Hostname: page-component-78c5997874-g7gxr Total loading time: 0 Render date: 2024-11-15T12:57:34.115Z Has data issue: false hasContentIssue false
  • English
  • Français

THE FIRST MAYA TRADE WARE? NEW DATA ON MIDDLE PRECLASSIC-PERIOD MARS ORANGE PASTE WARE FROM HOLTUN, GUATEMALA

Published online by Cambridge University Press:  02 October 2018

Michael G. Callaghan ,
Daniel E. Pierce  and
William D. Gilstrap
Michael G. Callaghan*
Affiliation:
Department of Anthropology, University of Central Florida, 4000 Central Florida Blvd, Orlando, FL 32816, USA
Daniel E. Pierce
Affiliation:
Archaeometry Laboratory, University of Missouri Research Reactor, 1513 Research Park Drive Columbia, MO 65211, USA
William D. Gilstrap
Affiliation:
Center for Materials Research in Archaeology and Ethnology, Massachusetts Institute of Technology, 77 Massachusetts Ave, Room 8-138, Cambridge, MA 02139, USA
*
(michael.callaghan@ucf.edu, corresponding author)
Get access Rights & Permissions [Opens in a new window]

Abstract

This study reports on type: variety-mode classification, digital stereomicroscopy, petrography, neutron activation analysis, and previously published reports and characterizes production and distribution of Mars Orange Paste Ware in the Middle Preclassic-period Maya Lowlands. The sample consists of 2028 sherds of Mars Orange Paste Ware from Holtun, Guatemala, and 4105 sherds reported from sites in Central Belize and Peten Guatemala. The combined data suggest Mars Orange Paste Ware was a “short-distance” trade ware produced in the northeastern Maya Lowlands and distributed from Central Belize to the west.

En este estudio se informa sobre la tipología, estereomicroscopía digital, petrografía, análisis de activación por neutrones e informes publicados anteriormente sobre la vajilla Mars Naranja, con el objetivo de caracterizar su producción e intercambio en las Tierras Bajas Mayas durante el periodo Preclásico medio. La muestra considerada comprende 2.028 tiestos de la vajilla Mars Naranja de Holtun, Guatemala, y 4.105 tiestos procedentes de sitios en Belice central y Petén, Guatemala. La combinación de datos sugiere que la vajilla Mars Naranja fue un bien de intercambio de “corta distancia” producido en el noreste de las Tierras Bajas Mayas y distribuido desde el centro de Belice hacia el oeste.

Type
Report
Information
Latin American Antiquity , Volume 29 , Issue 4 , December 2018 , pp. 821 - 827
Copyright
Copyright © 2018 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

Adams, Richard E. W. 1971 The Ceramics of Altar de Sacrificios. Papers of the Peabody Museum of Archaeology and Ethnology Vol. 63, Pt. 1. Harvard University, Cambridge, Massachusetts.Google Scholar
Awe, Jaime 1992 Dawn in the Land between the Rivers: Formative Occupation at Cahal Pech, Belize and Its Implications for Preclassic Development in the Maya Lowlands. PhD dissertation, Department of Anthropology, University of London, London. University Microfilms, Ann Arbor, Michigan.Google Scholar
Ball, Joseph, and Taschek, Jennifer 2003 Reconsidering the Belize Valley Preclassic: A Case for Multiethnic Interactions in the Development of a Regional Culture Tradition. Ancient Mesoamerica 14(2):179217.Google Scholar
Callaghan, Michael G. 2016 Yax Te Complex. In The Ceramic Sequence of the Holmul Region, Guatemala, edited by Callaghan, Michael G., and de Estrada, Nina Neivens, pp. 6791. Anthropological Papers of the University of Arizona no. 77. University of Arizona Press, Tucson.Google Scholar
Callaghan, Michael, Pierce, Daniel, Kovacevich, Brigitte, and Glascock, Michael 2017a Chemical Paste Characterization of Middle Preclassic-Period Ceramics from Holtun, Guatemala and Implications for Production and Exchange. Journal of Archaeological Science: Reports 12:334345.Google Scholar
Callaghan, Michael, Pierce, Daniel, Kovacevich, Brigitte, and Glascock, Michael 2017b An Atlas of Paste Fabrics and Supplemental Paste Compositional Data from Late Middle Preclassic-Period Ceramics at the Maya Site of Holtun, Guatemala. Data in Brief 12:5567.Google Scholar
Castellanos, Jeanette E., and Foias, Antonia 2017 The Earliest Maya Farmers of Peten: New Evidence from Buenavista-Nuevo San José, Central Peten Lakes Region, Guatemala. Hindawi Journal of Anthropology 17, https://doi.org/10.1155/2017/8109137, accessed March 27, 2017.Google Scholar
Doyle, James 2017 A Tale of Two E-Groups: El Palmar and Tikal, Peten, Guatemala. In Maya E-Groups: Calendars, Astronomy, and Urbanism in the Early Maya Lowlands, edited by Freidel, David, Chase, Arlen, Dowd, Anne S., and Murdock, Jerry, pp. 253292. University Press of Florida, Gainesville.Google Scholar
Foias, Antonia E., and Bishop, Ronald L. 2013 Ceramics, Production, and Exchange in the Petexbatun Region: The Economic Parameters of the Classic Maya Collapse. Vanderbilt University Press, Nashville, Tennessee.Google Scholar
Ford, Anabel, Spera, Frank J., and Christensen, Connie 2017 Petrography First: Issues of Identification and Sourcing Volcanic Ash Temper in Maya Pottery. In Integrative Approaches in Ceramic Petrography, edited by Ownby, Mary F., Druc, Isabelle C., and Masucci, Maria A., pp. 823. University of Utah Press, Salt Lake City.Google Scholar
Gifford, James C. 1976 Prehistoric Pottery Analysis and the Ceramics of Barton Ramie in the Belize Valley. Memoirs of the Peabody Museum of Archaeology and Ethnology Vol. 18. Harvard University, Cambridge, Massachusetts.Google Scholar
Hermes, Bernard 2003 Industria cerámica. In El Sitio Maya de Topoxte, edited by Wurster, Wolfgang W., pp. 164201. Verlag Philipp Von Zabern, Mainz Am Rhein, Germany.Google Scholar
Kosakowsky, Laura J. 2012 Ceramics and Chronology at Chan. In Chan: An Ancient Maya Farming Community, edited by Robin, Cynthia, pp. 4270. University Press of Florida, Gainesville.Google Scholar
Kovacevich, Brigitte, Callaghan, Michael G., Castillo, Patricia Rivera, and Guzman, Rodrigo 2012 Investigaciones arqueológicas en “Cabeza de Piedra”: Resultados de dos temporadas del campo en el sitio de Holtun, Guatemala. In XXV Simposio de Investigaciónes Arqueológicas en Guatemala, edited by Arroyo, Barbara, Arragon, Lorena Paiz, and Mejia, Hector, pp. 237252. Museo Nacional de Arqueología y Etnología, Guatemala City, Guatemala.Google Scholar
Laporte, Juan Pedro, and Valdés, Juan Antonio 1993 Tikal y Uaxactun en el Preclasico. Universidad Nacional Autonoma de Mexico, Campeche.Google Scholar
Powis, Terry G., Healy, Paul, and Hohmann, Bobbi 2009 An Investigation of Middle Preclassic Structures at Pacbitun. In Research Reports in Belizean Archaeology: Papers of the 2008 Belize Archaeology Symposium, edited by Morris, John, Jones, Sherilyne, Awe, Jaime, Thompson, George, and Helmke, Christophe, pp. 169177. Institute of Archaeology and National Institute of Culture and History, Belmopan, Belize.Google Scholar
Ricketson, Oliver G., and Ricketson, Edith B. 1937 Uaxactun, Guatemala, Group E, 1926–1931. Part 1: The Excavations; Part II: The Artifacts. Carnegie Institution of Washington, Publication No. 477. Carnegie Institution of Washington, Washington, DC.Google Scholar
Shepard, Anna O. 1955 Technological Analysis: The Paste of Mars Orange Ware from Uaxactun. In Ceramic Sequence at Uaxactun, Guatemala, edited by Smith, Robert E., p. 32. MARI Publication No. 20. Tulane University, New Orleans.Google Scholar
Smith, Robert E. 1955 Ceramic Sequence at Uaxactun, Guatemala. Middle American Research Institute Publication No. 20 (2 vols.). Tulane University, New Orleans.Google Scholar