Hostname: page-component-848d4c4894-x5gtn Total loading time: 0 Render date: 2024-05-30T21:31:28.364Z Has data issue: false hasContentIssue false
  • English
  • Français

Indigenous Agave Use in the Ocampo Caves Vicinity, Tamaulipas, Mexico

Published online by Cambridge University Press:  23 June 2023

J. Kevin Hanselka Open the ORCID record for J. Kevin Hanselka [Opens in a new window]
J. Kevin Hanselka*
Affiliation:
Texas Department of Transportation, Environmental Affairs Division, Archeological Studies Branch, Austin, TX, USA
*
Corresponding author: J. Kevin Hanselka, Email: khanselk@yahoo.com
Get access Rights & Permissions [Opens in a new window]

Abstract

The symbiotic relationship between people and the genus Agave spans millennia and a vast geographical area encompassing Mexico, the southwestern United States, and the Texas borderlands. In the early 1950s, Richard MacNeish's investigations in Tamaulipas yielded evidence of past agave use in the mountains of northeastern Mexico. Excavations in the Ocampo Caves revealed 9,000 years of sporadic occupations by hunter-gatherers, mixed forager-farmers, and finally, periodic visits by residents of nearby agricultural villages. Although these discoveries are incompletely published—and existing publications largely underemphasize the range of utilized wild resources in favor of domesticated maize, beans, and squash—agave is among the wild plant taxa most often mentioned in use throughout the Holocene. Unpublished field notes, curated plant assemblages recovered during MacNeish's excavations, and data from recent archaeological survey complement the published literature to explore the role of this prominent plant in this important archaeological region.

Resumen

Resumen

La relación simbiótica entre los humanos y el género Agave abarca milenios y una vasta área geográfica que incluye México, el suroeste de los Estados Unidos y la zona fronteriza de Texas. A principios de la década de 1950, las investigaciones de Richard MacNeish en Tamaulipas arrojaron evidencia del uso de agave en el pasado en las montañas del noreste de México. Las excavaciones en las cuevas de Ocampo revelaron 9.000 años de ocupaciones esporádicas por cazadores-recolectores, recolectores-agricultores mixtos y, finalmente, visitas periódicas de pueblos agrícolas cercanos. Aunque estos descubrimientos están publicados de forma incompleta, y las publicaciones existentes subestiman en gran medida la gama de recursos silvestres utilizados a favor de plantas domesticadas como el maíz, frijol y calabaza--entre los taxones de plantas silvestres, el agave es el taxón que se mencionan con mayor frecuencia a lo largo del Holoceno. Notas de campo inéditas, conjuntos de plantas recuperadas durante las excavaciones de MacNeish y datos de estudios arqueológicos recientes complementan la literatura publicada para explorar el papel económico de esta planta prominente en esta importante región arqueológica.

Keywords

AgaveOcampoTamaulipasancient Mexicointensificationlow-level food productionAgaveOcampoTamaulipasMéxico antiguointensificaciónproducción de alimentos de baja escala
Type
Article
Information
American Antiquity , Volume 88 , Issue 3 , July 2023 , pp. 344 - 360
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of 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

Anderies, John M., Nelson, Ben A., and Kinzig, Ann P.. 2008. Analyzing the Impact of Agave Cultivation on Famine Risk in Arid Pre-Hispanic Northern Mexico. Human Ecology 36:409422.10.1007/s10745-008-9162-9CrossRefGoogle Scholar
Black, Stephen L., and Thoms, Alston V.. 2014. Hunter-Gatherer Earth Ovens in the Archaeological Record: Fundamental Concepts. American Antiquity 79(2):204226.10.7183/0002-7316.79.2.204CrossRefGoogle Scholar
Boserup, Ester. 1965. The Conditions of Agricultural Growth. Aldine, Chicago.Google Scholar
Brown, Kenneth M. 1991. Prehistoric Economics at Baker Cave: A Plan for Research. In Papers on Lower Pecos Prehistory, edited by Turpin, Solveig A., pp. 87140. Studies in Archeology 8. Texas Archeological Research Laboratory, University of Texas, Austin.Google Scholar
Callen, Eric O. 1965. Food Habits of Some Pre-Columbian Mexican Indians. Economic Botany 19(4):335343.10.1007/BF02904803CrossRefGoogle Scholar
Callen, Eric O. 1968. Plants, Diet, and Early Agriculture of Some Cave Dwelling Pre-Columbian Mexican Indians. International Congress of Americanists Actas y Memorias 37(2):641655.Google Scholar
Callen, Eric O. 1970. Diet as Revealed by Coprolites. In Science in Archaeology: A Survey of Progress and Research, edited by Brothwell, Don and Higgs, Eric, pp. 235243. Praeger, New York.Google Scholar
Castetter, Edward F., Bell, Willis H., and Grove, Alvin R.. 1938. The Early Utilization and the Distribution of Agave in the American Southwest. Biological Series 5(4). University of New Mexico Bulletin 335. University of New Mexico Press, Albuquerque.Google Scholar
Cloud, William A., Walter, Richard W., Frederick, Charles D., and Mallouf, Robert J.. 2016. Late Paleoindian Occupations at the Genevieve Lykes Duncan Site, Brewster County, Texas. Journal of Big Bend Studies 28:182.Google Scholar
Cutler, Hugh C., and Whitaker, Thomas W.. 1961. History and Distribution of the Cultivated Cucurbits in the Americas. American Antiquity 26(4):469485.10.2307/278735CrossRefGoogle Scholar
Dering, Phil. 1999. Earth-Oven Processing in Archaic Period Economies: An Example from a Semi-Arid Savannah in South-Central North America. American Antiquity 64(4):659674.CrossRefGoogle Scholar
Eguilaz, Isabel. 1965. Los Indios del Nordeste de Méjico en el Siglo XVIII. Universidad de Sevilla Publicaciones del Seminario de Antropología Americana, Seville.Google Scholar
Farnsworth, Paul, Brady, James E., DeNiro, Michael J., and MacNeish, Richard S.. 1985. A Re-Evaluation of the Isotopic and Archaeological Reconstructions of Diet in the Tehuacán Valley. American Antiquity 50(1):102116.CrossRefGoogle Scholar
Fish, Suzanne K., and Fish, Paul R.. 2014. Agave (Agave spp.): A Crop Lost and Found in the U.S.–Mexico Borderlands. In New Lives for Ancient and Extinct Crops, edited by Minnis, Paul E., pp. 102138. University of Arizona Press, Tucson.10.2307/j.ctv1mgmcgt.7CrossRefGoogle Scholar
Gentry, Howard Scott. 1982. Agaves of Continental North America. University of Arizona Press, Tucson.CrossRefGoogle Scholar
Hanselka, J. Kevin. 2011. Prehistoric Plant Procurement, Food Production, and Land Use in Southwestern Tamaulipas, Mexico. PhD dissertation, Department of Anthropology, Washington University, Saint Louis, Missouri. Available at Washington University Open Scholarship: All Theses and Dissertations (ETDs). Paper 584.Google Scholar
Hanselka, J. Kevin. 2017. Revisiting the Archaeobotanical Record of Romero's Cave in the Ocampo Region of Tamaulipas, Mexico. Journal of Ethnobiology 37(1):3759.CrossRefGoogle Scholar
Hanselka, J. Kevin, and King, Brian. 2017. Modeling Agricultural Potential near the Ocampo Caves, Tamaulipas: Integrating Archaeological and Geospatial Applications. Journal of Ethnobiology 37(2):260281.10.2993/0278-0771-37.2.260CrossRefGoogle Scholar
Sandoval, Hernández, González Romo, Luis Claudia, and Medrano, Francisco González. 1991. Plantas Utiles de Tamaulipas, México. Anales del Instituto Biología, Universidad Nacional Autónoma, México, Serie Botánico 62(1):138.Google Scholar
Hester, Thomas Roy, and Heizer, Robert F.. 1972. Problems in the Functional Interpretation of Artifacts: Scraper Planes from Mitla and Yagul, Oaxaca. In Miscellaneous Papers on Archaeology, pp. 107123. Contributions of the University of California Archaeological Research Facility No. 14. University of California, Berkeley.Google Scholar
Hodgson, Wendy C., and Salywon, Andrew M.. 2013. Two New Agave Species (Agavaceae) from Central Arizona and Their Putative Pre-Columbian Domesticated Origins. Brittonia: A Journal of Systematic Botany 65(1):515.10.1007/s12228-012-9255-zCrossRefGoogle Scholar
Hodgson, Wendy C., Salywon, Andrew M., and Doelle, William H.. 2018. Hohokam Lost Crop Found: A New Agave (Agavaceae) Species Only Known from Large-Scale Pre-Colombian Agricultural Fields in Southern Arizona. Systematic Botany 43(3):734740.CrossRefGoogle Scholar
Horton, Elizabeth Temple. 2010. The Ties That Bind: Fabric Traditions and Fiber Use in the Ozark Plateau. PhD dissertation, Department of Anthropology, Washington University, Saint Louis, Missouri. Washington University Open Scholarship: All Theses and Dissertations (ETDs). Paper 155.Google Scholar
Instituto Nacional de Estadística, Geografía e Informática (INEGI). 2002. Carta oopografía El Llano de Azuas (F14A48), Tamaulipas (digital topographic map). Instituto Nacional de Estadística, Geografía e Informática / Dirección General de Geografía, Aguas Calientes, Mexico.Google Scholar
Instituto Nacional de Estadística, Geografía e Informática (INEGI). 2003. Conjunto de datos vectoriales de la carta de uso del suelo y vegetación, escala 1:1,000,000 Serie II (Continuo Nacional), Edition 1a (digital vegetation and soils map). Instituto Nacional de Estadística, Geografía e Informática / Dirección General de Geografía, Aguas Calientes, Mexico.Google Scholar
Jacques-Hernández, Cuauhtémoc, and Salazar Bravo, Ángel. 2009. Caracterización y usos de las especias de agave en Tamaulipas. Ciencia Conocimiento Tecnología 89:91100.Google Scholar
Johnson, Amber L., and Hard, Robert J.. 2008. Exploring Texas Archaeology with a Model of Intensification. Plains Anthropologist 53(205):137154.10.1179/pan.2008.009CrossRefGoogle Scholar
Kaplan, Lawrence, and Lynch, Thomas F.. 1999. Phaseolus (Fabaceae) in Archaeology: AMS Radiocarbon Dates and Their Significance for Pre-Columbian Agriculture. Economic Botany 53(3):261272.10.1007/BF02866636CrossRefGoogle Scholar
Kaplan, Lawrence, and MacNeish, Richard S.. 1960. Prehistoric Bean Remains from the Caves in the Ocampo Region of Tamaulipas, Mexico. Harvard University Botanical Museum Leaflets 19(2):3356.CrossRefGoogle Scholar
Kelley, David. 1954. Valenzuela's Cave (Tmc248). Report on file at the Robert S. Peabody Institute of Archaeology, Phillips Academy, Andover, Massachusetts. Electronic document, https://archive.org/details/chapteriisection00unse_0/mode/2up, accessed November 1, 2022.Google Scholar
Koenig, Charles W., and Black, Stephen L.. 2019. Plant Baking and Hunter-Gatherer Mobility in the Lower Pecos Canyonlands of Southwest Texas. Bulletin of the Texas Archeological Society 90:123150.Google Scholar
Koenig, Charles W., McQuistion, Emily R., Black, Stephen L., Frederick, Charles D., Phil Dering, J., Kevin Hanselka, J., Bush, Leslie, and Lawrence, Ken L.. 2023. Using Fire-Cracked Rock to Evaluate Earth Oven Intensification in the Lower Pecos Canyonlands of Texas. In Earth Ovens and Desert Lifeways: 10,000 Years of Indigenous Cooking in the Arid Landscapes of North America, edited by Koenig, Charles W. and Miller, Myles R., pp. 41–68. University of Utah Press, Salt Lake City.Google Scholar
Koenig, Charles W., and Miller, Myles R. (editors). 2023. Earth Ovens and Desert Lifeways: 10,000 Years of Indigenous Cooking in the Arid Landscapes of North America. University of Utah Press, Salt Lake City.Google Scholar
MacNeish, Richard S. 1947. A Preliminary Report on Coastal Tamaulipas, Mexico. American Antiquity 13(1):115.CrossRefGoogle Scholar
MacNeish, Richard S. 1954a. Romero's Cave. Report on file at the Robert S. Peabody Institute of Archaeology, Phillips Academy, Andover, Massachusetts. Electronic document, https://archive.org/details/chapteriiexcavat00unse/mode/2up, accessed November 1, 2022.Google Scholar
MacNeish, Richard S. 1954b. Ojo de Agua Cave – Tmc 174. Report on file at the Robert S. Peabody Institute of Archaeology, Phillips Academy, Andover, Massachusetts.Google Scholar
MacNeish, Richard S. 1958. Preliminary Archaeological Investigations in the Sierra de Tamaulipas, Mexico. Transactions of the American Philosophical Society Vol. 48, Pt. 6. American Philosophical Society, Philadelphia.Google Scholar
MacNeish, Richard S. 1964. The Food-Gathering and Incipient Agriculture Stage of Prehistoric Middle America. In Natural Environment and Early Cultures, edited by West, Robert C., pp. 413426. Handbook of Middle American Indians Vol. 1. University of Texas Press, Austin.Google Scholar
MacNeish, Richard S. 1971. Archaeological Synthesis of the Sierra. In Archaeology of Northern Mesoamerica, Part Two, edited by Ekholm, Gordon F. and Bernal, Ignacio, pp. 573581. Handbook of Middle American Indians Vol. 11. University of Texas Press, Austin.Google Scholar
MacNeish, Richard S. 1992. The Origins of Agriculture and Settled Life. University of Oklahoma Press, Norman.Google Scholar
MacNeish, Richard S. 2001. A Response to Long's Radiocarbon Determinations That Attempt to Put Acceptable Chronology on the Fritz. Latin American Antiquity 12(1):99104.CrossRefGoogle Scholar
Mangelsdorf, Paul C., MacNeish, Richard S., and Galinat, Walton C.. 1967. Prehistoric Maize, Teosinte, and Tripsacum from Tamaulipas, Mexico. Harvard University Botanical Museum Leaflets 22(2):3363.CrossRefGoogle Scholar
Mangelsdorf, Paul C., MacNeish, Richard S., and Willey, Gordon R.. 1964. Origins of Agriculture in Middle America. In Natural Environment and Early Cultures, edited by West, Robert C., pp. 427445. Handbook of Middle American Indians Vol. 1. University of Texas Press, Austin.Google Scholar
Miller, Myles R. 2013. Jornada Burned Rock Middens Reconsidered, Again. In Investigations of Burned Rock Middens along the Sacramento Mountains Alluvial Fans: Excavation of 18 BRMs at Nine Sites and a Summary of 77 BRM Excavations in the Sacramento Mountains on Fort Bliss, Otero County, New Mexico, by Miller, Myles R., Graves, Tim, Landreth, Melinda, Frederick, Charles, Gregory, Brittney, Tabitha Burgess, J. Phil Dering, et al., pp. 259334. Fort Bliss Cultural Resources Report No. 12-05. Fort Bliss Directorate of Public Works Environmental Division, Garrison Command Fort Bliss, Texas.Google Scholar
Miller, Myles R. 2019. The Social Dimensions of Prehistoric Agavaceae Baking Pits: Feasting and Leadership in the Late Pithouse and Pueblo Periods of South-Central New Mexico. In Interaction and Connectivity in the Greater Southwest, edited by Harry, Karen G. and Roth, Barbara J.. University of Colorado Press, Louisville.Google Scholar
Miller, Myles R., and Graves, Tim B.. 2023. Labor, Ritual, and Path Dependence: The Social Dimensions of Earth Oven Use in Southern New Mexico and West Texas. In Earth Ovens and Desert Lifeways: 10,000 Years of Indigenous Cooking in the Arid Landscapes of North America, edited by Koenig, Charles W. and Miller, Myles R., pp. 105–119. University of Utah Press, Salt Lake City.Google Scholar
Miller, Myles R., and Montgomery, John. 2018. Plant-Baking Facilities and Social Complexity: A Perspective from the Western Jornada and Southeastern New Mexico. In Late Prehistoric Hunter-Gatherers and Farmers of the Jornada Mogollon, edited by Rocek, Thomas R. and Kenmotsu, Nancy A., pp. 224248. University Press of Colorado, Louisville.Google Scholar
Minnis, Paul E., and Whalen, Michael E.. 2020. The Prehispanic Ethnobotany of Paquimé and Its Neighbors. University of Arizona Press, Tucson.CrossRefGoogle Scholar
Morgan, Christopher. 2015. Is It Intensification Yet? Current Archaeological Perspectives on the Evolution of Hunter-Gatherer Economies. Journal of Archaeological Research 23:163213.CrossRefGoogle Scholar
Newcomb, William W. 1961. The Indians of Texas, from Prehistoric to Modern Times. University of Texas Press, Austin.Google Scholar
Parsons, Jeffrey R., and Parsons, Mary H.. 1990. Maguey Utilization in Highland Central Mexico: An Archaeological Ethnography. Anthropological Papers of the Museum of Anthropology No 82. University of Michigan, Ann Arbor.CrossRefGoogle Scholar
Ramírez Castilla, Gustavo. 2007. Panorama arqueológico de Tamaulipas. Instituto Tamaulipeco para la Cultura y las Artes, Ciudad Victoria, Mexico.Google Scholar
Estrada, Rivera, Araceli, C.. 2014. Proyecto Arqueologico “Sierra Madre Oriental,” Informe, 3a–4a Temporadas (2012–2013). Instituto Nacional de Antropología e Historia, Centro INAH Nuevo León, Monterrey, Mexico.Google Scholar
Romero, Javier, and Valenzuela, Juan. 1945. Expedición a la Sierra Azul, Ocampo, Tamps. Sobretiro del Tomo I de los Anales del Instituto Nacional de Antropología e Historia, Talleres Gráficos de la Editorial Stylo, Mexico City.Google Scholar
Smith, Bruce D. 1997. Reconsidering the Ocampo Caves and the Era of Incipient Cultivation in Mesoamerica. Latin American Antiquity 8(4):342383.10.2307/972107CrossRefGoogle Scholar
Smith, Bruce D. 2001. Low-Level Food Production. Journal of Archaeological Research 9:143.10.1023/A:1009436110049CrossRefGoogle Scholar
Smith, Bruce D. 2005. Documenting the Transition to Food Production along the Borderlands. In The Late Archaic across the Borderlands: The Transition from Foraging to Farming, edited by Vierra, Bradley J., pp. 300316. University of Texas Press, Austin.CrossRefGoogle Scholar
Sobolik, Kristin D. 2008. Nutritional Constraints and Mobility Patterns in the Northern Chihuahuan Desert. In Case Studies in Environmental Archaeology, 2nd ed., edited by Reitz, Elizabeth, Margaret Scarry, C., and Scudder, Sylvia J., pp. 211234. Interdisciplinary Contributions to Archaeology. Springer, New York.10.1007/978-0-387-71303-8_11CrossRefGoogle Scholar
Taylor, Walter W. 1966. Archaic Cultures Adjacent to the Northeastern Frontiers of Mesoamerica. In Archaeological Frontiers and External Connections, edited by Ekholm, Gordon F. and Willey, Gordon R., pp. 5994. Handbook of Middle American Indians Vol. 4. University of Texas Press, Austin.Google Scholar
Thoms, Alston V. 2009. Rocks of Ages: Propagation of Hot-Rock Cookery in Western North America. Journal of Archaeological Science 36:573591.CrossRefGoogle Scholar
Tolstoy, Paul. 1971. Utilitarian Artifacts of Central Mexico. In Archaeology of Northern Mesoamerica, Part 1, edited by Ekholm, Gordon F. and Bernal, Ignacio, pp. 270296. Handbook of Middle American Indians Vol. 10. University of Texas Press, Austin.Google Scholar
Toussaint, Manuel. 1948. La conquista de Pánuco. El Colegio Nacional, Mexico City.Google Scholar
Trombold, Charles D. 1985. A Summary of the Archaeology of the La Quemada Region. In The Archaeology of West and Northwest Mesoamerica, edited by Foster, Michael S. and Weigand, Phil C., pp. 327352. West View Press, Boulder, Colorado.Google Scholar
Turpin, Solveig A. 2004. The Lower Pecos River Region of Texas and Northern Mexico. In The Prehistory of Texas, edited by Perttula, Timothy K., pp. 266280. Texas A&M University Press, College Station.Google Scholar
Turpin, Solveig A., and Eling, Herbert H. Jr. 1999. Cueva Pilote: Ritual Bloodletting among the Prehistoric Hunters and Gatherers of Northern Coahuila, Mexico. Institute of Latin American Studies, University of Texas, Austin.Google Scholar
Varner, Dudley N. 1967. An Archeological Investigation of Hearths in Northeastern Mexico. Master's thesis, Department of Anthropology, University of Texas, Austin.Google Scholar
Whitaker, Thomas W., Cutler, Hugh C., and MacNeish, Richard S.. 1957. Cucurbit Materials from Three Caves Near Ocampo, Tamaulipas. American Antiquity 22(4):352358.10.2307/276133CrossRefGoogle Scholar
Supplementary material: File

Hanselka supplementary material

Hanselka supplementary material

Download Hanselka supplementary material(File)
File 136.7 KB