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The first direct evidence for the production of Maya Blue: rediscovery of a technology

Published online by Cambridge University Press:  02 January 2015

Dean E. Arnold ,
Jason R. Branden ,
Patrick Ryan Williams ,
Gary M. Feinman  and
J. P. Brown
Dean E. Arnold
Affiliation:
Department of Sociology-Anthropology, Wheaton College, Wheaton, Illinois 60187, USA (Email: [email protected])
Jason R. Branden
Affiliation:
Department of Materials Science and Engineering, Northwestern University, Evanston, Illinois, USA (Email: [email protected])
Patrick Ryan Williams
Affiliation:
Department of Anthropology, Field Museum of Natural History, Chicago, Illinois, USA (Email: [email protected])
Gary M. Feinman
Affiliation:
Department of Anthropology, Field Museum of Natural History, Chicago, Illinois, USA (Email: [email protected])
J. P. Brown
Affiliation:
Department of Anthropology, Field Museum of Natural History, Chicago, Illinois, USA (Email: [email protected])
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Extract

Maya Blue is a colour that is more than a pigment; it had roles in status, ritual and performance, being daubed onto pots and people before sacrifice. Here researchers use experimental and historical evidence to discover how it was made, including direct scientific analysis of Maya Blue on a pot thrown into the sacred well at Chichén Itzá. The results indicate that the formation of the colour was actually part of the ritual.

Keywords

MayaChichén ItzáMaya Bluesacrificeritualincensepalygorskiteindigo
Type
Research article
Information
Antiquity , Volume 82 , Issue 315 , March 2008 , pp. 151 - 164
Copyright
Copyright © Antiquity Publications Ltd 2008

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References

Anda Alanís, G. de. 2007. Sacrifice and ritual body mutilation in Postclassical Maya society: taphonomy of the human remains from Chichén Itzá's Cenote Sagrado, in Tiesler, V. & Cucina, A. (ed.) New Perspectives on Human Sacrifice and Ritual Body Treatments in Ancient Maya Society: 190208. New York: Springer.Google Scholar
Arnold, D.E. 1967. Sak lu'um in Maya culture and its possible relationship to Maya Blue (Department of Anthropology Research Reports 2). Urbana (IL): University of Illinois.Google Scholar
Arnold, D.E. 1971. Ethnomineralogy of Ticul, Yucatán potters: etics and emics. American Antiquity 36: 2040.Google Scholar
Arnold, D.E. 1987. The evidence for pre-Columbian indigo in the New World. Antropología y Técnica 2: 5384. Mexico, D. F.: Universidad Nacional Autónoma de México.Google Scholar
Arnold, D.E. 2005. Maya Blue and palygorskite: a second possible pre-Columbian source. Ancient Mesoamerica 16: 5162.Google Scholar
Arnold, D.E. & Bohor, B.F.. 1975. Attapulgite and Maya Blue: an ancient mine comes to light. Archaeology 28 (January): 23–9.Google Scholar
Arnold, D.E. & Bohor, B.F.. 1976. An ancient attapulgite mine in Yucatán. Katunob 8 (4) (June 1974): 2534.Google Scholar
Arnold, D.E., Neff, H., Glascock, M.D. & Speakman, R.J.. 2007. Sourcing the palygorskite used in Maya Blue: a pilot study comparing the results of INAA and LA-ICP-MS. Latin American Antiquity 18 (1): 4458.Google Scholar
Ball, J. & Ladd, J.. 1992. Ceramics, in Coggins, C.C. (ed.) Artifacts from the Cenote of Sacrifice, Chichén Itzá, Yucatán (Memoirs of the Peabody Museum of Archaeology & Ethnology, Harvard University, 10/3): 191233. Cambridge (MA): Peabody Museum of Archaeology & Ethnology, Harvard University.Google Scholar
Cabrera Garrido, J.M. 1969. El ‘Azul Maya’ (Informes y Trabajos del Instituto de Conservación y Restauración de Obras de Arte, Arqueología y Etnología 8). Madrid.Google Scholar
Carroll, D. 1970. Clay Minerals: a guide to their x-ray identification (Geological Society of America Special Paper 126). Boulder (CO): Geological Society of America.Google Scholar
Chianelli, R.R., Perez de L Rosa, M., Meitzner, G., Siadati, M., Berhault, G., Mehta, A., Pople, J., Fuentes, S., Alonzo-Nunez, G. & Polette, L.A.. 2005. Synchrotron and simulations techniques applied to problems in materials science: catalysts and azul Maya pigments. Journal of Synchrotron Radiation 12: 129–34.Google Scholar
Chiari, G., Giustetto, R. & Ricchiardi, G.. 2003. Crystal structure refinements of palygorskite and Maya Blue from molecular modelling and powder synchrotron diffraction. European Journal of Mineralogy 15: 2133.Google Scholar
Coggins, C.C. 1992. Dredging the Cenote, in Coggins, C.C. (ed.) Artifacts from the Cenote of Sacrifice, Chichén Itzá, Yucatán (Memoirs of the Peabody Museum of Archaeology & Ethnology, Harvard University, 10/3): 931. Cambridge (MA): Peabody Museum of Archaeology & Ethnology, Harvard University.Google Scholar
Coggins, C.C. & Ladd, J.M.. 1992. Wooden artifacts, in Coggins, C.C. (ed.) Artifacts from the Cenote of Sacrifice, Chichén Itzá, Yucatán (Memoirs of the Peabody Museum of Archaeology & Ethnology, Harvard University, 10/3): 235344. Cambridge (MA): Peabody Museum of Archaeology & Ethnology, Harvard University.Google Scholar
Fernández, M.E., Ascencio, J.A., Mendoza-Anaya, D., Rodríguez Lugo, V. & José-Yacamán, M.. 1999. Experimental and theoretical studies of palygorskite clays. Journal of Materials Science 34: 5243–55.Google Scholar
Fois, E., Gamba, A. & Tilocca, A.. 2003. On the unusual stability of Maya Blue paint: molecular dynamics simulations. Microporous and Mesoporous Materials 57: 263–72.Google Scholar
Folan, W.J. 1969. Sacalum, Yucatán: a pre-Hispanic and contemporary source of attapulgite. American Antiquity 34: 182–3.Google Scholar
Galan, E. 1996. Properties and applications of palygorskite-sepiolite clays. Clay Minerals 31: 443–53.Google Scholar
Gettens, R.J. 1955. Identification of pigments of mural paintings from Bonampak, Chiapas, Mexico, in Ruppert, K., Thompson, J.E.S. & Proskouriakoff, T. (ed.) Bonampak, Chiapas, Mexico (Carnegie Institution of Washington Publication 602): 67. Washington (D.C.): Carnegie Institution of Washington.Google Scholar
Gettens, R.J. 1962. Maya Blue: an unsolved problem in ancient pigments. American Antiquity 27: 557–64.Google Scholar
Giustetto, R., Llabrés i Xamena, F.X., Ricchiardi, G., Bordiga, S., Damin, A., Gobetto, R. & Chierotti, M.R.. 2005. Maya Blue: a computational and spectroscopic study. Journal of Physical Chemistry B 190 (41): 19360–8.Google Scholar
Haude, M.E. 1998. Identification of colorants on maps from the early Colonial period of New Spain (Mexico). Journal of the American Institute for Conservation 37: 240–70.Google Scholar
Hooton, E.A. 1940. Skeletons from the Cenote of Sacrifice at Chichén Itzá, in Hay, C.L., Linton, R., Lothrop, S.K., Shapiro, H. & Vaillant, G.C. (ed.) Maya and Their Neighbors: Essays on Middle American Anthropology and Archaeology: 272–80. New York: Appleton Century.Google Scholar
Hubbard, B., Kuang, W., Moser, A., Facey, G.A. & Detellier, C.. 2003. Structural study of Maya Blue: textural, thermal, and solid-state multinuclear magnetic resonance characterization of the palygorskite-indigo and sepiolite-indigo adducts. Clays and Clay Minerals 51: 318–26.Google Scholar
José-Yacamán, M. & Serra Puche, M.C.. 1995. High resolution electron microscopy of Maya Blue paint. Materials Research Society Symposium Proceedings 352: 311. Pittsburgh (PA): Materials Research Society.Google Scholar
José-Yacamán, M., Rendón, L., Arenas, J. & Serra Puche, M.C.. 1996. Maya Blue paint: an ancient nanostructured material. Science 273: 223–5.Google Scholar
Kleber, R., Masschelein-Kleiner, L. & Thissen, J.. 1967. Etude et identification du ‘Bleu Maya’. Studies in Conservation 12: 4156.Google Scholar
Littmann, E.R. 1982. Maya Blue – further perspectives and the possible use of indigo as the colorant. American Antiquity 47: 404–8.Google Scholar
Merwin, H.E. 1931. Chemical analysis of pigments, in Morris, E.H., Charlot, J. & Morris, A.A. (ed.) The Temple of the Warriors at Chicken Itzá, Yucatán (Carnegie Institution of Washington Publication 406): 355–6. Washington (D.C.): Carnegie Institution of Washington.Google Scholar
Miller, M. & Martin, S.. 2004. Courtly Art of the Ancient Maya. London: Thames & Hudson.Google Scholar
Ortega, M., Ascencio, J.A., San Germán, C.M., Fernández, M.E., López, L. & José-Yacamán, M.. 2001a. Analysis of prehispanic pigments from ‘Templo Mayor’ of Mexico City. Journal of Materials Science 36: 751–6.Google Scholar
Ortega-Avilés, M., San-Germán, C.M., Mendoza-Anaya, D., Morales, D. & José-Yacamán, M.. 2001b. Characterization of mural paintings from Cacaxtla. Journal of Materials Science 36: 2227–36.Google Scholar
Polette, L., Ugarte, N. & Chianelli, R.. 2000. In-situ identification of palygorskite in Maya Blue samples using synchrotron x-ray powder diffraction. Presented at the Workshop on Synchrotron Radiation in Art and Archaeology, Stanford Synchrotron Radiation Laboratory (SSRL), 18 October 2000. Accessed at http://srs.dl.ac.uk/arch/ssrl/maya-blue.html on March 11, 2005.Google Scholar
Reinen, D., Köhl, P. & Müller, C.. 2004. The nature of the colour centres in ‘Maya Blue’ - the incorporation of organic pigment molecules into the palygorskite lattice. Zeitschrift für Anorganische und Allgemeine Chemie 630: 97103.Google Scholar
Reyes-Valerio, C. 1993. De Bonampak al Templo Mayor: El Azul Maya en Mesoamérica (Colección América nuestra 40). Mexico, D.F.: Siglo Veintiuno/Agro Asemex.Google Scholar
Sánchez del Río, M., Martinetto, P., Somogyi, A., Reyes-Valerio, C., Dooryhée, E., Peltier, N., Alianelli, L., Moignard, B., Pichon, L., Calligaro, T. & Dran, J.-C.. 2004. Microanalysis study of archaeological mural samples containing Maya Blue pigment. Spectrochimica Acta Part B. 59: 1619–25.Google Scholar
Sánchez del Río, M., Martinetto, P., Reyes-Valerio, C., Dooryhée, E. & Suarez, M.. 2006. Synthesis and acid resistance of Maya Blue pigment. Archaeometry 48 (1): 115–30.Google Scholar
Shepard, A.O. 1962. Maya Blue: alternative hypotheses. American Antiquity 27: 565–6.Google Scholar
Shepard, A.O. & Gottlieb, H.B.. 1962. Maya Blue: alternative hypotheses (Notes from a Ceramic Laboratory 1) Washington (D.C.): Carnegie Institution of Washington.Google Scholar
Shepard, A.O. & Pollock, H.E.D.. 1971. Maya Blue: an updated record (Notes from a Ceramic Laboratory 4). Washington (D.C.): Carnegie Institution of Washington.Google Scholar
Smith, R.E. 1971. The Pottery of Mayapan (Papers of the Peabody Museum of Archaeology & Ethnology 66, Parts 1 & 2). Cambridge (MA): Peabody Museum of Archaeology & Ethnology, Harvard University.Google Scholar
Stross, B. 2007. Mesoamerican copal resins. Paper in Mesoamerican Ethnobotany, Anthropology 393. Accessed at http://www.utexas.edu/courses/stross/papers/copal.htm on July 25, 2007.Google Scholar
Tagle, A.A., Paschinger, H., Richard, H. & Infante, G.. 1990. Maya Blue: its presence in Cuban Colonial wall paintings. Studies in Conservation 35: 156–9.Google Scholar
Torres, L.M. 1988. Maya Blue: how the Mayas could have made the pigment. Materials Issues in Art and Archaeology, Proceedings of the Materials Research Society 123: 123–8. Pittsburgh (PA): Materials Research Society.Google Scholar
Tozzer, A.M. 1941 [1566]. Landa's Relación de los Cosas de Yucatán: a Translation (Papers of the Peabody Museum of Archaeology & Ethnology Harvard 18.). Cambridge (MA): Peabody Museum of Archaeology & Ethnology, Harvard University.Google Scholar
Tozzer, A.M. 1957. Chichén Itzá and its Cenote of Sacrifice: A Comparative Study of the Contemporaneous Maya and Toltec (Memoirs of the Peabody Museum of Archaeology & Ethnology Harvard University, 11 & 12). Cambridge (MA): Peabody Museum of Archaeology & Ethnology, Harvard University.Google Scholar
Van Olphen, H. 1966. Maya Blue: a clay-organic pigment? Science 154: 645–6.Google Scholar