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Correspondence in Tree-Ring and Thermoluminescence Dating: A Protohistoric Navajo Pilot Study

Published online by Cambridge University Press:  20 January 2017

Douglas D. Dykeman
Affiliation:
Navajo Nation Archaeology Department, 609 S. Behrend Ave., Farmington, NM 87401
Ronald H. Towner
Affiliation:
Laboratory of Tree-ring Research, University of Arizona, Tucson, AZ 85721
James K. Feathers
Affiliation:
Thermoluminescence Laboratory, University of Washington, Seattle, WA 98195

Abstract

Dating of early Navajo residence and special use sites, ca. A.D. 1500-1775, has been hampered by a lack of datable materials and poor precision in radiocarbon results. Methods described in this paper use materials ubiquitous at early Navajo sites in northwestern New Mexico and employ a dual strategy involving tree-ring dating of nonarchitectural wood and thermoluminescence assay of ceramics and burned rock. Comparison of samples obtained from a number of sites near the Morris Site 1 pueblito indicates remarkable correspondence between tree-ring and thermoluminescence results. These techniques are argued to have considerable reliability for relatively recent cultural manifestations such as these early Navajo sites. Thermoluminescence in particular may be useful in protohistoric contexts where tree-ring dating is unavailable. The thermoluminescence technique has the added benefit of directly dating pottery sherds, which can be useful for developing ceramic cross-dating sequences.

Résumé

Résumé

Los fechados arqueológicos de los lugares de residencia y sitios de uso especial de los primeros Navajo, entre los años 1500 y 1775 en el noroeste de Nuevo México, han estado incompletos por lafalta de objetos fechados y la pobre precisión de los resultados de la técnica de radiocarbón. Los métodos descritos en este documento utilizan materiales encontrados por cualquier parte de los lugares de los primeros Navajo, en una doble estrategia que incluye la datación por los anillos de los árboles reflejados en la madera de los mismos y el ensayo de termoluminiscenia de cerámica y roca quemada. La comparación de muestras obtenidas en lugares cercanos al pueblito Morris Site 1, indican correspondencias notables entre los resultados de ambas técnicas: la de los anillos de los árboles y la de termoluminiscenia. Por consiguiente, estas técnicas son argumentadas para tener considerable veracidad de las manifestaciones culturales relativamente recientes, como los primeros lugares de los Navajo. La termoluminiscenia en particular puede ser útil en contextos prehistóricos donde la datación de los anillos de los árboles no es posible. La técnica de termoluminiscenia tiene el beneficio añadido defechar directamente los fragmentos de cerdmica, lo que puede ser útil para el desarrollo de la secuencia de datos a través de la cerámica.

Type
Reports
Copyright
Copyright © Society for American Archaeology 2002

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References

References Cited

Aitken, M. J. 1985 Thermoluminescence Dating. Academic Press, London.Google Scholar
Ayers, D. O., and Reed, L. S. 1993 Results of Archaeological Investigations at Two Dinétah Phase Sites (LA 72353 and LA 78481) near Smith Pass, Rio Arriba County, New Mexico. Technical Report No. 2710. Salmon Ruins Museum, Division of Conservation Archaeology, Bloomfield, New Mexico.Google Scholar
Bailey, G., and Bailey, R. G. 1986 A History of the Navajos: The Reservation Years. School of American Research Press, Santa Fe, New Mexico.Google Scholar
Bailey, M. G. L. 1995 A Slice Through Time: Dendrochronology and Precision Dating. B.T Batsford, Ltd., London.Google Scholar
Bannister, B., Hannah, J. W., and Robinson, W. J. 1966 Tree-Ring Dates from Arizona K: Puerco-Wide Ruin Ganado Area. Laboratory of Tree-Ring Research, Tucson, Arizona.Google Scholar
Barnett, S. M. 1999 Date List 6: Luminescence Dates for Late Bronze Age and Iron Age Pottery Assemblages in Eastern and Northern Britain. Ancient TL 17:2340.Google Scholar
Blinman, E. 2000 The Foundations, Practice, and Limitations of Ceramic Dating in the American Southwest. In It's About Time: A History of Archaeological Dating in North America, edited by Nash, S. E., pp. 141159. University of Utah Press, Salt Lake City.Google Scholar
Breternitz, D. A. 1966 An Appraisal of Tree-ring Dated Pottery in the Southwest. Anthropological Papers of the University of Arizona No. 10. University of Arizona Press, Tucson. Arizona.Google Scholar
Brown, G. M. 1993 Archaeological Testing at Three Sites near Romine Mesa, LA 11196, LA 81057, and LA 83529, to Determine the Effects of the Proposed San Juan 29-7 Unit No. 582 Well Pipeline, Rio Arriba County, New Mexico. Mariah Associates, Inc., Albuquerque, New Mexico.Google Scholar
Brown, G. M. 1996 The Protohistoric Transition in the Northern San Juan Region. In The Archaeology of Navajo Origins, edited by Towner, R. H., pp. 4769. University of Utah Press, Salt Lake City, Utah.Google Scholar
Brown, G. M., and Hancock, P. M. 1992 The Dinétah Phase in the La Plata Valley. In Cultural Diversity and Adaptation: The Archaic, Anasazi, and Navajo Occupation of the Upper San Juan Basin, edited by Reed, L. S. and Reed, P. F., pp. 6990. Cultural Resources Series No. 9. U. S. Department of the Interior, New Mexico Bureau of Land Management, New Mexico State Office, Santa Fe, New Mexico.Google Scholar
Brown, G. M., Evaskovich, J. A., Holloway, R. G., and Wilson, C. D. 1992 Archaeological Investigations at Grassy Canyon: A Gobemador Phase Navajo Habitation in the Navajo Reservoir District. MAI Technical Report No. 535. Mariah Associates, Inc., Albuquerque, New Mexico.Google Scholar
Brugge, D. M. 1964 Navajo Land Usage: A Study in Progressive Diversification. In Indian and Spanish American Adjustments to Arid and Semiarid Environments, arranged by Knowlton, Clark S., pp. 1626. Texas Technical College, Lubbock, Texas.Google Scholar
Brugge, D. M. 1981 Navajo Pottery and Ethnohistory. Navajo Nation Papers in Anthropology 4. Navajo Nation Cultural Resource Management Program, Window Rock, Arizona.Google Scholar
Carlson, R. L. 1965 Eighteenth Century Navajo Fortresses of the Gobernador District. University of Colorado Studies, Series in Anthropology No. 10. The Earl Morris Papers No. 2. University of Colorado Press, Boulder, Colorado.Google Scholar
Cleveland, E., Begay, A., and Arviso-Kakos, M. 1999 Dine Oral History: Navajo Perspectives on the Dinétah and Early Navajo Sites in Northwestern New Mexico. Paper presented at the 64th Annual Meeting of the Society for American Archaeology, Chicago.Google Scholar
Colton, H. S. 1953 Potsherds: An Introduction to the Study of Prehistoric Southwestern Ceramics and their Use in Historic Reconstruction. Museum of Northern Arizona Bulletin 25. Northern Arizona Society of Science and Art, Flagstaff, Arizona.Google Scholar
Dean, J. S. 1978 Independent Dating in Archaeological Analysis. In Advances in Archaeological Method and Theory, vol. 1, edited by Schiffer, M. B., pp. 223255. Academic Press, New York.CrossRefGoogle Scholar
Dittert, A. E., Jr., Hester, J. J., and Eddy, F. W. 1961 An Archaeological Survey of the Navajo Reservoir District, Northwestern New Mexico. Monographs of the School of American Research and the Museum of New Mexico No. 23. School of American Research and Museum of New Mexico, Santa Fe, New Mexico.Google Scholar
Douglass, A. E. 1939 Notes on Beam Dating by Sap-Heart Contact. Tree- Ring Bulletin 6(1):36.Google Scholar
Dunnell, R. C., and Feathers, J. K. 1995 Thermoluminescence Dating of Surficial Archaeological Material. In Dating in Surface Context, edited by Beck, C., pp. 115137. University of New Mexico Press, Alburquerque, New Mexico.Google Scholar
Dykeman, D. D. 1999 Early Navajo Land Use and Economy—The Perfect Southwest Adaptation. Paper presented at the 64th Annual Meeting of the Society for American Archaeology, Chicago.Google Scholar
Dykeman, D. D. 2000 Accuracy and Precision in Archaeological Dating: A Correlation of Tree-ring, Thermoluminescense, and Radiocarbon Techniques. Paper presented at the 65th Annual Meeting of the Society for American Archaeology, Philadelphia.Google Scholar
Dykeman, D. D., and Wharton, J. T. 1994 The Morris Site 1 Early Navajo Land Use Study: An Alternative Data Recovery Plan for Sites LA 11196. LA Dykeman, D. D., and Wharton, J. T. 83529, and LA 88766 in Williams Field Services Unit 29-7 Gas Gathering System, Rio Arriba County, New Mexico. NNAD Report 92-349. Navajo Nation Archaeology Department, Window Rock, Arizona.Google Scholar
Dykeman, D. D., and Wharton, J. T. 2000 Archaeological Investigations at LA 71781: A Study in Cultural and Ecological Diversity A long the Upper San Juan River, Northwestern New Mexico. Fruitland Data Recovery Series No. 3. Navajo Nation Papers in Anthropology No. 38. Navajo Nation Archaeology Department, Window Rock. Arizona.Google Scholar
Farmington Resource Area Cultural Advisory Group 1991 Data Comparability Guidelines for Fruitland Coal Gas Gathering System Data Recovery. Ms. on file, U.S. Department of the Interior, Bureau of Land Management, Farmington Field Office, Farmington, New Mexico.Google Scholar
Feathers, J. K. 1997 The Application of Luminescence Dating in American Archaeology. Journal of Archaeological Method and Theory 4:167.CrossRefGoogle Scholar
Agogino, G. 2000a Why Luminescence Dating Deserves Wider Application in American Archaeology. In It's About Time, edited by Nash, S., pp. 168185. University of Utah Press, Salt Lake City, Utah.Google Scholar
Agogino, G. 2000b Date List 7: Luminescence Dates on Prehistoric and Protohistoric Pottery from the American Southwest. Ancient TL 18(2):5161.Google Scholar
Feathers, J. K., and Rhode, D. 1998 Luminescence Dating of Protohistoric Pottery from the Great Basin. Geoarchaeology 13:287308 3.0.CO;2-0>CrossRefGoogle Scholar
Fetterman, J. 1996 Radiocarbon and Tree-ring Dating at Early Navajo Sites: Examples from the Aztec Area. In The Archaeology of Navajo Origins, edited by Towner, R. H., pp. 7182. University of Utah Press, Salt Lake City, Utah.Google Scholar
Gilpin, D. 1996 Early Navajo Occupation West of the Chuska Mountains. In The Archaeology of Navajo Origins, edited by Towner, R. H., pp. 318. University of Utah Press, Salt Lake City, Utah.Google Scholar
Goodman, J. M. 1982 The Navajo Atlas. University of Oklahoma Press, Norman, Oklahoma.Google Scholar
Graves, M. 1991 Estimating Ring-Loss on Tree-Ring Specimens from East-Central Arizona: Implications for Prehistoric Growth at Grasshopper Ruin. Journal of Quantitative Anthropology 3:83115.Google Scholar
Harlow, F. H. 1973 Matte-paint Pottery of the Tewa, Keres and Zuni Pueblos. Museum of New Mexico Press, Santa Fe, New Mexico.Google Scholar
Haskell, J. L. 1987 Southern Athapaskan Migration: A.D. 200-1750. Navajo Community College Press, Tsaile, Arizona.Google Scholar
Hester, J. J. 1962 Early Navajo Migrations and Acculturation in the Southwest. Museum of New Mexico Papers in Anthropology No. 6. Museum of New Mexico Press Santa Fe, New Mexico.Google Scholar
Hill, D. V. 1995 A Brief Overview of the Navajo Presence in the Upper San Juan Drainage and South Colorado and their Ceramics. In Archaeological Pottery of Colorado: Ceramics Clues to the Prehistoric and Protohistoric Lives of the State's Native Peoples, edited by Brunswig, R. H., Jr., Bradley, B., and Chandler, S. M., pp. 98128. CCPA Occasional Papers No. 2. Colorado Council of Professional Archaeologists, Denver, Colorado.Google Scholar
Hodge, F. W., Hammond, G. P., and Rey, A. 1945 Fray Alonso de Benavides’ Revised Memorial of 1634. Coronado Cuarto Centenial Publications, 1540-1940, volume IV, edited by George P. Hammond. University of New Mexico Press, Albuquerque. New Mexico.Google Scholar
Hogan, P. 1989 Dinetah: A Reevaluation of Pre-Revolt Navajo Occupation in Northwest New Mexico. Journal of Anthropological Research 45(1):5366.CrossRefGoogle Scholar
Hogan, P., Elyea, J. M., and Eschman, P. 1991 Overview and Research Design for the Fruitland Coal Gas Development Area. University of New Mexico Office of Contract Archeology, Albuquerque, New Mexico.Google Scholar
John, E. A. H. 1975 Storms Brewed in Other Men's Worlds: The Confrontation of Indians, Spanish, and French in the Southwest, John, E. A. H. 1540-1795. University of Oklahoma Press, Norman, Oklahoma.Google Scholar
Kintigh, K. W. 1990 Intrasite Spatial Analysis: A Commentary on Major Methods. In Mathematics and Information Science in Archaeology: A Flexible Framework, edited by Voorrips, A.. Studies in Modern Archaeology 3:165-200. Holos, Bonn, West Germany.Google Scholar
Kintigh, K. W. 1994 Tools for Quantitative Archaeology, Programs for Quantitative Archaeology. Publisher? Tempe, Arizona.Google Scholar
Kojo, Y. 1991 The Reliability of Thermoluminescence Dating: A Pilot Experiment. Geoarchaeology 6:367374.CrossRefGoogle Scholar
Kotyk, E. M., and Cater, J. D. 1998 Results of Data Recovery at Sites LA 85369 and LA, Kotyk, E. M., and Cater, J. D. 89898 Located on the Phillips Petroleum Company Unit 29-6 Gathering System Lateral P-15 and the 30-5 Gathering System No. 232 Well Tie Rio Arriba County, New Mexico. San Juan College Research Papers in Anthropology No. 9. San Juan College Cultural Resources Management Program, Farmington, New Mexico.Google Scholar
Langenfeld, K. 1999 Pottery as a Measure of Change and Continuity in Early Navajo Households. Paper presented at the 64th Annual Meeting of the Society for American Archaeology, Chicago.Google Scholar
Marshall, M. P. 1995 A Chapter in Early Navajo History: Late Gobernador Phase Pueblito Sites of the Dinétah District. University of New Mexico Office of Contract Archeology, Albuquerque, New Mexico.Google Scholar
McNitt, F. 1972 Navajo Wars. University of New Mexico Press, Albuquerque. New Mexico.Google Scholar
Nash, S. E. 1997 Archaeological Cutting Date Estimation and the Interpretation of Estimated Tree-Ring Dates. American Antiquity 62:260272.CrossRefGoogle Scholar
Nelson, B. A. 1991 Ceramic Frequency and Use-life: A Highland Maya Case in Cross-cultural Perspective. In Ceramic Ethnoarchaeology, edited by Longacre, W. A., pp. 162181. University of Arizona Press, Tucson. Arizona.Google Scholar
Plog, S. 1980 Stylistic Variation in Prehistoric Ceramics: Design Analysis in the American Southwest. Cambridge University Press, New York.CrossRefGoogle Scholar
Reed, P. E, and Reed, L. S. 1996 Reexamining Gobernador Polychrome: Toward a New Understanding of the Early Navajo Chronological Sequence in Northwestern New Mexico. In The Archaeology of Navajo Origins, edited by Towner, R. H., pp. 83108. University of Utah Press, Salt Lake City, Utah.Google Scholar
Reeve, F. D. 1957 Seventeenth Century Navaho-Spanish Relations. The New Mexico Historical Review 32:3652.Google Scholar
Reeve, F. D. 1958 Navaho-Spanish Wars 1680-1720. The New Mexico Historical Review 33:205231.Google Scholar
Reeve, F. D. 1959 Navaho-Spanish Peace 1720’s-1770’s. The New Mexico Historical Review 34:9.Google Scholar
Skibo, J. M. 1994 Pottery Function: A Use-Alteration Perspective. Plenum Press, New York.Google Scholar
Smiley, F. E., and Ahlstrom, R. V. N. 1997 Archaeological Chronometry: Radiocarbon and Tree-ring Dating, Models and Applications from Black Mesa, Arizona. Occasional Paper Number 16. Southern Illinois University at Carbondale Center for Archaeological Investigations, Carbondale, Illinois.Google Scholar
Stokes, M. A., and Smiley, T. L. 1968 An Introduction to Tree-ring Dating. University of Chicago Press, Chicago.Google Scholar
Towner, R. H. 1997 The Dendrochronology of the Navajo Pueblitos of Dinétah. Ph.D. dissertation, Department of Anthropology, University of Arizona, Tucson, Arizona. University Microfilms, Ann Arbor, Michigan.Google Scholar
Towner, R. H. 1999 Dendrochronology in the Morris Site 1 Project Area. Ms. on file, Navajo Nation Archaeology Department, Farmington, New Mexico.Google Scholar
Towner, R. H., and Johnson, B. P. 1998 The San Raphael Survey: Reconstructing Eighteenth Century Navajo Population Dynamics in the Dinétah using Archaeological and Dendrochronological Data. Arizona State Museum Archaeological Series No. 190. Arizona State Museum, University of Arizona Press, Tucson. Arizona.Google Scholar
Towner, R. H., Sesler, L., and Hovezak, T. 1998 Navajo Culturally Modified Trees in the Dinétah. In Diné Bikéyah: Papers in Honor of David A. Brugge, edited by Duran, M. S. and Kirkpatrick, D. A.. pp 195209. Papers of the Archaeological Society of New Mexico No. 24. The Archaeological Society of New Mexico, Albuquerque, New Mexico.Google Scholar
Wharton, J. T., Dykeman, D. D., and Reed, P. F. 1996 Small Site Archaeology in the Upper San Juan Basin: Investigations at Archaic, Anasazi, and Navajo Sites in Northwestern New Mexico. Fruitland Data Recovery Series No. 1. Navajo Nation Papers in Anthropology No. 32. Navajo Nation Archaeology Department, Window Rock, Arizona.Google Scholar
York, F., and Winter, J. 1988 Report on Ethnographic Study and Archaeological Review of Proposed Coal Lease Tracts in Northwestern New Mexico. University of New Mexico Office of Contract Archeology, Albuquerque, New Mexico.Google Scholar