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The Ventana Complex: New Dates and New Ideas on Its Place in Early Holocene Western Prehistory

Published online by Cambridge University Press:  20 January 2017

Bruce B. Huckell  and
C. Vance Haynes Jr.
Bruce B. Huckell
Affiliation:
Maxwell Museum of Anthropology, University of New Mexico, Albuquerque, NM 87131
C. Vance Haynes Jr.
Affiliation:
Departments of Anthropology and Geosciences, University of Arizona, Tucson, AZ 85721
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Abstract

Radiocarbon dating of charcoal samples and a re-examination of the artifacts from the Volcanic Debris layer in Ventana Cave were conducted in 1992-1994. The goal of this research was to better understand the chronological position and cultural affinities of the Ventana Complex, the name applied to the assemblage recovered from the Volcanic Debris. Ten new Accelerator Mass Spectrometry (AMS) 14C ages suggest that the Volcanic Debris accumulated between approximately 8800 B.P. and 10,500 B.P., and the lack of stratigraphic ordering of the dates indicates that the Volcanic Debris was subjected to considerable turbation as it accumulated. This turbation may have led to the incorporation of bones of extinct fauna from an underlying conglomerate deposit rich in horse remains, creating the impression of their association with artifacts. The artifacts are probably the product of episodic, special-purpose occupations spanning centuries or millennia. Technological and morphological studies of the stone tools indicate few similarities with classic Paleoindian industries, and greater similarities to early Holocene Archaic occupations in the Great Basin and Southwest. Correlations of the Ventana Cave stratigraphy with that of southeastern Arizona and with the late Pleistocene and Holocene record of Northern Hemisphere climate are explored.

Résumé

Résumé

Durante los años 1992-1994 se fecharon muestras radio carbónicas y se reevaluaron los artefactos que pertenecen a la capa Escombros Volcánicos (Volcanic Debris) de la Cueva de la Ventana. El objetivo de este estudio era comprender mejor la posición cronológica y las relaciones culturales del Complejo Ventana, nombre que se aplica a la colección de artefactos recuperados en esta capa. Diez nuevas fechas radio carbónicas (AMS) indican que la capa Escombros Volcánicos se acumuló entre aproximadamente 8,800 y 10,500 A.P, y la falta de orden estratigráfico en las fechas nos indica que la capa Escombros Volcánicos estuvo sujeto a perturbaciones considerables mientras se fue acumulando. Estas perturbaciones habrían incorporado restos de fauna extinguida, que pudieran haber sido acarreados de depósitos subyacentes que contienen abundantes restos equinos. Estos hechos han creado la impresión de que los restos óseos están asociados con los artefactos culturales. Estos son probablemente el resultado de ocupaciones episódicas y de ocupaciones confines muy específicos que continuaban por siglos o milenios. Los estudios tecnológicos y morfológicos de herramientas líticas muestran muy pocas características en común con aquellas de las industrias clásicas de los Paleoindios. En cambio tienen más en común con las ocupaciones Arcaicas tempranas de la época Holoceno en la Great Basin y el Suroeste. En esta investigación, se desarrollan las correlaciones estratigráficas de la Cueva de la Ventana con el sureste de Arizona, tanto como con el registro del clima del hemisferio norte durantes las épocas de Pleistoceno tardío y Holoceno.

Type
Reports
Information
American Antiquity , Volume 68 , Issue 2 , April 2003 , pp. 353 - 371
Copyright
Copyright © The Society for American Archaeology 2003

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References

References Cited

Agenbroad, L. D., and Mead, J. I. 1989 Quaternary Geochronology and Distribution of Mammuthus on the Colorado Plateau. Geology 17:861864.Google Scholar
Antevs, E. 1948 The Great Basin, with Emphasis on Glacial and Postglacial Times. III. Climate Changes and Pre-White Man. University of Utah Bulletin 38:168191.Google Scholar
Beck, C., and Jones, G. T. 1988 Western Pluvial Lakes Tradition Occupation in Butte Valley, Eastern Nevada. In Early Human Occupation in Far Western North America: The Clovis-Archaic Interface, edited by Willig, J. A., Aikens, C. M., and Fagan, J. L., pp. 273301. Nevada State Museum Anthropological Papers No. 21, Carson City.Google Scholar
Beck, C., and Jones, G. T. 1997 The Terminal Pleistocene/Early Holocene Archaeology of the Great Basin. Journal of World Prehistory 11:161236.Google Scholar
Bryan, A. L. 1980 The Stemmed Point Tradition: An Early Technological Tradition in Western North America. In Anthropological Papers in Memory of Earl H. Swanson, Jr., edited by Harten, L. B., Warren, C. N., and Tuohy, D. R., pp. 77107. Special Publication of the Idaho State University Museum of Natural History, Pocatello.Google Scholar
Bryan, A. L. 1988 The Relationship of the Stemmed Point and Fluted Point Traditions in the Great Basin. In Early Human Occupation in Far Western North America: The Clovis-Archaic Interface, edited by Willig, J. A., Aikens, C. M., and Fagan, J. L., pp. 5374. Nevada State Museum Anthropological Papers No. 21, Carson City.Google Scholar
Bryan, K. 1941 Pre-Columbian Agriculture in the Southwest as Conditioned by Periods of Alluviation. Annals of the Association of American Geographers 31:219242.Google Scholar
Bryan, K. 1950 Geological Interpretation of the Deposits. In The Stratigraphy and Archaeology of Ventana Cave, by E. W. Haury, pp. 75126. University of Arizona Press and University of New Mexico Press, Tucson and Albuquerque.Google Scholar
Campbell, E. W. C., and Campbell, W. H. 1935 The Pinto Basin Site. Southwest Museum Papers No. 9, Los Angeles.Google Scholar
Campbell, E. W. Campbell, C. W. H. , Antevs, E., Amsden, C. A., Barbieri, J. A., and Bode, F. D. 1937 The Archaeology of Pleistocene Lake Mohave. Southwest Museum Papers No. 11, Los Angeles.Google Scholar
Clark, J. D., and Kuroshina, H. 1981 A Study of the Work of a Modern Tanner in Ethiopia and Its Relevance for Archaeological Interpretation. In Modern Material Culture, The Archaeology of Us, edited by Gould, R. A. and Schiffer, M. B., pp. 303321. Academic Press, New York.Google Scholar
Clewlow, C. W., Jr. 1968 Surface Archaeology of the Black Rock Desert, Nevada. University of California Archaeological Survey Reports 73:194.Google Scholar
Colbert, E. H. 1950 The Fossil Vertebrates. In The Stratigraphy and Archaeology of Ventana Cave, by Haury, E. W., pp. 126148. University of Arizona Press and University of New Mexico Press, Tucson and Albuquerque.Google Scholar
Colbert, E. H. 1973 Further Evidence Concerning the Presence of Horse at Ventana Cave. Kiva 39:2533.Google Scholar
Damon, P. E., and Long, A. 1962 Arizona Radiocarbon Dates III. Radiocarbon 5:283301.Google Scholar
Dibble, H. 1987 The Interpretation of Middle Paleolithic Scraper Morphology. American Antiquity 52:109117.Google Scholar
Dibble, H. 1995 Middle Paleolithic Scraper Reduction: Background, Clarificiation, and Review of the Evidence. Journal of Archaeological Method and Theory 2:299368.CrossRefGoogle Scholar
Frison, G. C. 1968 A Functional Analysis of Certain Chipped Stone Tools. American Antiquity 33:149155.Google Scholar
Frison, G. C., and Bradley, B. A. 1980 Folsom Tools and Technology at the Hanson Site, Wyoming. University of New Mexico Press, Albuquerque.Google Scholar
Frison, G. C., Haynes, C. V. Jr., and Larson, M. L. 1996 Discussion and Conclusions. In The Mill Iron Site, edited by Frison, G. C., pp. 205216. University of New Mexico Press, Albuquerque.Google Scholar
Harrington, M. R. 1933 Gypsum Cave, Nevada. Southwest Museum Papers No. 8, Los Angeles.Google Scholar
Hassan, A. A., Termine, J. D., and Haynes, C. V. Jr. 1977 Mineralogical Studies on Bone Apatite and Their Implications for Radiocarbon Dating. Radiocarbon 19:364374.Google Scholar
Haury, E. W. 1943 The Stratigraphy of Ventana Cave, Arizona. American Antiquity 8:218223.CrossRefGoogle Scholar
Haury, E. W. 1950 The Stratigraphy and Archaeology of Ventana Cave. University of Arizona Press and University of New Mexico Press, Tucson and Albuquerque.Google Scholar
Haury, E. W., and Hayden, J. D. 1975 Preface 1975, to the second printing of The Stratigraphy and Archaeology of Ventana Cave, University of Arizona Press.Google Scholar
Haury, E. W. Sayles, E. B., and Wasley, W. W. 1959 The Lehner Mammoth Site, Southeastern Arizona. American Antiquity 25:230.Google Scholar
Hayden, J. D. 1976 Pre-altithermal Archaeology in the Sierra Pinacate, Sonora, Mexico. American Antiquity 41:274289.Google Scholar
Haynes, C. V., Jr. 1968 Geochronology of Late-Quaternary Alluvium. In Means of Correlation of Quaternary Successions, edited by Morrison, R. B. and Wright, H. E., Jr., pp. 591631. University of Utah Press, Salt Lake City.Google Scholar
Haynes, C. V., Jr. 1984 Stratigraphy and Late Pleistocene Extinction in the United States. In Quaternary Extinctions: A Prehistoric Revolution, edited by Martin, P. S. and Klein, R. G., pp. 345353. University of Arizona Press, Tucson.Google Scholar
Haynes, C. V. Jr. 1987 Curry Draw, Cochise County, Arizona: A Late Quaternary Stratigraphic Record of Pleistocene Extinction and Paleo-Indian Activities. In Geological Society of America Centennial Field Guide—Cordilleran Section, 1987, edited by Hill, M. L., pp. 2328. Geological Society of America. Boulder.Google Scholar
Haynes, C. V., Jr. 1991 Geoarchaeological and Paleohydrological Evidence for a Clovis-Age Drought in North America and Its Bearing on Extinction. Quaternary Research 35:438450.Google Scholar
Hester, J. J. 1973 Blackwater Locality No. 1, A Stratified, Early Man Site in Eastern New Mexico. Publication of the Fort Burgwin Research Center No. 8, Southern Methodist University, Dallas.Google Scholar
Holliday, V. T. 1989 Middle Holocene Drought on the Southern High Plains. Quaternary Research 31:7482.Google Scholar
Holliday, V. T. 1997 Paleoindian Geoarchaeology of the Southern High Plains. University of Texas Press, Austin.Google Scholar
Holliday, V. T., Johnson, E., and Stafford, T. W. Jr. 1999 AMS Radiocarbon Dating of the Type Plainview and Firstview (Paleoindian) Assemblages: The Agony and the Ecstasy. American Antiquity 64:444454.CrossRefGoogle Scholar
Huckell, B. B. 1996 The Archaic Prehistory of the North American Southwest. Journal of World Prehistory 10:305373.Google Scholar
Jennings, J. D. 1957 Danger Cave. Anthropological Papers No. 27, University of Utah, Salt Lake City.Google Scholar
Layton, T. N. 1979 Archaeology and Paleoecology of Pluvial Lake Par- man, Northwestern Great Basin. Journal of New World Archaeology 3:4156.Google Scholar
McGuire, R. H. 1982 Problems in Culture History. In Hohokam and Patayan, Prehistory of Southwestern Arizona, edited by McGuire, R. H. and Schiffer, M. B., pp. 153222. Academic Press, New York.Google Scholar
Mead, J. I., and Meltzer, D. J. 1984 North American Late Quaternary Extinctions and the Radiocarbon Record. In Quaternary Extinctions; A Prehistoric Revolution, edited by Martin, P. S. and Klein, R. G., pp. 440450. University of Arizona Press, Tucson.Google Scholar
Mehringer, P. J., Jr. 1967 The Environment of Extinction of the Late-Pleistocene Megafauna in the Arid Southwestern United States. In Pleistocene Extinctions, The Search for a Cause, edited by Martin, P. S. and Wright, H. E., Jr., pp. 247266. Yale University Press, New Haven.Google Scholar
Meltzer, D. J., and Mead, J. I. 1985 Dating Late Pleistocene Extinctions: Theoretical Issues, Analytical Bias, and Substantive Results. In Environments and Extinctions: Man in Late Glacial North America, edited by Mead, J. I. and Meltzer, D. J., pp. 145174. University of Maine, Orono.Google Scholar
Parry, W. and Kelly, R. 1987 Expedient Core Technology and Sedentism. In The Organization of Core Technology, edited by Johnston, J. K. and Morrow, C. A., pp. 285304. Westview Press, Boulder.Google Scholar
Patterson, W. S. B., and Hammer, C. V. 1987 Ice Core and Other Glacial Data. In North America and Adjacent Oceans during the Last Deglaciation, edited by Ruddiman, W. F. and Wright, H. E. Jr, pp. 91109. Geology of North America K-3, Geological Society of America, Boulder, Colorado.Google Scholar
Rogers, M. J. 1939 Early Lithic Industries of the Lower Basin of the Colorado River and Adjacent Desert Areas. San Diego Museum Papers No. 3, San Diego Museum of Man, San Diego.Google Scholar
Rogers, M. J. 1958 San Dieguito Implements from the Terraces of the Rincon-Pantano and Rillito Drainage System. The Kiva 24:123.Google Scholar
Rogers, M. J. 1966 Ancient Hunters of the Far West. Union-Tribune, San Diego.Google Scholar
Sayles, E. B. 1941 Archaeology of the Cochise Culture. In The Cochise Culture, by Sayles, E. B. and Antevs, E., pp. 130. Medallion Papers No. 29, Gila Pueblo, Globe, Arizona.Google Scholar
Sayles, E. B. 1983 The Cochise Cultural Sequence in Southeastern Arizona. Anthropological Papers No. 42, University of Arizona, Tucson.Google Scholar
Shackley, M. S. 1988 Sources of Archaeological Obsidian in the Southwest: An Archaeological, Petrological, and Geochemical Study. American Antiquity 53:752772.Google Scholar
Shackley, M. S. 1990 Early Hunter-Gatherer Procurement Ranges in the Southwest: Evidence from Obsidian Geochemistry and Lithic Technology. Unpublished Ph.D. dissertation, Department of Anthropology, Arizona State University, Tempe.Google Scholar
Stuiver, M., Grootes, P. M., and Braziunas, T. 1995 The GISP2 δ18O Climate Record of the Past 16,500 Years and the Role of the Sun, Ocean, and Volcanoes. Quaternary Research 44:341354.Google Scholar
Turner, R. M., and Brown, D. E. 1982 Sonoran Desertscrub. In “Biotic Communities of the American Southwest, United States and Mexico,” Desert Plants vol. 4 (1-4) special issue, edited by Brown, D. E., pp. 181222. University of Arizona for the Boyce Thompson Southwestern Arboretum, Superior, Arizona.Google Scholar
Van Devender, T. R. 1990 Late Quaternary Vegetation and Climate of the Sonoran Desert, United States and Mexico. In Packrat Middens, edited by Betancourt, J. L., Van Devender, T. R., and Martin, P. S., pp. 134165. University of Arizona Press, Tucson.Google Scholar
Warren, C. N. 1967 The San Diequito Complex: A Review and Hypothesis. American Antiquity 32:168185.Google Scholar
Waters, M. R. 1986 The Geoarchaeology of Whitewater Draw, Arizona. Anthropological Papers No. 45, University of Arizona, Tucson.Google Scholar
Waters, M. R. 1988 Holocene Alluvial Geology and Geoarchaeology of the San Xavier Reach of the Santa Cruz River, Arizona. Geological Society of America Bulletin 100:479491.2.3.CO;2>CrossRefGoogle Scholar
Waters, M. R., and Haynes, C. V. Jr. 2001 Late Quaternary Arroyo Formation and Climate Change in the American Southwest. Geology 29:399402.Google Scholar
Willig, J. A., and Aikens, C. M. 1988 The Clovis-Archaic Interface in Far Western North America. In Early Human Occupation in Far Western North America: The Clovis-Archaic Interface, edited by Willig, J. A., Aikens, C. M., and Fagan, J. L., pp. 140. Anthropological Papers No. 21, Nevada State Museum, Carson City.Google Scholar