Hostname: page-component-78c5997874-g7gxr Total loading time: 0 Render date: 2024-11-20T04:17:02.417Z Has data issue: false hasContentIssue false

Juvenile Age Estimation Using Diaphyseal Long Bone Lengths Among Ancient Maya Populations

Published online by Cambridge University Press:  20 January 2017

Marie Elaine Danforth
Affiliation:
Department of Anthropology and Sociology, University of Southern Mississippi, Hattiesburg, MS 39406-5074 ([email protected])
Gabriel D. Wrobel
Affiliation:
Department of Sociology and Anthropology, University of Mississippi, Oxford, MS 38677 ([email protected])
Carl W. Armstrong
Affiliation:
Department of Anthropology, State University of New York, Plattsburgh, NY 12901 ([email protected])
David Swanson
Affiliation:
Department of Sociology and Anthropology, University of Mississippi, Oxford, MS 38677 ([email protected])

Abstract

Standards for diaphyseal lengths of the femur, humerus, and tibia that can be used in juvenile age estimation for the ancient Maya are presented. It is argued that these new standards are necessary given differences in stature and limb proportion in Mesoamerican groups compared to the prehistoric North American groups upon whom the current available standards have been developed. Using data from 96 juveniles in the protohistoric Maya series from Tipu, Belize, regression equations were developed to predict age of dental development using diaphyseal lengths; all had excellent fit and statistical significance. When the equations were tested with diaphyseal lengths from other Mesoamerican populations, the results were supportive of such application.

Se presentan los estándares de las longitudes de los diáfises del húmero, fémur, y tibia, las cuales serán usadas en la estimación de las edades juveniles en poblaciones mayas prehistóricas. Se propone que estos estándares nuevos son necesarios ya que los estándares empleados actualmente fueron desarollados en poblaciones norteamericanas y existen diferencias en estatura y las proporciones de los miembros entre estas poblaciones prehistóricas y las poblaciones prehistóricas Mayas. Usando datos de 75 jóvenes en la serie Maya protohistórica de Tipu, Belice, se produjeron ecuaciones de regresión para predecir la edad de desarrollo dental basada en las longitudes de los diáfises; todas tenían la bondad excelente de ajuste y la significación estadística. Cuando estas ecuaciones fueron comparadas con datos tomados de otras poblaciones mesoamericanas, las curvas parecen ser bastante coherentes.

Type
Part 1: Themed Section on Tehnology Approaches
Copyright
Copyright © 2009 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

Bass, William M. 2005 Human Osteology: A Laboratory and Field Manual. 5th ed. Missouri Archaeological Society, Columbia.Google Scholar
Blakeslee, Donald J. 1994 The Archaeological Context of Human Skeletons in the Northern and Central Plains. In Skeletal Biology in the Great Plains: Migration, Warfare, and Subsistence, edited by Douglas W. Owsley and Richard L. Jantz, pp. 932. Smithsonian Institution Press, Washington, D.C.Google Scholar
Bogin, Barry, and Keep, R. 1999 Eight Thousand Years of Economic and Political History in Latin America Revealed by Anthropometry. Annals of Human Biology 26:333351.Google Scholar
Bogin, Barry, and Holly Smith, B. 1997 Evolutionary Hypothesis for Human Childhood. Yearbook of Physical Anthropology 40:6389.3.0.CO;2-8>CrossRefGoogle Scholar
Buikstra, Jane E. 1984 The Lower Illinois River Region: A Prehistoric Context for the Study of Ancient Health and Diet. In Paleopathology at the Origins of Agriculture, edited by Mark N. Cohen and George J. Armelagos, pp. 215234. Academic Press, Orlando.Google Scholar
Buikstra, Jane E., and Mielke, James H. 1985 Demography, Diet and Disease. In The Analysis of the Prehistoric Diet, edited by Robert I. Gilbert and James H. Mielke, pp. 359422. Academic Press, Orlando.Google Scholar
Cetina Bastida, Aleida, and Sosa, Thelma Sierra 2005 Condiciones de Vida y Nutrición de los Antiguos Habitantes de Xcambó, Yucatán. Estudios de Antropología Biológica 12:661678.Google Scholar
Cohen, Mark N., O’Connor, Kathleen, Danforth, Marie Elaine, Jacobi, Keith P., and Armstrong, Carl W. 1997 Archaeology and Osteology of the Tipu Site. In Bones of the Maya: Studies of Ancient Skeletons, edited by Stephen L. Whittington and David L. Reed, pp. 7886. Smithsonian Institution Press, Washington, D.C.Google Scholar
Cole, Theodore M. III 1994 Size and Shape of the Femur and Tibia in the Northern Plains Indian. In Skeletal Biology in the Great Plains: Migration, Warfare, and Subsistence, edited by Douglas W. Owsley and Richard L. Jantz, pp. 219233. Smithsonian Institution Press, Washington, D.C.Google Scholar
Comas, Juan 1966 Manual de Antropología Física. Instituto de Investigaciones Históricas, Sección de Antropología. Serie Antropológica 10. Universidad Nacional Autónoma de México, Mexico City.Google Scholar
Cook, Delia C. 1984 Subsistence and Health in the Lower Illinois Valley: Osteological Evidence. In Paleopathology at the Origins of Agriculture, edited by Mark N. Cohen and George J. Armelagos, pp. 237270. Academic Press, Orlando.Google Scholar
Danforth, Marie Elaine 1994 Stature Change in the Prehistoric Maya of the Southern Lowlands. Latin American Antiquity 5:206211.Google Scholar
Danforth, Marie Elaine 1999a Coming Up Short: Stature and Nutrition in the Prehistoric Maya. In Reconstructing Ancient Maya Diet, edited by Christine D. White, pp. 103117. University of Utah Press, Salt Lake City.Google Scholar
Danforth, Marie Elaine 1999b Nutrition and Politics in Prehistory. Annual Review of Anthropology 28:125.Google Scholar
Danforth, Marie Elaine 2000 The Bioarchaeology of the Aztec of Xaltocan. Report submitted to Elizabeth Brumfiel, Department of Anthropology and Sociology, Albion College, Albion, Michigan.Google Scholar
del Angel, Andres, and Cisneros, Hector B. 2004 Modification of Regression Equations Used to Estimate Stature in Mesoamerican Skeletal Remains. American Journal of Physical Anthropology 125:264265.Google Scholar
Demirjian, Arto 1986 Dentition. In Postnatal Growth and Neurobiology. Human Growth: A Comprehensive Treatise, Vol. 2, 2nd ed., edited by Frank Falkner and James M. Tanner, pp. 269298. Plenum Press, New York.Google Scholar
Demirjian, Arto, Buschang, Peter H., Ranguay, R., and Patterson, David K. 1985 Interrelationship Among Measures of Somatic, Skeletal, Dental and Sexual Maturity. American Journal of Orthodontics 88:433438.Google Scholar
Dunning, Nicholas, Beach, Timothy, Farrell, Pat, and Luzzadder-Beach, Sheryl 1998 Prehispanic Agrosystems and Adaptive Regions in the Maya Lowlands. Culture and Agriculture 98:87101.Google Scholar
Falhauber, Johanna 1976 Investigación Longitudinal del Crecimiento. Colección Científica, Institute Nacional de Antropología e Historia, Mexico City.Google Scholar
Falhauber, Johanna 1994 Antropología Biológica de las Sociedades Prehispánicas. In Historia Antigua de México, T. 1, edited by Linda Manzanilla and Leonardo López Lújan, pp. 1948. Institute Nacional de Antropología e Historia, Universidad Nacional Autónoma de México, Porrúa, Mexico City.Google Scholar
Garn, Stanley M., Lewis, Arthur B., and Kerewsky, Rose S. 1965 Genetic, Nutritional, and Maturational Correlates of Dental Development. Journal of Dental Research 44:228242.Google Scholar
Genovés, Santiago 1967 Proportionality of the Long Bones and Their Relation to Stature Among Mesoamericans. American Journal of Physical Anthropology 26:6777.Google Scholar
Graham, Elizabeth A. 1991 Archaeological Insights into Colonial Period Maya Life at Tipu, Belize. In Columbian Consequences, edited by David H. Thomas, pp. 319335. Spanish Borderlands in Pan-American Perspective, Vol. 3, David H. Thomas, general editor, Smithsonian Institution, Washington, D.C.Google Scholar
Halcrow, Siân E., Tayles, Nancy, and Buckley, Hallie R. 2007 Age Estimation of Children from Prehistoric Southeast Asia: Are the Dental Formation Methods Used Appropriate? Journal of Archaeological Science 74:11581168.CrossRefGoogle Scholar
Haviland, William A. 1967 Stature at Tikal, Guatemala: Implications for Ancient Maya Demography and Social Organization. American Antiquity 32:316325.CrossRefGoogle Scholar
Hoffman, J. Michael 1979 Age Estimations from Diaphyseal Lengths: Two Months to Twelve Years. Journal of Forensic Sciences 24:461469.Google Scholar
Hoppa, Robert D., and Gruspier, Katherine L. 1998 Estimation of Diaphyseal Length from Fragmentary Subadult Skeletal Remains: Implications for Palaeodemographic Reconstruction of a Southern Ontario Ossuary. American Journal of Physical Anthropology 100:341354.3.0.CO;2-X>CrossRefGoogle Scholar
Jacobi, Keith P. 2000 Last Rites for the Tipu Maya. University of Alabama Press, Tuscaloosa.Google Scholar
Johnston, Francis E. 1962 Growth of the Long Bones of Infants and Young Children at Indian Knoll. American Journal of Physical Anthropology 20:249254.Google Scholar
Johnston, Francis E., and Zimmer, Louise O. 1989 Assessment of Growth and Age in the Immature Skeleton. In Reconstruction of Life from the Skeleton, edited by Mehmet Yasar Iscan and Kenneth A. R. Kennedy, pp. 1122. Wiley-Liss, New York.Google Scholar
Konigsberg, Lyle W., and Holman, Darryl J. 1997 Estimation of Age at Death from Dental Emergence and Implications for Studies of Prehistoric Somatic Growth. In Bioarchaeology: Interpreting Behavior from the Human Skeleton, edited by Clark S. Larsen, pp. 264289. Cambridge University Press, Cambridge.Google Scholar
Lampl, Michelle, and Johnston, Francis E. 1996 Problems in the Aging of Skeletal Juveniles. American Journal of Physical Anthropology 101:345355.3.0.CO;2-Y>CrossRefGoogle ScholarPubMed
Larsen, Clark S. 1995 Biological Changes Associated with Agriculture. Annual Review of Anthropology 24:185213.Google Scholar
Liversidge, Helen M. 2003 Variation in Modern Human Dental Development. In Patterns of Growth and Development in the Genus Homo, edited by Jennifer L. Thompson, Gail E. Krovitz, and Andrew J. Nelson, pp. 73113. Cambridge University Press, Cambridge.Google Scholar
Lourdes, Márquez M., and Andrés del, ángel E. 1997 Height Among Prehispanic Maya of the Yucatan Peninsula: A Reconsideration. In Bones of the Maya: Studies of Ancient Skeletons, edited by Stephen L. Whittington and David L. Reed, pp. 5161. Smithsonian Institution Press, Washington, D.C.Google Scholar
Merchant, Virginia L., and Ubelaker, Douglas H. 1977 Skeletal Growth of the Protohistoric Arikara. American Journal of Physical Anthropology 46:6172.Google Scholar
Pijoan Aguadé, Carrnen, and Cuesta, Maria Elena Salas 1984 La Población Prehispánica de Jaina: Análisis Osteológico. In lnvestigaciones Recientes en el Area Maya, T. 2, pp. 471480. 17 Mesa Redonda, Sociedad Mexicana de Antropología, San Cristobal de las Casas, Chiapas.Google Scholar
Pohl, Mary, Pope, Kevin O., Jones, John G., Jacob, John S., Piperno, Dolores G., deFrance, Susan D., Lenz, David L., Gifford, John A., Danforth, Marie Elaine, and Kathryn Josserand, J. 1996 Early Agriculture in the Maya Lowlands. Latin American Antiquity 7:355375.CrossRefGoogle Scholar
Reyes Gutierrez, Georgina, Bios, Vera Tiesler, Cucina, Andrea, and Sosa, Thelma Sierra 2006 Paleopatología Infantil de Xcambó, Yucatán. Los Investigadores de la Cultura Maya 14, T. 2, pp. 461469. Universidad Autónoma de Campeche, Campeche.Google Scholar
Saul, Frank P., and Saul, Julie Mathers 1991 The Preclassic Population of Cuello. In Cuello: An Early Maya Community in Belize, edited by Norman Hamond, pp. 134158. Cambridge University Press, Cambridge.Google Scholar
Scheuer, Louise, and Black, Sue 2004 The Juvenile Skeleton. Academic Press, London.Google Scholar
Snow, Charles E. 1948 Indian Knoll Skeletons of Site Oh2, Ohio County, Kentucky. University of Kentucky Reports in Anthropology, Vol. 4, Pt. 2. University of Kentucky Press, Lexington.Google Scholar
Steggerda, Morris 1938 Anthropometry of Adult Maya Indians. Carnegie Institution of Washington Publication No. 434. Washington, D.C.Google Scholar
Stewart, T. Dale 1953 Skeletal Remains. In The Ruins of Zaculeu, Guatemala, Vol. 1, edited by Richard B. Woodbury and Aubrey S. Trik, pp. 295311. United Fruit, Richmond, Virginia.Google Scholar
Storey, Rebecca 1992 Life and Death in the Ancient City of Teotihuacan. University of Alabama Press, Tuscaloosa.Google Scholar
Sundick, Robert 1. 1972 Human Skeletal Growth and Dental Development as Observed in the Indian Knoll Population. Unpublished Ph.D. dissertation, Department of Anthropology, University of Toronto, Toronto.Google Scholar
Tiesler Bios, Vera 2001 La Estatura Entre los Mayas Prehispánicos: Consideraciones Bioculturales. Estudios Antropológicos Biológicos 10:257273.Google Scholar
Trotter, Mildred, and Gleser, Goldie C. 1958 A Re-Evaluation of Estimation of Stature Based on Measurements of Stature Taken During Life and of Long Bones After Death. American Journal of Physical Anthropology 16:79123.Google Scholar
Ubelaker, Douglas H. 1974 Reconstruction of Demographic Profiles from Ossuary Skeletal Samples: A Case Study from the Tidewater Potomac. Smithsonian Contributions to Anthropology, No. 18. Smithsonian Institution Press, Washington, D.C.Google Scholar
Ubelaker, Douglas H. 1989 Human Skeletal Remains: Excavation, Analysis, Interpretation. 2nd ed. Smithsonian Institution Press, Washington, D.C.Google Scholar
Walker, Phillip L. 1969 The Linear Growth of Long Bones in Late Woodland Indian Children. Proceedings of the Indiana Academy of Sciences 78:8387.Google Scholar
Walker, Phillip L. 1997 Problems of Preservation and Sexism in Sexing: Some Lessons from Historical Collections for Paleodemographers. In Grave Reflections, edited by Shelley R. Saunders and D. Ann Herring, pp. 3145. Canadian Scholars Press, Toronto.Google Scholar
Webb, Charles 1946 Indian Knoll. University of Tennessee Press, Knoxville.Google Scholar
Wright, Lori E., and Vásquez, Mario A. 2003 Estimating the Length of Incomplete Long Bones: Forensic Standards from Guatemala. American Journal of Physical Anthropology 120:233251.Google Scholar