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Maya Calendar Reform? Evidence from Orientations of Specialized Architectural Assemblages

Published online by Cambridge University Press:  20 January 2017

Anthony F. Aveni
Affiliation:
Departments of Physics and Astronomy and of Sociology and Anthropology, Colgate University, 13 Oak Drive, Hamilton, NY 13346
Anne S. Dowd
Affiliation:
Division of Anthropology, American Museum of Natural History, Central Park West 79th Street, New York, NY 10024-5192
Benjamin Vining
Affiliation:
Department of Archaeology, Boston University, 675 Commonwealth Avenue, Boston, MA 02215

Abstract

Long before they devised a written calendar, the Maya articulated their seasons by means of an “orientation calendar” that consisted of visual alignments involving their architecture. One specialized set of buildings, Group Eat Uaxactún, Guatemala, in the Petén lowlands, has been regarded as the prototype of such a calendar. We present new data based on precise measurements made in the field at 12 Group E complexes and obtained for a number of additional sites from reliable maps where on-site astronomical fixes were acquired. Statistical analysis of the resulting 99 alignments supports the hypothesis that, at least at some stage of development, certain of these specialized complexes did indeed function astronomically. The earliest version of the orientation calendar seems to have developed in the Petén; it was focused on the solstices. A later orientation calendar seems to have functioned principally during the season leading up to the onset of rain and crop planting. It consisted of a division of the dry season into 20-day months prior to the first annual passage of the sun across the zenith (approximately May 10 in the Christian calendar). We argue that this later orientation calendar was derived from Teotihuacan during the Early Classic period (A.D. 278–593).

Antes del calendario escrito, los Mayas Antiguos organizaban las estaciones mediante un “calendario de orientación” basado en alineaciones visuales demarcados por su arquitectura. Este parece ser el caso de un complejo arquitectónico llamada Grupo E, en el sitio Uaxactún en las tierras bajas de Petén. Siguiendo este planeamiento, presentamos nuevos datos, unos basados en medidas precisas del campo que proceden de dos estructuras del tipo Grupo E, y otros son datos que se derivan de mapas fiables corregidos por medidas astronómicas. El análisis estadístico de unas 99 alineaciones que apoyan la hipótesis de que ciertos de estas estructuras especializadas funcionaron astronómicamente, por lo menos durante algunas fases de su desarrollo. Proponemos que la versión más antigua del calendario de orientación, centrada en los solsticios, se desarrolló en el Petén. Sin embargo, encontremos alineaciones posteriores que pertenecen a otro calendario de orientación. El análisis de la distribución de las alineaciones indica un calendario que funcionaba principalmente entre la estación lluviosa y la estación de siembra. Específicamente, el calendario de orientación dividía la temporada árida en meses de 20 días, hasta el primer paso anual del sol a través del cenit (aproximadamente el día 10 de Mayo según el calendario Cristiano). Proponemos que este calendario de Uaxactún se derivó del de Teotihuacan durante el periodo Clásico Temprano (278–593 d.C.).

Type
Articles
Copyright
Copyright © 2003 by the Society for American Archaeology.

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References

References Cited

Aimers, James 1995 An Hermeneutic Analysis of the Maya E-Group Complex. Unpublished M.A. thesis, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Ashmore, Wendy 1981 Some Issues of Method and Theory in Lowland Maya Settlement Archaeology. In Lowland Maya Settlement Patterns, edited by Wendy Ashmore, pp. 3769. University of New Mexico Press, Albuquerque.Google Scholar
Ashmore, Wendy 1991 Site Planning Principles and Concepts of Directionality among the Ancient Maya. Latin American Antiquity 2:199226.Google Scholar
Ashmore, Wendy 1992 Deciphering Maya Architectural Plans. In New Theories on the Ancient Maya, edited by Elin C. Danien and Robert J. Sharer, pp. 173184. University Museum, University of Pennsylvania, Philadelphia.Google Scholar
Aveni, Anthony F. 1975 Possible Astronomical Orientations in Ancient Mesoamerica. In Archaeoastronomy in Pre-Columbian America, edited by Anthony F. Aveni, pp. 163190. University of Texas Press, Austin.Google Scholar
Aveni, Anthony F. 1981 Archaeoastronomy. In Advances in Archaeological Method and Theory, vol. 4, edited by Michael B. Schiffer. pp. 181. Academic Press, New York.Google Scholar
Aveni, Anthony F. 1991 The Real Venus-Kukulcan in the Maya Inscriptions and Alignments. In Sixth Mesa Redonda de Palenque 1986, edited by Virginia M. Fields, pp. 309321. University of Oklahoma Press, Norman.Google Scholar
Aveni, Anthony F. 2000 Out of Teotihuacan: Origins of the Celestial Canon in Mesoamerica. In Mesoamerica’s Classical Heritage: From Teotihuacan to the Aztecs, edited by David Carrasco, Lindsay Jones, and Scott Sessions, pp. 253268. University Press of Colorado, Niwot.Google Scholar
Aveni, Anthony F. 2001 Skywatchers: A Revised and Updated Version of Sky-watchers of Ancient Mexico. University of Texas Press, Austin.Google Scholar
Aveni, Anthony F., and Hartung, Horst 1986 Maya City Planning and the Calendar. Transactions of the American Philosophical Society 76(1): 187.Google Scholar
Aveni, Anthony F., and Hartung, Horst 1989 Uaxactun, Guatemala, Group E and Similar Assemblages: An Archaeoastronomical Reconsideration. In World Archaeoastronomy, edited by Anthony F. Aveni, pp. 441461. Cambridge University Press, Cambridge.Google Scholar
Aveni, Anthony F., and Hartung, Horst 2000 Water, Mountain, Sky: The Evolution of Site Orientations in Southeastern Mesoamerica. In In Chalchihuitl in Quetzalli, edited by Eloise Quiñones Keber, pp. 5565. Labyrinthos, Lancaster, California.Google Scholar
Aveni, Anthony F., Hartung, Horst, and Buckingham, Beth 1978 The Pecked Cross Symbol in Ancient Mesoamerica. Science 202:267279.CrossRefGoogle ScholarPubMed
Aveni, Anthony F., Hartung, Horst, and Charles Kelley, J. 1982 Alta Vista (Chalchihuites), Astronomical Implications of a Mesoamerican Ceremonial Outpost at the Tropic of Cancer. American Antiquity 47:316335.CrossRefGoogle Scholar
Aveni, Anthony F., and Hotaling, Lorren 1994 Monumental Inscriptions and the Observational Basis of Maya Planetary Astronomy. Archaeoastronomy 19 (Supplement to Journal for the History of Astronomy 25):S21S54.CrossRefGoogle Scholar
Awe, Jaime, Campbell, Mark, and Conlon, Jim 1991 Preliminary Analysis of the Spatial Configuration of the Site Core at Cahal Pech, Belize, and Its Implications for Lowland Maya Social Organization. Mexicon 13:2530.Google Scholar
Bricker, Harvey, and Bricker, Victoria 1996 Astronomical References in the Throne Inscription of the Palace of the Governor at Uxmal. Cambridge Archaeological Journal 6(2): 191229.Google Scholar
Carr, Robert, and Hazard, James 1961 Tikal Reports. University Museum, University of Pennsylvania, Philadelphia.Google Scholar
Carrasco, V., Ramón, Sylvaine Boucher, Dowd, Anne S., Armando, Paul, Garcia, Maria Elena, and Gonzalez, Emyly 1995 Informe Sobre el Proyecto Arqueológico de la Biosfera Calakmul. Instituto Nacional de Antropología e Historia, Merida.Google Scholar
Chase, Arlen 1983 A Contextual Consideration of the Tayasal-Paxcaman Zone, El Petén, Guatemala. Unpublished Ph.D. dissertation, University of Pennsylvania, Philadelphia. University Microfilms, Ann Arbor.Google Scholar
Chase, Arlen, and Chase, Diane 1995 External Impetus, Internal Synthesis, and Standardization: E Group Assemblages and the Crystallization of Classic Maya Society in the Southern Lowlands. Acta Mesoamericana 8:87101.Google Scholar
Coggins, Clemency 1979a New Order and the Role of the Calendar: Some Characteristics of the Middle Classic Period at Tikal. In Maya Archaeology and Ethnohistory, edited by Norman Hammond and Gordon R. Willey, pp. 3850. University of Texas Press, Austin.Google Scholar
Coggins, Clemency 1979b Teotihuacan and Tikal in the Early Classic Period. In Actes du XVIIe Congres International des Americanistes, Paris 2-9 Septembre 1976, vol. 8, pp. 251269. Societé des Americanistes, Paris.Google Scholar
Coggins, Clemency 1980 The Shape of Time: Some Political Implications of a Four-Part Figure. American Antiquity 45:727739.Google Scholar
Coggins, Clemency 1981 An Instrument of Expansion: Monte Alban, Teotihuacan and Tikal. In Highland-Lowland Interaction of Mesoamerica: Interdisciplinary Approaches, edited by Arthur Miller, pp. 4968. Dumbarton Oaks, Washington, D.C. Google Scholar
Culbert, T. Patrick 1977 Early Maya Development at Tikal, Guatemala. In The Origins of Maya Civilization, edited by Richard E. W. Adams, pp. 2743. University of New Mexico Press/School of American Research Press, Albuquerque.Google Scholar
Dahlin, Bruce 1984 A Colossus in Guatemala: The Pre-Classic Maya City of El Mirador. Archaeology 37(5):1825.Google Scholar
Dowd, Anne S., and Aveni, Anthony F. 1998 The Maya Time Space Continuum: Calakmul’s Group E Complex. Paper presented at the 63rd Annual Meeting of the Society for American Archaeology, Seattle.Google Scholar
Dowd, Anne S., Aveni, Anthony F., and Ramón, Carrasco V. 1995 Solar Observatory or Allegory? Calakmul’s Group E-Type Complex. Paper presented at the 60th Annual Meeting of the Society for American Archaeology, Minneapolis.Google Scholar
Dütting, Dieter, Aveni, Anthony F., and Schramm, Matthias 1982 The 2 Cib 14 Mol Event in the Inscriptions of Palenque, Chiapas, Mexico. Zeitschrift für Etnologie 107:233258.Google Scholar
Fialko, Vilma 1985 Tikal, Mundo Perdido: Identificacíon de un Complejo con Implicacíon Astronomica. In Memoria del Primer Colloquio Internacional de Mayistas, pp. 143164. Centra de Estudios Mayas, Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Fialko, Vilma 1988 Mundo Perdido, Tikal: Un Ejemplo de Complejos de Conmemoracíon Astronomica. Mayab 4:1321.Google Scholar
Folan, William 1989 Proyecto Santa Rosa Xtampak. In Consejo de Arqueología Boletín, pp. 4346. Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Folan, William, Marcus, Joyce, Pincemin, Sophia, Maria, Dominguez C., Fletcher, Laraine, and Morales, Abel 1995 Calakmul: New Data from an Ancient Maya Capital in Campeche, Mexico. Latin American Antiquity 6:310334.CrossRefGoogle Scholar
Freidel, David, Scheie, Linda, and Parker, Joy 1993 Maya Cosmos: Three Thousand Years on the Shaman’s Path. William Morrow, New York.Google Scholar
Graham, Ian 1967 Archaeological Explorations in El Petén, Guatemala. Middle American Research Institute Publication, No. 33. Tulane University, New Orleans.Google Scholar
Graham, Ian 1978 Corpus of Maya Hieroglyphic Inscriptions, vol. 2, pt. 2. Peabody Museum, Cambridge, Massachusetts.Google Scholar
Graham, Ian 1980 Corpus of Maya Hieroglyphic Inscriptions, vol. 2, pt. 3. Peabody Museum, Cambridge, Massachusetts.Google Scholar
Graham, Ian, and von Euw, Eric 1975 Corpus of Maya Hieroglyphic Inscriptions, vol. 2, pts. 1-2. Peabody Museum, Cambridge, Massachusetts.Google Scholar
Greene Robertson, Merle 1972 Notes on the Ruins of Ixtutz, Southeastern Peten. Contributions of the University of California Archaeological Research Facility, Berkeley 16:89104.Google Scholar
Grube, Nikolai 1995 The Emergence of Lowland Maya Civilization: The Transition from the PreClassic to the Early Classic. Acta Mesoamericana 8.Google Scholar
Hansen, Richard 1993 Continuity and Disjunction: The Pre-Classic Antecedents of Classic Maya Architecture. In Function and Meaning in Classic Maya Architecture, edited by Steven Houston, pp. 49122. Dumbarton Oaks Research Library and Collection, Washington, D.C. Google Scholar
Healy, Paul 1992 The Ancient Ballcourt of Pacbitun, Belize. Ancient Mesoamerica 3:229239.Google Scholar
Hellmuth, Nicholas 1972 Excavations Begin at Maya Site in Guatemala. Archaeology 25:148149.Google Scholar
Hellmuth, Nicholas 1976 Maya Architecture of Nakum, El Petén, Guatemala. FLAAR Progress Reports 2(1).Google Scholar
Jones, Christopher 1969 The Twin Pyramid Group Pattern: A Classic Maya Architectural Assemblage at Tikal, Guatemala. Unpublished Ph.D. dissertation, Department of Anthropology, University of Pennsylvania, Philadelphia. University Microfilms, Ann Arbor.Google Scholar
Laporte, Juan Pedro 1993 Architecture and Social Change in Late Classic Maya Society: The Evidence from Mundo Perdido, Tikal. In Lowland Maya Civilization in the Eighth Century A.D., edited by Jeremy A. Sabloff and John S. Henderson, pp. 299320. Dumbarton Oaks Research Library and Collection, Washington, D.C. Google Scholar
Laporte, Juan Pedro, and Escobedo, Hector 1992 Ixtutz, Centra Rector al Oeste del Valle de Dolores, Peten. Mexicon 14(5):9098.Google Scholar
Laporte, Juan Pedro, and Fialko, Vilma 1990 New Perspectives on Old Problems: Dynastic References for the Early Classic at Tikal. In Vision and Revision in Maya Studies, edited by Flora Clancy and Peter Harrison, pp. 3366. University of New Mexico Press, Albuquerque.Google Scholar
Laporte, Juan Pedro, and Torres C., Rolando 1993 El Proyecto Sureste de Peten: Resultados del Programa Regional, 1985-1989. In III Simposio de Investigaciones Arqueológicas en Guatemala, edited by Juan Pedro Laporte et al., pp. 169182. Museo Nacional, Ministers de Cultura y Deportes, Instituto Antroplogía e Historia, and Asociacion Tikal, Tikal.Google Scholar
Lowe, Gareth 1989 Algunas Aclaraciones Sobre la Presencia Olmeca y Maya en el Preclasico de Chiapas. In El Preclásico o Formativo: Avances y Perspectivas, edited by M. Carmona. Museo Instituto Nacional de Antropología e Historia, Mexico City.Google Scholar
Matheny, Ray 1980 El Mirador, Peten, Guatemala: An Interim Report. New World Archaeological Foundation, Provo.Google Scholar
Maudslay, Alfred P. 1889-1902 Biologia Centrali-Americana: Archaeology. 5 vols. RH Porter and Dulau, London.Google Scholar
Morley, Sylvanus 1937-38 The Inscriptions of Peten. 5 vols. Carnegie Institution of Washington Publication, No. 427. Carnegie Institution of Washington, Washington, D.C. Google Scholar
Murdy, Cardon 1990 Tradiciones de Arquetectura Prehispanica en el Valle de Guatemala. Anales de laAcademia de Geografia e Historia de Guatemala 64:349397.Google Scholar
Pollock, Harry 1980 The Puuc. Memoirs of the Peabody Museum, Vol. 19. Peabody Museum, Cambridge, Massachusetts.Google Scholar
Rathje, William 1973 Trade Models and Archaeological Problems: The Classic Maya and Their E Group Complex. International Congress of Americanists 4:231235.Google Scholar
Ricketson, Oliver, and Ricketson, Elizabeth 1937 Uaxactun, Guatemala, Group E, 1926-31. Carnegie Institution of Washington, No. 477. Carnegie Institution of Washington, Washington, D.C. Google Scholar
Ruppert, Karl 1940 A Special Assemblage of Maya Structures. In The Maya and Their Neighbors: Essays on Middle American Anthropology and Archaeology, edited by Ralph Linton, Samuel K. Lothrop, Harry Shapiro, and George Vaillant, pp. 222231. D. Appleton-Century, New York.Google Scholar
Ruppert, Karl, and Dension, John 1943 Archaeological Reconnaissance in Campeche, Quintana Roo, and Peten. Carnegie Institution of Washington, No. 543. Carnegie Institution of Washington, Washington, D.C. Google Scholar
Scheie, Linda 1977 Palenque: The House of the Dying Sun. In Native American Astronomy, edited by Anthony F. Aveni, pp. 4256. University of Texas Press, Austin.Google Scholar
Smith, A. Ledyard 1950 Uaxactun, Guatemala: Excavations of 1931-1937. Carnegie Institution of Washington, No. 588. Carnegie Institution of Washington, Washington, D.C. Google Scholar
Sprajc, Ivan 2000 Architectural Alignments and Observational Calendars in Prehispanic Central Mexico. In Astronomy and Cultural Diversity, edited by César Esteban and Juan Antonio Belmonte, pp. 107114. Organismo Autónomo de Museos del Cabildo de Tenerife, Las Canarias..Google Scholar
Sprajc, Ivan 2001 Orientaciónes Astronomicas en la Arquitectura Prehispánica del Centro de México. Instituto Nacional de Antropología e Historia (Col. Cient. 427), Mexico City.Google Scholar
Sprajc, Ivan, Florentino, Garcia C., and Heber, Ojeda M. 1997 Reconocimiento Arqueologico en el sureste de Campeche, Mexico: Informe Preliminar. Mexicon 19:512.Google Scholar
Tate, Carolyn 1992 Yaxchilan: The Design of a Ceremonial City. University of Texas Press, Austin.Google Scholar
Tedlock, Dennis 1985 Popol Vuh: The Mayan Book of the Dawn of Life. Simon and Schuster, New York.Google Scholar
Thompson, J. Eric S. 1931 Archaeological Investigations in the Southern Cayo District, British Honduras. Field Museum of Natural History Anthropology Series 17(3).Google Scholar
Tozzer, Alfred 1913 A Preliminary Study of the Ruins of Nakum, Guatemala. Mem. Peabody Museum 5:137201.Google Scholar
Urrutia, E. Claudio (editor) 1964 Atlas Climatológico de Guatemala. Observatorio Nacional IAN, Guatemala City.Google Scholar
Valdés, Juan Antonio 1995 Desarrollo Cultural y Senales de Alarma Entre los Mayas: El Preclasico Tardio y la Transición hacia el Clasico Temprano. Acta Mesoamericana 8:7186.Google Scholar
Valdés, Juan Antonio, and Fahsen, Federico 1995 The Reigning Early Dynasty of Uaxactun during the Early Classic. Ancient Mesoamerica 6:197219.Google Scholar
Willey, Gordon R., Bullard, William Jr., Glass, John, and Gifford, James 1965 Prehistoric Maya Settlements in the Belize Valley. Papers of the Peabody Museum of Archaeology and Ethnology, Vol. 54. Harvard University, Cambridge.Google Scholar
Wisdom, Charles 1940 The Chorti Indians of Guatemala. University of Chicago Publications in Anthropology, Ethnological Series. University of Chicago Press, Chicago.Google Scholar
World Weather Disc 1988 Worldwide Airfield Summaries, Seattle.Google Scholar