffrey, Glascock, Michael D., Bishop, Ronald L., James Blackman, M., Coe, Michael D., Cowgill, George L., Cyphers, Ann, Diehl, Richard A., Houston, Stephen, Joyce, Arthur A., Lipo, Carl P., and Winter, Marcus 2006 Smokescreens in the Provenance Investigation of Early Formative Mesoamerican Ceramics. Latin American Antiquity 17:104118.Google Scholar
Neff, Hector, Blomster, Jeffrey, Glascock, Michael D., Bishop, Ronald L., Blackman, M. James, Coe, Michael D., Cowgill, George L., Diehl, Richard A., Houston, Stephen, Joyce, Arthur A., Lipo, Carl P., Stark, Barbara L., and Winter, Marcus 2006 Methodological Issues in the Provenance Investigation of Early Formative Mesoamerican Ceramics. Latin American Antiquity 17:5476.Google Scholar
Neff, Hector, and Glascock, Michael D. 2007 Instrumental Neutron Activation Analysis of Early Formative Pottery from Cantón Corralito, Chiapas, Mexico and Other Olmec Sites. Institute for Integrated Research in Materials, Environments and Society (IIRMES), and Missouri University Research Reactor. Report prepared for David Cheetham, Arizona State University, Tempe.Google Scholar
Ortiz, Ponciano, and del Carmen Rodríguez, María 1999 Olmec Ritual Behavior at El Manatí: A Sacred Space. In Social Patterns in Preclassic Mesoamerica, edited by David C. Grove and Rosemary A. Joyce, pp. 225254. Dumbarton Oaks, Washington, D.C. Google Scholar
Ortiz, Ponciano, and del Carmen Rodríguez, María 2000 The Sacred Hill of El Manatí: A Preliminary Discussion of the Site’s Ritual Paraphernalia In Olmec Art and Archaeology in Mesoamerica, edited by John E. Clark and Mary E. Pye, pp. 7594. Yale University Press, New Haven.Google Scholar
Pool, Christopher A. 2007 Olmec Archaeology and Early Mesoamerica. Cambridge University Press, Cambridge, United Kingdom.CrossRefGoogle Scholar
Popelka-Filcoff, Rachel S., Miksa, Elizabeth J., Robertson, J. David, Glascock, Michael D., and Wallace, Henry 2008 Elemental Analysis and Characterization of Ochre Sources from Southern Arizona. Journal of Archaeological Science 35:752762.CrossRefGoogle Scholar
Popelka-Filcoff, Rachel S., Robertson, J. David, Glascock, Michael D., and Descantes, Christophe 2007 Trace Element Characterization of Ochre from Geological Sources. Journal of Radioanalytical and Nuclear Chemistry 272:1727.Google Scholar
Powis, Terry G., Hurst, W. Jeffrey, de Mora, Maria del Carmen Rodriguez. Ponciano, Ortiz C., Blake, Michael, Cheetham, David, Coe, Michael D., and Hodgson, John G. 2008 The Origins of Cacao Use in Mesoamerica. Mexican 30(2):3538.Google Scholar
Salinas, L. Salazar (editor) 1923 Catálogo sistemático de especies minerales de México y sus aplicaciones industriales. Boletín del Instituto Geológico de México No. 40.Google Scholar
Sharer, Robert J., Balkansky, Andrew K., Burton, James H., Feinman, Gary M., Flannery, Kent V., Grove, David C., Marcus, Joyce, Moyle, Robert G., Price, T. Douglas, Redmond, Elsa M., Reynolds, Robert G., Rice, Prudence M., Spencer, Charles S., Stoltman, James B., and Yaeger, Jason 2006 On the Logic of Archaeological Inference: Early Formative Pottery and the Evolution of Mesoamerican Societies. Latin American Antiquity 17(1):90103.Google Scholar
Stoltman, James B., Marcus, Joyce, Flannery, Kent V., Burton, James H., and Moyle, Robert G.. 2005 Petrographic Evidence Shows that Pottery Exchange between the Olmec and Their Neighbors was Two-Way. Proceedings of the National Academy of Sciences 102:1121311218.Google Scholar
Weigand, Phil C, Harbottle, Garman, and Sayre, Edward V. 1977 Turquoise Sources and Source Analysis: Mesoamerica and the Southwestern U.S.A. In Exchange. Systems in Prehistory, edited by Timothy K. Earle and Jonathon E. Ericson, pp. 1534. Academic Press, New York.Google Scholar