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Use of the Little-Known Local Obsidian Source of Ojo Zarco at La Magdalena in Guanajuato, Mexico

Published online by Cambridge University Press:  21 October 2022

Blaine K. Burgess*
Affiliation:
University of Missouri, Department of Anthropology, Columbia, MO, USA
Daniel E. Pierce
Affiliation:
University of Central Florida, Department of Anthropology, Orlando, FL, USA
Jeffrey R. Ferguson
Affiliation:
University of Missouri, Department of Anthropology and Archaeometry Laboratory at MURR, Columbia, MO, USA
*
(bkbgess@gmail.com, corresponding author)
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Abstract

Excavations conducted by Beloit College in 1958 and 1960 identified the site of La Magdalena in the Bajío of Mexico. Investigators have since highlighted three primary phases of occupation at La Magdalena, two of which were proposed to have been culturally influenced by Teotihuacan or Tula. Modern research in the Bajío mostly diverges from those postulations of distant connections, supplanting them with local patterns that hold much more explanatory power. Archaeometric studies are pivotal in this regard but have thus far been infrequently used. This research analyzes the obsidian assemblage from La Magdalena and finds a nearly ubiquitous utilization of a local obsidian source known as Ojo Zarco. These findings merit a reevaluation of obsidian in the eastern Bajío and argue for more archaeometric studies that elucidate local procurement patterns.

Las excavaciones realizadas por Beloit College en 1958 y 1960 identificaron el sitio de La Magdalena en el Bajío de México. Los investigadores destacaron tres fases principales de ocupación en La Magdalena, dos de las cuales se propusieron haber sido culturalmente influenciadas por los principales centros de Teotihuacan y Tula. La investigación moderna en el Bajío diverge en su mayoría de esas postulaciones de conexiones distantes y las ha suplantado con patrones locales que tienen mucho más poder explicativo. Los estudios arqueométricos son fundamentales en este sentido, pero hasta ahora se han utilizado con poca frecuencia. Esta investigación analiza el conjunto de obsidiana de La Magdalena y encuentra una utilización casi ubicua de una fuente local de obsidiana conocida como Ojo Zarco. Estos hallazgos ameritan una reevaluación de la obsidiana en el Bajío oriental y más estudios arqueométricos que eluciden los patrones de obtención locales.

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Report
Creative Commons
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of the Society for American Archaeology

In 1962, William Simpson Godfrey Jr. and Beatriz Braniff de Torres concluded their manuscript titled Archaeology of the Bajío with this statement: “The authors [have] speculated beyond present knowledge, only hoping that future investigations will be stimulated by our flights of fancy.” The current research is an outgrowth of their work in that it chemically characterizes the obsidian at the site of La Magdalena.

La Magdalena, located in the Bajío of Mexico, was excavated in 1958 and 1960 by Godfrey and students from Beloit College (Wisconsin, USA; Godfrey and Braniff de Torres Reference Godfrey and de Torres1962). They identified three phases through similarities in material culture to that found elsewhere in the Basin of Mexico. In this report, we add to the growing body of archaeometric literature in the Bajío by chemically characterizing the obsidian at La Magdalena. This research is also meant to breathe new life into a decades-old museum collection, recognizing the utility of insufficiently studied older collections. We summarize the results of a study of obsidian procurement and briefly hypothesize about its use at La Magdalena. Overall, our data indicate that a vast majority of the obsidian does not compositionally match any known obsidian source in the comparative database at the University of Missouri Research Reactor (MURR). Rather, most are chemically consistent with a single geological sample from an obsidian source known as Ojo Zarco. Artifacts from the Ucareo and Zaragoza obsidian sources were also identified, but in significantly smaller numbers.

The Site

La Magdalena is located in eastern Guanajuato, north of the eastern Michoacán Highlands (Figure 1). Excavations revealed a plaza/patio architectural style with three main structural zones (Figure 2). Three phases of occupation were delineated from ceramic typology and construction events (Raleigh Reference Raleigh1986). La Magdalena was previously dated to the Postclassic and interpreted as a miniature version of the Corral Complex at Tula (Brown Reference Brown, Foster and Weigand1985). We summarize findings from field records (Table 1) and add our obsidian analysis in this report.

Figure 1. La Magdalena in the eastern Bajío of Mexico, showing the main polities and various obsidian sources.

Figure 2. Drawing of La Magdalena modified from Raleigh (Reference Raleigh1986).

Table 1. Summary of Construction Phases.

Source: Based on Raleigh (Reference Raleigh1986).

Phase II was the first robust occupation at La Magdalena. The Bajío Tradition (AD 400–900) was the culmination of population and political complexity (Cárdenas García Reference Cárdenas García1999) and roughly corresponds to the Classic period. It was initiated by agriculturalists, with kinship sociopolitical organizations bolstered by exchange and accompanied by circular structures, mounds, sunken patios, and platforms (Filini and Cárdenas García Reference Filini, García and Faugère-Kalfon2010).

Regional influences have been studied in the Bajío. Thin Orange ceramics and Pachuca obsidian at La Negreta, Queretaro, and Santa María del Refugio (Filini and Cárdenas García Reference Filini, García and Faugère-Kalfon2010) represent proposed rare correlations with Central Mexico. In more distant areas like Jalisco (Beekman Reference Beekman2010) and La Quemada in Zacatecas (Torvinen and Nelson Reference Torvinen and Nelson2020), as well as much of Guanajuato, these correlations are dated just prior or during the Epiclassic (AD 700–900). More substantial connections also existed, such as El Rosario's murals dated to AD 200–250 (Helmke and Nielsen Reference Helmke and Nielsen2021:36). Compositional and petrographic analyses on Thin Orange ceramics in the Bajío have mostly produced evidence of local imitations (Faugère et al. Reference Faugère, Pierce and Cabadas-Báez2019), but ceramic/chronological work has suggested new lines of inquiry concerning relationships with Central Mexico, as well as other local traditions (Healan and Hernández Reference Healan and Hernández2022).

Phase III includes major site modifications. Ceramics include Red-on-buff and White Brushed traditions that are similar to Red-on-buff and Blanco Levantado at Tula dated to the Terminal Corral phase (about AD 900; Healan et al. Reference Healan, Cobean and Bowsher2021). A type of Red-on-buff ceramic known as Coyotlatelco is broadly hypothesized to have originated either in the Basin of Mexico (Sanders Reference Sanders and Sanders1986) or to the northwest in regions like the Bajío (Manzanilla Reference Manzanilla and Manzanilla2005). No matter its origin, Coyotlatelco is associated with the earliest occupations at Tula (Healan et al. Reference Healan, Cobean and Bowsher2021) and elsewhere. A neutron activation analysis (NAA) study of Coyotlatelco manufacture confirmed local production and the presence of “important subregional stylistic and morphological differences” (Crider et al. Reference Crider, Nichols, Neff and Glascock2007:139). The addition of these ceramics and the columnar architecture (see Table 1) are consistent with Tula's relationship in the eastern Bajío (Beekman and Christensen Reference Beekman, Christensen, Cabana and Clark2011:157).

Methods

A total of 600 obsidian artifacts were excavated from La Magdalena, including 21 prismatic blades, 13 projectile points, 3 scrapers, 9 bifaces, and 554 pieces of debitage (this category includes utilized flakes, shatter, and any byproducts of reduction). Due to time constraints, only 443 of the 600 artifacts, including all the formal tools and a significant percentage of the debitage, were chemically analyzed. The debitage was randomly sampled, resulting in the analysis of 397 of the 554 pieces.

A Bruker Tracer V-I ED-XRF was operated at 50 kV and 35 μA, with instrument specifications including a rhodium X-ray tube, a thermoelectrically cooled silicon drift detector, and synchronous X-ray filters including copper (150 μm), titanium (300 μm), and aluminum (50 μm; Ferguson Reference Ferguson, Shugar and Mass2012). The instrument is calibrated based on 37 well-characterized obsidian sources built from previous instrument measurements (Glascock and Ferguson Reference Glascock and Ferguson2012). Each artifact was analyzed for 20 s to detect five elements: rubidium (Rb), strontium (Sr), yttrium (Y), zirconium (Zr), and niobium (Nb). Data from known Mesoamerican obsidian sources were collected under the same parameters to affirm adequate instrument measurements (see Supplemental Table 1).

Results

Three obsidian sources were identified: Ucareo, Zaragoza, and Ojo Zarco. Ucareo and Zaragoza are well documented and were frequent sources of obsidian in Mesoamerican prehistory. The lesser-known third source is Ojo Zarco, located approximately 25 km northwest of La Magdalena. Davis and Brown (Reference Davis and Brown1989) were the first to describe this source in field surveys, noting the obsidian was black, free of inclusions, and consisted of nodules ranging from the size of tennis balls to basketballs. Obsidian from this source can also appear gray and brown under certain lighting conditions (Figure 3).

Figure 3. Photos of Ojo Zarco debitage. (Color online)

Ojo Zarco obsidian has only been sparsely documented in Texas (Hester et al. Reference Hester, Glascock, Asaro and Stross2017; Hughes and Hester Reference Hughes and Hester2009), and its use in the Bajío has been referenced anecdotally (Cárdenas García Reference Cárdenas García1999; Migeon Reference Migeon, Williams and Maldonado2016). Artifacts show Zirconium (Zr) concentrations ranging from approximately 1,000 to 1,200 ppm (Figure 4). The one accessible geological sample from Ojo Zarco consistently plots well within the data cloud for La Magdalena obsidian, affirming the source of these artifacts (Figure 5). Obsidian is the most common reductive artifact at La Magdalena, mostly originating from Ojo Zarco in the form of debitage, whereas ceramics are far more common (Table 2).

Figure 4. Rubidium versus zirconium concentrations for La Magdalena obsidian, with 90% confidence ellipses for obsidian sources.

Figure 5. Zirconium versus niobium concentrations for obsidian artifacts and Ojo Zarco source (in red). (Color online)

Table 2. Count of Obsidian and Ceramics.

Discussion

Ucareo and Zaragoza are the sources of the nonlocal obsidian identified at La Magdalena. Zaragoza was widely distributed (e.g., García Cook et al. Reference García Cook, Tenorio, Jiménez-Reyes, Monroy-Guzmán and López-Reyes2010) but is inconspicuous at La Magdalena. To the south in the Acámbaro Valley (about AD 50–320), blades from Ucareo were found in caches (Darras and Faugère Reference Darras, Faugère and Solar2010) and were also widely used (e.g., Pollard Reference Pollard2008). Procurement patterns of blade importation and local source utilization have been similarly reported at Postlassic Aztatlán sites with Volcán las Navajas (Pierce Reference Pierce2016).

Ojo Zarco's preponderance at La Magdalen has broad implications for the use of obsidian in the eastern Bajío and for archaeometric studies in the eastern Bajío. La Magdalena is hypothesized to be a ceremonial site based on evidence of ritual paraphernalia and contexts. Later occupations include modifications that may indicate habitation (see Table 1). It is therefore possible that both habitation and ceremonialism took place there, though they may not have been mutually exclusive. Technological analysis of the obsidian could thus elucidate site function.

If the Bajío Tradition was indeed kinship based, in which sociopolitical organizations were bolstered by exchange (Filini and Cárdenas García Reference García Cook, Tenorio, Jiménez-Reyes, Monroy-Guzmán and López-Reyes2010), then a fluid exchange of goods might be expected. Two compelling implications follow. First, La Magdalena may be the lone example of Ojo Zarco procurement. If this is the case, more investigations should then continue to parcel out differences in access to local and imported obsidian. Second, Ojo Zarco may not be a lone case at La Magdalena but was misidentified and is intermingled among obsidian assemblages throughout the region. If true, a reevaluation of regional obsidian studies is warranted.

For example, Faugère and colleagues (Reference Faugère, Pierce and Cabadas-Báez2019) note gray and green obsidian at El Mezquital–Los Azules in the Acámbaro Valley. Visual assessment concludes that the green obsidian is from Pachuca, whereas the gray remains unassigned. Although visual sourcing has proven to be effective in some regions (e.g., Braswell et al. Reference Braswell, Clark, Aoyama, McKillop and Glascock2000; Pierce Reference Pierce2015), it is complicated when sources in a region appear similar to each other. Geochemical analyses could be an important complement to better delineate where lesser-known local obsidian sources may have been used.

Conclusion

La Magdalena obtained obsidian locally from Ojo Zarco and selectively imported Ucareo obsidian. This degree of use of Ojo Zarco obsidian found in La Magdalena has yet to be identified elsewhere. Therefore, we suspect that Ojo Zarco was procured for cost-effective and expedient purposes, whereas technologies such as blades were imported and overshadowed a minimal local blade industry. Ojo Zarco obsidian possibly retained some nonutilitarian value as well, however, because it was found in a burial in the Central Plaza. There is therefore still much to learn about the extent of Ojo Zarco procurement, use, and exchange. We suggest that a reevaluation of obsidian studies within the Bajío, particularly those that have been limited to visual sourcing, would be beneficial for archaeometric research and subsequent interpretations of local obsidian utilization.

Acknowledgments

We thank Shannon Fie, Nicolette Meister, and the Logan Museum of Anthropology for unwavering guidance and support throughout this project. We also thank Mike Glascock, Tom Hester, and Marc Levine for their feedback and assistance. Partial funding was provided by NSF grant #1912776 to the Archaeometry Laboratory at MURR.

Data Availability Statement

Archival information concerning La Magdalena is curated at the Logan Museum of Anthropology in Beloit, Wisconsin.

Supplemental Material

To view supplemental material for this article, please visit http://doi.org/10.48512/XCV8468895.

Supplemental Table 1. La Magdalena Obsidian XRF Data.

Competing Interests

The authors declare none.

References

References Cited

Beekman, Christopher S. 2010 Recent Research in Western American Archaeology. Journal of Archaeological Research 18:41109.CrossRefGoogle Scholar
Beekman, Christopher S., and Christensen, Alexander F. 2011 Power, Agency, and Identity: Migration and Aftermath in the Mezquital Area of North-Central Mexico. In Rethinking Anthropological Perspectives on Migration, edited by Cabana, Graciela S. and Clark, Jeffery J., pp. 147172. University Press of Florida, Gainesville.CrossRefGoogle Scholar
Braswell, Geoffrey E., Clark, John E., Aoyama, Kazuo, McKillop, Heather I., and Glascock, Michael D. 2000 Determining the Geological Provenance of Obsidian Artifacts from the Maya Region: A Test of the Efficacy of Visual Sourcing. Latin American Antiquity 11:269282.CrossRefGoogle Scholar
Brown, Roy B. 1985 A Synopsis of the Archaeology of the Central Portion of the Northern Frontier of Mesoamerica. In The Archaeology of West and Northwest Mesoamerica, edited by Foster, Michael S. and Weigand, Phil C., pp. 219236. Routledge, New York.Google Scholar
Cárdenas García, Efraín 1999 El Bajío en el Clásico: Análisis regional y organización política. El Colegio de Michoacán, Zamora, Michoacán, Mexico.Google Scholar
Crider, Destiny, Nichols, Deborah L., Neff, Hector, and Glascock, Michael D. 2007 In the Aftermath of Teotihuacan: Epiclassic Pottery Production and Distribution in the Teotihuacan Valley, Mexico. Latin American Antiquity 18:123143.CrossRefGoogle Scholar
Darras, Véronique, and Faugère, Brigitte 2010 Reacomodos culturales en el Valle de Acámbaro al final del Formativo: La Fase Mixtlán y su significado local y global. In El sistema fluvial Lerma-Santiago durante el Formativo y el Clásico temprano: Precisiones cronológicas y dinámicas culturales, edited by Solar, Laura, pp. 287318. INAH, Mexico City.Google Scholar
Davis, Clint, and Brown, David O. 1989 Ojo Zarco: A New Obsidian Source in the Eastern Bajío of Guanajuato, Mexico. Manuscript on file, University of Texas at Austin, Department of Anthropology.Google Scholar
Faugère, Brigitte, Pierce, Daniel E., and Cabadas-Báez, Héctor 2019 Teotihuacan Neighborhoods’ Expansion in Northwestern Mexico: Cultural Implications and Social Processes from Ceramic Analysis of El Mezquital-Los Azules, Guanajuato. Journal of Anthropological Archaeology 56:101116.CrossRefGoogle Scholar
Ferguson, Jeffrey R. 2012 X-Ray Fluorescence of Obsidian: Approaches to Calibration and the Analysis of Small Samples. In Handheld XRF for Art and Archaeology, edited by Shugar, Aaron N. and Mass, Jennifer L., pp. 401422. Leuven University Press, Leuven, Belgium.Google Scholar
Filini, Agapi, and García, Efraín Cárdenas 2010 El Bajío, la Cuenca de Cuitzeo y el Estado Teotihuacano: Un estudio de relaciones y antagonismos. In Dinámicas culturales entre el Occidente, el Centro-Norte y la Cuenca de México, del Preclásico al Epiclásico, edited by Faugère-Kalfon, Brigitte, pp. 137154. Centro de Estudios Mexicanos y Centroamericanos, El Colegio de Michoacán, Zamora, Michoacán, Mexico.10.4000/books.cemca.1056CrossRefGoogle Scholar
García Cook, Ángel, Tenorio, Dolores, Jiménez-Reyes, Melania, Monroy-Guzmán, Fabiola, and López-Reyes, Carmen 2010 Estudio de procedencia de obsidiana arqueológica de Cantona, Puebla. Arqueología, Segunda Época 43:217229.Google Scholar
Glascock, Michael D., and Ferguson, Jeffrey R. 2012 Report on the Analysis of Obsidian Source Samples by Multiple Analytical Methods. University of Missouri Archaeometry Laboratory, Columbia.Google Scholar
Godfrey, William S., and de Torres, Beatriz Braniff 1962 Archaeology of the Bajio. Manuscript on file, Logan Museum of Anthropology, Beloit College, Wisconsin.Google Scholar
Healan, Dan M., Cobean, Robert H., and Bowsher, Robert T. 2021 Revised Chronology and Settlement History of Tula and the Tula Region. Ancient Mesoamerica 32:165186.10.1017/S095653612000022XCrossRefGoogle Scholar
Healan, Dan M., and Hernández, Christine 2022 Ceramic Sequence, Chronology, and Cultural Dynamics of the Ucareo-Zinapécuaro, Michoacán Obsidian Source Area. Ancient Mesoamerica. DOI:10.1017/S0956536121000092.Google Scholar
Helmke, Christophe, and Nielsen, Jesper 2021 Teotihuacan Writing: Where are We Now? Visible Language 55(2):2973.CrossRefGoogle Scholar
Hester, Thomas R., Glascock, Michael D., Asaro, Frank, and Stross, Fred H. 2017 Recent Data on Mesoamerican Obsidian from Archeological Sites in the Rio Grande Delta and Other Areas in Southern Texas. Bulletin of the Texas Archaeological Society 88:7795.Google Scholar
Hughes, Richard E., and Hester, Thomas R. 2009 Geochemical Evidence for a Mexican Source of Origin for an Obsidian Artifact from South Central Texas. Bulletin of the Texas Archeological Society 80:7784.Google Scholar
Manzanilla, Linda 2005 Migrantes epiclásicos en Teotihuacan: Propuesta metodológica para análisis de migraciones del Clásico al Posclásico. In Reacomodos demográficos del Clásico al Posclásico en el centro de México, edited by Manzanilla, Linda, pp. 261274. Universidad Nacional Autónoma de México Instituto de Investigaciones Antropológicas, Mexico City.Google Scholar
Migeon, Gérald 2016 The Cerro Barajas Sites during the Epiclassic Period: Local Resources and Imported Products. In Cultural Dynamics and Production Activities in Ancient Western Mexico, edited by Williams, Eduardo and Maldonado, Blanca, pp. 2944. Archaeopress, Oxford.CrossRefGoogle Scholar
Pierce, Daniel E. 2015 Visual and Geochemical Analyses of Obsidian Source Use at San Felipe Aztatán, Mexico. Journal of Anthropological Archaeology 40:266279.CrossRefGoogle Scholar
Pierce, Daniel E. 2016 Volcán Las Navajas: The Chemical Characterization and Usage of a West Mexican Obsidian Source in the Aztatlán Tradition. Journal of Archaeological Science: Reports 6:603609.Google Scholar
Pollard, Helen P. 2008 A Model of the Emergence of the Tarascan State. Ancient Mesoamerica 19:217230.10.1017/S0956536108000369CrossRefGoogle Scholar
Raleigh, Charles P. 1986 La Magdalena: Archaeology in the Eastern Bajío. Manuscript on file, Logan Museum of Anthropology, Beloit College, Wisconsin.Google Scholar
Sanders, William T. 1986 Ceramic Chronology. In The Teotihuacan Valley Project, Final Report: 4. The Toltec Period Occupation, edited by Sanders, William T., pp. 367373. Occasional Papers in Anthropology No. 13. Department of Anthropology, Pennsylvania State University, State College.Google Scholar
Torvinen, Andrea, and Nelson, Ben A. 2020 Refinement of the Chronology of La Quemada, Zacatecas, Mexico, Using Ceramic Seriation. Latin American Antiquity 31:6180.CrossRefGoogle Scholar
Figure 0

Figure 1. La Magdalena in the eastern Bajío of Mexico, showing the main polities and various obsidian sources.

Figure 1

Figure 2. Drawing of La Magdalena modified from Raleigh (1986).

Figure 2

Table 1. Summary of Construction Phases.

Figure 3

Figure 3. Photos of Ojo Zarco debitage. (Color online)

Figure 4

Figure 4. Rubidium versus zirconium concentrations for La Magdalena obsidian, with 90% confidence ellipses for obsidian sources.

Figure 5

Figure 5. Zirconium versus niobium concentrations for obsidian artifacts and Ojo Zarco source (in red). (Color online)

Figure 6

Table 2. Count of Obsidian and Ceramics.

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