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Too Little, Too Late? The Radiocarbon Chronology of Alaska and the Peopling of the New World

Published online by Cambridge University Press:  20 January 2017

Michael R. Bever
Michael R. Bever*
Affiliation:
Department of Anthropology, The University of Texas at Austin, One University StationC3200, TX 78712-0303, Austin
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Abstract

Alaska is commonly viewed as a gateway between the Old and New Worlds, and as such, figures prominently in most models of the peopling of the New World. With a growing number of archaeological sites dating to the terminal Pleistocene, Alaska might be expected to provide direct evidence bearing on the colonization of the Americas. Based on 27 site components with 114 radiocarbon dates, this paper discusses the archaeological record of late Pleistocene Alaska, organized around the characteristics and chronology of three complexes: the microblade-bearing Denali complex, the Nenana complex, and the Mesa complex. This paper shows that the archaeological record of late Pleistocene Alaska is quite diverse, and not lacking in controversy and conflicting interpretations. In addition, this period of archaeological diversity coincides with the Younger Dryas climatic event. However, none of the reliably dated sites is older than the earliest evidence of human occupation further south in the Americas. Despite this, evidence from DNA studies points strongly to a north-central Asian homeland for Native Americans, upholding Alaska as the point of entry into the New World. Suggestions are offered, then, as to why the Alaskan record remains silent about the initial peopling of the New World.

Résumé

Résumé

Alaska se ve comúnmente como el puente entre el Viejo y el Nuevo Mundo, y como tal, figura prominentemente dentro de la mayoría de los modelos sobre la colonización inicial del Nuevo Mundo. Con un expediente creciente de sitios arqueológicos que fechan a finales del pleistoceno, se esperaría que Alaska proporcionara evidencia directa concerniente a la colonización de las Américas. Basado en un estudio de 27 componentes arqueológicos con 114 fechas de radiocarbono, este artículo discute la evidencia arqueológica del período pleistoceno tardío de Alaska, organizado alrededor de las características y cronología de tres complejos tecnológicos: el complejo Denali (marcado por microlaminillas), el complejo Nenana, y el complejo Mesa. Además, este estudio demuestra que la evidencia arqueológica del periodo pleistoceno tardió de Alaska es ampliamente diversa, y no escapa a controversia e interpretaciones en conflicto. Este período de diversidad arqueológica coincide con el acontecimiento climático conocide como el Younger Dryas. Sin embargo, ninguno de los componentes arqueológicos con fechas radiocarbónicas confiables son mucho más viejos que la evidencia más temprana de ocupación humana encontrada más al sur en las Américas. A pesar de esto, la evidencia derivada de estudios de ADN indica fuertemente que el lugar de origen de grupos autóctonos norteamericanos debe ser la región norte-central de Asia, apoyando a Alaska como el punto de entrada al nuevo mundo. Este artículo ofrece sugerencias en cuanto a porqué la evidencia arqueológica de Alaska aún no puede ser relacionada directamente con la colonización inicial de las Américas.

Type
Articles
Information
American Antiquity , Volume 71 , Issue 4 , October 2006 , pp. 595 - 620
Copyright
Copyright © The Society for American Archaeology 2006

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References

References Cited

Ackerman, Robert E. 1992 Earliest Stone Industries on the North Pacific Coast of North America. Arctic Anthropology 29(2):1827.Google Scholar
Ackerman, Robert E. 1996a Cave 1, Lime Hills. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick Ft. West, pp. 470477. University of Chicago Press, Chicago.Google Scholar
Ackerman, Robert E. 1996b Early Maritime Culture Complexes of the Northern Northwest Coast. In Early Human Occupation in British Columbia, edited by Roy L. Carlson and Luc Dalla Bona, pp. 123132. University of British Columbia Press, Vancouver.Google Scholar
Ackerman, Robert E. 1996c Ground Hog Bay 2. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 424430. University of Chicago Press, Chicago.Google Scholar
Ackerman, Robert E. 1996d Spein Mountain. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 456460. University of Chicago Press, Chicago.Google Scholar
Ackerman, Robert E. 2001 Spein Mountain: A Mesa Complex Site in Southwestern Alaska. Arctic Anthropology 38(2):8197.Google Scholar
Adovasio, J. M., Pedler, D., Donahue, J., and Stuckenrath, R. 1999 No Vestige of a Beginning nor Prospect for an End: Two Decades of Debate on Meadowcroft Rockshelter. In Ice Age Peoples of North America: Environments, Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 415431. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Anderson, Douglas D. 1968 A Stone Age Campsite at the Gateway to America. Scientific American 218(6):2433.CrossRefGoogle Scholar
Anderson, Douglas D. 1988 Onion Portage: The Archaeology of a Stratified Site from the Kobuk River in Northwest Alaska. Anthropological Papers of the University of Alaska 22(1–2), University of Alaska, Fairbanks.Google Scholar
Arnold, Thomas G. 2002 Radiocarbon Dates from the Ice-Free Corridor. Radiocarbon 44:437454.Google Scholar
Bamforth, Douglas B., and Bleed, Peter 1997 Technology, Flaked Stone Technology, and Risk. In Rediscovering Darwin: Evolutionary Theory in Archeological Explanation, edited by. C. Michael Barton and Geoffrey A. Clark, pp. 109139. Archeological Papers of the American Anthropological Association No. 7. Arlington, Virginia.Google Scholar
Bever, Michael R. 1999 Stone Tool Use at the Hilltop Site, Arctic Alaska: Notes on a Late-Pleistocene Lanceolate Point Occupation. Current Research in the Pleistocene 16:1012.Google Scholar
Bever, Michael R. 2000 Paleoindian Lithic Technology and Landscape Use in Late Pleistocene Alaska: A Study of the Mesa Complex. Ph.D. dissertation, Southern Methodist University, Dallas. University Microfilms, Ann Arbor.Google Scholar
Bever, Michael R. 2001a An Overview of Alaskan Late Pleistocene Archaeology: Historical Themes and Current Perspectives. Journal of World Prehistory 15:125191.Google Scholar
Bever, Michael R. 2001b Stone Tool Technology and the Mesa Complex: Developing a Framework of Alaskan Paleoindian Prehistory. Arctic Anthropology 38(2):98118.Google Scholar
Bigelow, Nancy H., and Edwards, Mary E. 2001 A 14,000 yr Paleoenvironmental Record from Windmill Lake, Central Alaska: Lateglacial and Holocene Vegetation in the Alaska Range. Quaternary Science Reviews 20:203215.CrossRefGoogle Scholar
Bleed, Peter 2002 Cheap, Regular, and Reliable: Implications of Design Variation in Late Pleistocene Japanese Microblade Technology. In Thinking Small: Global Perspectives on Microlithization, edited by Robert G. Elston and Steven L. Kuhn, pp. 95102. Archeological Papers of the American Anthropological Association No. 12. Arlington, Virginia.Google Scholar
Bowers, Peter M. 1980 The Carlo Creek Site: Geology and Archaeology of an Early Holocene Site in the Central Alaska Range. Anthropology and Historic Preservation, Cooperative Park Studies Unit, Occasional Paper 27. University of Alaska, Fairbanks.Google Scholar
Carlson, Roy L. 1996 Early Namu. In Early Human Occupation in British Columbia, edited by Roy L. Carlson and Luc Dalla Bona, pp. 83102. University of British Columbia Press, Vancouver.Google Scholar
Cinq-Mars, Jacques, Richard Harington, C., Erie Nelson, D., and MacNeish, Richard S. 1991 Engigstciak Revisited: A Note on Early Holocene AMS Dates from the “Buffalo Pit.” In NOGAP Archaeology Project: An Integrated Archaeological Research and Management Approach, edited by Jacques Cinq-Mars and Jean-Luc Pilon, pp. 3344. Canadian Archaeological Association, Occasional Paper No. 1.Google Scholar
Cinq-Mars, Jacques, and Morlan, Richard E. 1999 Bluefish Caves and Old Crow Basin: A New Rapport. In Ice Age Peoples of North America: Environments, Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 200212. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Clark, Donald W. 1983 Is there a Northern CordiUeran Tradition? Canadian Journal of Archaeology 7:2348.Google Scholar
Clark, Donald W. 1984 Northern Fluted Points: Paleo-Eskimo, Paleo-Arctic, or Paleo-Indian. Canadian Journal of Anthropology 4:6581.Google Scholar
Clark, Donald W. 1991 The Northern (Alaska-Yukon) Fluted Points. In Clovis: Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 3548. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Clark, Donald W. 2001 Microblade-Culture Systematics in the Far Interior Northwest. Arctic Anthropology 38(2):6480.Google Scholar
Cook, John P. 1969 The Early Prehistory of Healy Lake, Alaska. Ph.D. dissertation, University of Wisconsin, Madison. University Microfilms, Ann Arbor.Google Scholar
Cook, John P. 1996 Healy Lake. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 323327. University of Chicago Press, Chicago.Google Scholar
Davis, Stanley D. (editor) 1989 The Hidden Falls Site, Baranof Island, Alaska. Alaska Anthropological Association Series, No. 5. Aurora Press, Anchorage.Google Scholar
Davis, Stanley D. 1996 Hidden Falls. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 413424. University of Chicago Press, Chicago.Google Scholar
de Laguna, Frederica 1936 An Archaeological Reconnaissance of the Middle and Lower Yukon Valley, Alaska. American Antiquity 2:612.Google Scholar
Dillehay, Tom D. 1997 Monte Verde: A Late Pleistocene Settlement in Chile, Volume 2: The Archaeological Context and Interpretation. Smithsonian Institution Press, Washington, D.C.Google Scholar
Dixon, E. James 1975 The Gallagher Flint Station, an Early Man Site on the North Slope, Arctic Alaska, and its Role in Relation to the Bering Land Bridge. Arctic Anthropology 12(1):6881.Google Scholar
Dixon, E. James 1985 Cultural Chronology of Central Interior Alaska. Arctic Anthropology 22(1):4766.Google Scholar
Dixon, E. James 1999 Bones, Boats, and Bison: Archaeology of the First Colonization of Western North America. University of New Mexico Press, Albuquerque.Google Scholar
Dixon, E. James 2001 Human Colonization of the Americas: Timing, Technology and Process. Quaternary Science Reviews 20:277299.Google Scholar
Dumond, Don E. 1980 The Archaeology of Alaska and the Peopling of America. Science 209:984991.CrossRefGoogle Scholar
Dumond, Don E. 1987 The Eskimos and Aleuts. Thames and Hudson, London.Google Scholar
Dumond, Don E. 1990 Notes on Some Early Blade Industries of the Alaska Peninsula Region. Chronostratigraphy of the Paleolithic in North, Central, East Asia and America, pp. 166172. Academy of Sciences of the USSR, Novosibirsk.Google Scholar
Dumond, Don E. 2001 The Archaeology of Eastern Beringia: Some Contrasts and Connections. Arctic Anthropology 38(2):196205.Google Scholar
Easton, N. Alexander 1992 Mai de Mer above Terra Incognita, or, “What Ails the Coastal Migration Theory?” Arctic Anthropology 29(2):2841.Google Scholar
Elias, Scott A. 2000 Late Pleistocene Climates of Beringia, Based on Analysis of Fossil Beetles. Quaternary Research 53:229235.CrossRefGoogle Scholar
Elston, Robert G., and Jeffrey Brantingham, P. 2002 Microlithic Technology in Northern Asia: Risk-Minimizing Strategy of the Late Pleistocene and Early Holocene. In Thinking Small: Global Perspectives on Microlithization, edited by Robert G. Elston and Steven L. Kuhn, pp. 103116. Archeological Papers of the American Anthropological Association No. 12. Arlington, Virginia.Google Scholar
Erlandson, Jon M., and Moss, Madonna L. 1996 The Pleistocene-Holocene Transition along the Pacific Coast of North America. In End of the Ice Age: The Archaeology of the Pleistocene-Holocene Transition, edited by Lawrence G. Straus, Berit V. Eriksen, Jon M. Erlandson, and David R. Yesner, pp. 277301. Plenum Press, New York.Google Scholar
Eshleman, Jason A., Malhi, Ripan S., and Smith, David Glenn 2003 Mitochondrial DNA Studies of Native Americans: Conceptions and Misconceptions of the Population Prehistory of the Americas. Evolutionary Anthropology 12:718.Google Scholar
Fedje, Daryl W. 2002 The Early Post-Glacial History of the Northern Northwest Coast: A View from Haida Gwaii and Hecate Strait. Athena Review 3(2):2830, 100.Google Scholar
Fedje, Daryl W., Mackie, Quentin, James Dixon, E., and Heaton, Timothy H. 2004 Late Wisconsin Environments and Archaeological Visibility on the Northern Northwest Coast. In Entering America: Northeast Asia and Beringia before the Last Glacial Maximum, edited by David B. Madsen, pp. 97138. University of Utah Press, Salt Lake City.Google Scholar
Ferguson, Daryl E. 1997 Gallagher Flint Station, Locality 1: A Reappraisal of a Proposed Late Pleistocene Site in the Saganavirktok River Valley, Arctic Alaska. Master’s thesis, Department of Anthropology, University of Alaska, Fairbanks.Google Scholar
Fiedel, Stuart J. 1999 Older Than We Thought: Implications of Corrected Dates for Paleoindians. American Antiquity 64:95115.CrossRefGoogle Scholar
Giddings, J. L. Jr. 1951 The Denbigh Flint Complex. American Antiquity 16:193203.Google Scholar
Goebel, Ted 1999 Pleistocene Human Colonization of Siberia and Peopling of the Americas: An Ecological Approach. Evolutionary Anthropology 8:208227.3.0.CO;2-M>CrossRefGoogle Scholar
Goebel, Ted 2002 The “Microblade Adaptation” and Recolonization of Siberia during the Late Upper Pleistocene. In Thinking Small: Global Perspectives on Microlithization, edited by Robert G. Elston and Steven L. Kuhn, pp. 117131. Archeological Papers of the American Anthropological Association No. 12. Arlington, Virginia.Google Scholar
Goebel, Ted 2004 The Search for a Clovis Progenitor in Sub-Arctic Siberia. In Entering America: Northeast Asia and Beringia before the Last Glacial Maximum, edited by David B. Madsen, pp. 311356. University of Utah Press, Salt Lake City.Google Scholar
Goebel, Ted, and Bigelow, Nancy H. 1996 Panguingue Creek. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 366371. University of Chicago Press, Chicago.Google Scholar
Goebel, Ted, Roger Powers, W., and Bigelow, Nancy H. 1991 The Nenana Complex of Alaska and Clovis origins. In Clovis: Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 4979. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Goebel, Ted, Roger Powers, W., Bigelow, Nancy H., and Higgs, Andrew S. 1996 Walker Road. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 356363. University of Chicago Press, Chicago.Google Scholar
Goebel, Ted, and Slobodin, Sergei B. 1999 The Colonization of Western Beringia: Technology, Ecology and Adaptations. In Ice Age Peoples of North America: Environments, Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 104155. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Goebel, Ted, Waters, Michael R., and Dikova, Margarita 2003 The Archaeology of Ushki Lake, Kamchatka, and the Pleistocene Peopling of the Americas. Science 301:501505.CrossRefGoogle ScholarPubMed
Grayson, Donald K. 2004 Monte Verde, Field Archaeology, and the Human Colonization of the Americas. In Entering America: Northeast Asia and Beringia before the Last Glacial Maximum, edited by David B. Madsen, pp. 379387. University of Utah Press, Salt Lake City.Google Scholar
Guthrie, R. Dale 1983 Osseous Projectile Points: Biological Considerations Affecting Raw Material Selection and Design among Paleolithic and Paleoindian Peoples. In Animals and Archaeology I: Hunters and Their Prey, edited by J. Clutton-Brock and C. Grigson, pp. 273294. BAR International Series No. 163, Oxford.Google Scholar
Hadleigh-West, Frederick 1967 The Donnelly Ridge Site and the Definition of an Early Core and Blade Complex in Central Alaska. American Antiquity 32:360382.Google Scholar
Hamilton, Thomas D., and Goebel, Ted 1999 Late Pleistocene Peopling of Alaska. In Ice Age Peoples of North America: Environments, Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 156199. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Haynes, C. Vance 1964 Fluted Projectile Points: Their Age and Dispersion. Science 145:14081413.Google Scholar
Haynes, C. Vance 1987 Clovis Origins Update. The Kiva 52(2):8392.CrossRefGoogle Scholar
Heffner, Ty Alexander 2002 KaVn-2: An Eastern Beringian Tradition Archaeological Site in West-CentralYukon Territory, Canada. Occasional Papers in Archaeology No. 10, Heritage Branch, Government of the Yukon.Google Scholar
Hibben, Frank C. 1943 Evidences of Early Man in Alaska. American Antiquity 8:254263.CrossRefGoogle Scholar
Hoffecker, John F. 2001 Late Pleistocene and Early Holocene Sites in the Nenana River Valley, Central Alaska. Arctic Anthropology 38(2):139153.Google Scholar
Hoffecker, John F, and Elias, Scott A. 2003 Environment and Archaeology in Beringia. Evolutionary Anthropology 12:3449.Google Scholar
Hoffecker, John F., Roger Powers, W., and Bigelow, Nancy H. 1996 Dry Creek. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 343352. University of Chicago Press, Chicago.Google Scholar
Hoffecker, John F., Roger Powers, W., and Goebel, Ted 1993 The Colonization of Beringia and the Peopling of the New World. Science 259:4653.Google Scholar
Hoffecker, John F., Roger Powers, W., and Phippen, Peter G. 1996 Owl Ridge. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 353356. University of Chicago Press, Chicago.Google Scholar
Holmes, Charles E. 1996 Broken Mammoth. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 312318. University of Chicago Press, Chicago.Google Scholar
Holmes, Charles E. 1998 New Data Pertaining to Swan Point, the Oldest Microblade Site Known in Alaska. Current Research in the Pleistocene 15:2122.Google Scholar
Holmes, Charles E. 2001 Tanana Valley Archaeology Circa 14,000 to 9,000 B.P. Arctic Anthropology 38(2):154170.Google Scholar
Holmes, Charles E., and Crass, Barbara A. 2003 Early Cultural Components in Central Alaska: An Update from Swan Point. Paper presented at the 39th Annual Meeting of the Alaska Anthropological Association, Fairbanks.Google Scholar
Holmes, Charles E., VanderHoek, Richard, and Dilley, Thomas E. 1996 Swan Point. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 319323. University of Chicago Press, Chicago.Google Scholar
Hu, Feng Sheng, and Shemesh, Aldo 2003 A Biogenic-Silica δ18O Record of Climatic Change during the Last Glacial-Interglacial Transition in Southwestern Alaska. Quaternary Research 59:379385.Google Scholar
Hughen, Konrad A., Southon, John R., Lehman, Scott J., and Overpeck, Jonathan T. 2000 Synchronous Radiocarbon and Climate Shifts during the Last Deglaciation. Science 290:19511954.CrossRefGoogle ScholarPubMed
Kitagawa, H., and van der Plicht, J. 1998 Atmospheric Radiocarbon Calibration to 45,000 yr B.P: Late Glacial Fluctuations and Cosmogenic Isotope Production. Science 279:11871190.CrossRefGoogle Scholar
Kunz, Michael L., Bever, Michael R., and Adkins, Constance 2003 The Mesa Site: Paleoindians above the Arctic Circle. BLM-Alaska Open File Report, No. 86. United States Department of the Interior, Bureau of Land Management, Alaska State Office, Anchorage.Google Scholar
Kunz, Michael L., and Reanier, Richard E. 1995 The Mesa Site: A Paleoindian Hunting Lookout in Arctic Alaska. Arctic Anthropology 32(1):530.Google Scholar
Largent, Floyd Jr. 2004 Early Americans in Eastern Beringia: Pre-Clovis Traces at Swan Point, Alaska. Mammoth Trumpet 20(1):47.Google Scholar
Larsen, Helge 1968 Trail Creek: Final Report on the Excavation of Two Caves on Seward Peninsula. Acta Arctica 15. Danish Arctic Institute, Copenhagen.Google Scholar
Lively, Ralph A. 1996 Chugwater. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 308311. University of Chicago Press, Chicago.Google Scholar
Loy, Thomas H., and James Dixon, E. 1998 Blood Residues on Fluted Points from Eastern Beringia. American Antiquity 63:2146.Google Scholar
MacNeish, Richard S. 2000 The Significance of Early Radiocarbon Dates on Extinct Bisonpriscus Bones from Engigstciak, Yukon Arctic Coast. In Mounds, Modoc, and Mesoamerica: Papers in Honor of Melvin L. Fowler, edited by Steven R. Ahler, pp. 123. Illinois State Museum Scientific Papers, Vol. 28, Springfield.Google Scholar
McAvoy, Joseph M., and McAvoy, L. D. 1997 Archaeological Investigations of Site 44SX202, Cactus Hill, Sussex County, Virginia. Research Report Series No. 8, Virginia Department of Historic Resources, Richmond.Google Scholar
McCartney, Allen P., and Veltre, Douglas W. 1996 Anangula Core and Blade Site. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 443450. University of Chicago Press, Chicago.Google Scholar
Mandryk, Carole A. S., Josenhans, Heiner, Fedje, Daryl W., and Mathewes, Rolf W. 2001 Late Quaternary Paleoenvironments of Northwestern North America: Implications for Inland Versus Coastal Migration Routes. Quaternary Science Reviews 20:301314.Google Scholar
Mann, Daniel H., Peteet, Dorothy M., Reanier, Richard E., and Kunz, Michael L. 2002 Responses of an Arctic Landscape to Lateglacial and Early Holocene Climatic Changes: The Importance of Moisture. Quaternary Science Reviews 21:9971021.Google Scholar
Mann, Daniel H., Reanier, Richard E., Peteet, Dorothy M., Kunz, Michael L., and Johnson, Mark 2001 Environmental Change and Arctic Paleoindians. Arctic Anthropology 38(2):119138.Google Scholar
Mason, Owen K., Bowers, Peter M., and Hopkins, David M. 2001 The Early Holocene Milankovitch Thermal Maximum and Humans: Adverse Conditions for the Denali Complex of Eastern Beringia. Quaternary Science Reviews 20:525548.Google Scholar
Meltzer, David J. 2001 Late Pleistocene Cultural and Technological Diversity of Beringia: A View from Down Under. Arctic Anthropology 38(2):206213.Google Scholar
Meltzer, David J. 2004 Peopling of North America. In The Quaternary Period in the United States, edited by A. R. Gillespie, S. C. Porter, and B. F. Atwater, pp. 539563. Elsevier Science, New York,Google Scholar
Meltzer, David J., Grayson, Donald K., Ardila, Gerardo, Barker, Alex W., Dincauze, Dena F., Vance Haynes, C., Mena, Francisco, Núñez, Lautaro, and Stanford, Dennis J. 1997 On the Pleistocene Antiquity of Monte Verde, Southern Chile. American Antiquity 62:659663.CrossRefGoogle Scholar
Merriwether, D. Andrew 2002 A Mitochondrial Perspective on the Peopling of the New World. In The First Americans: The Pleistocene Colonization of the New World, edited by Nina G. Jablonski, pp. 295310. Memoirs of the California Academy of Sciences, No. 27.Google Scholar
Morlan, Richard E. 1977 Fluted Point Makers and the Extinction of the Arctic-Steppe Biome in Eastern Beringia. Canadian Journal of Archaeology 1:95108.Google Scholar
Morlan, Richard E. 2003 Current Perspectives on the Pleistocene Archaeology of Eastern Beringia. Quaternary Science Reviews 60:123132.Google Scholar
Miiller-Beck, Hansjürgen 1966 Paleohunters in America: Origins and Diffusion. Science 152:11911210.Google Scholar
Nelson, Nels C. 1935 Early Migration of Man to America. Natural History 35:356.Google Scholar
Oswalt, Wendell H. 1976 An Anthropological Analysis of Food-getting Technology. Wiley and Sons, New York.Google Scholar
Pearson, Georges A. 1999 Early Occupations and Cultural Sequence at Moose Creek: A Late Pleistocene Site in Central Alaska. Arctic 52:332345.Google Scholar
Pitulko, V. V., Nikolsky, P. A., Girya, E. Yu., Basilyan, A. E., Tumskoy, V. E., Koulakov, S. A., Astakhov, S. N., Pavlova, E. Yu., and Anisimov, M. A. 2004 The Yana RHS Site: Humans in the Arctic before the Last Glacial Maximum. Science 303:5256.Google Scholar
Powers, William R. 1996 Siberia in the Late Glacial and Early Postglacial. In Humans at the End of the Ice Age: The Archaeology of the Pleistocene-Holocene Transition, edited by Lawrence G. Straus, Berit V. Eriksen, Jon M. Erlandson, and David R. Yesner, pp. 229242. Plenum Press, New York.Google Scholar
Powers, William R., and Hoffecker, John F. 1989 Late Pleistocene Settlement in the Nenana Valley, Central Alaska. American Antiquity 54:263287.Google Scholar
Rainey, Froelich 1939 Archaeology in Central Alaska. Anthropological Papers of the American Museum of Natural History 36:351405.Google Scholar
Rasic, Jeff 2003 Ancient Hunters of the Western Brooks Range: Integrating Research and Cultural Resource Management. Alaska Park Science Winter 2003:2125. U.S. Department of the Interior, National Park Service, Alaska Support Office, Anchorage.Google Scholar
Rasic, Jeff, and Andrefsky, William Jr. 2001 Alaskan Blade Cores as Specialized Components of Mobile Toolkits: Assessing Design Parameters and Toolkit Organization. In Lithic Debitage: Context, Form, Meaning, edited by William Andrefsky Jr., pp. 147172. University of Utah Press, Salt Lake City.Google Scholar
Rasic, Jeff, and Gal, Robert 2000 An Early Lithic Assemblage from the Tuluaq Site, Northwest Alaska. Current Research in the Pleistocene 17:6668.Google Scholar
Reamer, Richard E. 1995 The Antiquity of Paleoindian Materials in Northern Alaska. Arctic Anthropology 32(1):3150.Google Scholar
Reimer, Paula J., Baillie, Mike G. L., Bard, Edouard, Bayliss, Alex, Beck, Warren J., Bertrand, Chanda J. H., Blackwell, Paul G., Buck, Caitlin E., Burr, George S., Cutler, Kirsten B., Damon, Paul E., Lawrence Edwards, R., Fairbanks, Richard G., Friedrich, Michael, Guilderson, Thomas P., Hogg, Alan G., Hughen, Konrad A., Kromer, Bernd, McCormac, Gerry, Manning, Sturt, Ramsey, Christopher Bronk, Reimer, Ron W., Remmele, Sabine, Southon, John R., Stuiver, Minze, Talamo, Sahra, Taylor, F. W., van der Plicht, Johannes, and Weyhenmeyer, Constanze E. 2005 IntCal04 Terrestrial Radiocarbon Age Calibration, 0–26 Cal Kyr BP. Radiocarbon 46:10291058.Google Scholar
Schurr, Theodore G. 2004a Molecular Genetic Diversity in Siberians and Native Americans Suggests an Early Colonization of the New World. In Entering America: Northeast Asia and Beringia before the Last Glacial Maximum, edited by David B. Madsen, pp. 187238. University of Utah Press, Salt Lake City.Google Scholar
Schurr, Theodore G. 2004b The Peopling of the New World: Perspectives from Molecular Anthropology. Annual Review of Anthropology 33:551583.Google Scholar
Slobodin, Sergey B. 1999 Northeast Asia in the Late Pleistocene and Early Holocene. World Archaeology 30:484502.Google Scholar
Solecki, Ralph S. 1951 How Man Came to North America. Scientific American 184(1):1115.Google Scholar
Stanford, Dennis 1999 Paleoindian Archaeology and Late Pleistocene Environments in the Plains and Southwestern United States. In Ice Age Peoples of North America: Environments, Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 281339. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Stanford, Dennis, and Bradley, Bruce 2002 Ocean Trails and Pairie Paths? Thoughts about Clovis Origins. In The First Americans: The Pleistocene Colonization of the New World, edited by Nina G. Jablonski, pp. 255271. Memoirs of the California Academy of Sciences, No. 27.Google Scholar
Steffian, Amy F., Eufemio, Elizabeth P., and Salton-stall, Patrick G. 2002 Early Sites and Microblade Technologies from the Kodiak Archipelago. Anthropologiical Papers of the University of Alaska, New Series 2(1):138.Google Scholar
Stuiver, Minze, and Reimer, Paula J. 1993 Extended 14C Database and Revised CALIB Radiocarbon Calibration Program. Radiocarbon 35:215230.Google Scholar
Taylor, R. E. 2000 The Contribution of Radiocarbon Dating to New World Archaeology. Radiocarbon 42:121.Google Scholar
Thompson, Raymond M. 1948 Notes on the Archaeology of the Utukok River, Northwestern Alaska. American Antiquity 14:6265.Google Scholar
Torrence, Robin 1983 Time Budgeting and Hunter-Gatherer Technology. In Hunter-Gatherer Economy in Prehistory, edited by Geoff Bailey, pp. 1122. Cambridge University Press, Cambridge.Google Scholar
Wagner, Daniel P., and McAvoy, Joseph M. 2004 Pedoarchaeology of Cactus Hill, a Sandy Paleoindian Site in Southeastern Virginia, U.S.A. Geoarchaeology 19:297322.Google Scholar
West, Frederick H. 1975 Dating the Denali Complex. Arctic Anthropology 12(1):7681.Google Scholar
West, Frederick H. 1981 The Archaeology of Beringia. Columbia University Press, New York.Google Scholar
West, Frederick H. 1996 Beringia and New World Origins II: The Archaeological Evidence. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 537559. University of Chicago Press, Chicago.Google Scholar
West, Frederick H. (editor) 1996 American Beginnings: The Prehistory and Paleoecology of Beringia. University of Chicago Press, Chicago.Google Scholar
West, Frederick H., Robinson, Brian S., and Curran, Mary Lou 1996 Phipps Site. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 381386. University of Chicago Press, Chicago.Google Scholar
West, Frederick H., Robinson, Brian S., and West, Constance F. 1996 Whitmore Ridge. In American Beginnings: The Prehistory and Paleoecology of Beringia, edited by Frederick H. West, pp. 386394. University of Chicago Press, Chicago.Google Scholar
Willingham, Frank F., Putnam, David E., and Brower, Gordon 2000 Alaskan North Slope Permafrost Yields Pleistocene Tree. Current Research in the Pleistocene 17:113114.Google Scholar
Wilson, Michael C., and Burns, James A. 1999 Searching for the Earliest Canadians: Wide Corridors, Narrow Doorways, Small Windows. In Ice Age Peoples of North America: Environments, Origins and Adaptations, edited by Robson Bonnichsen and Karen L. Turnmire, pp. 213248. Center for the Study of the First Americans, Oregon State University Press, Corvallis.Google Scholar
Yesner, David R. 1996 Human Adaptation at the Pleistocene-Holocene Boundary (circa 13,000 to 8,000 BP) in Eastern Beringia. In Humans at the End of the Ice Age: The Archaeology of the Pleistocene-Holocene Transition, edited by Lawrence G. Straus, Berit V. Eriksen, Jon M. Erlandson, and David R, Yesner, pp. 255276. Plenum Press, New York.Google Scholar
Yesner, David R. 2001 Human Dispersal into Interior Alaska: Antecedent Conditions, Mode of Colonization, and Adaptations. Quaternary Science Reviews 20:315327.Google Scholar
Yesner, David R., and Pearson, Georges A. 2002 Microblades and Migrations: Ethnic and Economic Models in the Peopling of the Americas. In Thinking Small: Global Perspectives on Microlithization, edited by Robert G. Elston and Steven L. Kuhn, pp. 133161, Archeological Papers of the American Anthropological Association No. 12. Arlington, Virginia.Google Scholar
Yesner, David R., Pearson, Georges A., and Stone, Daniel E. 2000 Additional Organic Artifacts from the Broken Mammoth Site, Big Delta, Alaska. Current Research in the Pleistocene 17:8789.Google Scholar
Zegura, Stephen L., Karafet, Tatiana M., Zhivotovsky, Lev A., and Hammer, Michael F. 2004 High-resolution SNPs and Microsatellite Haplotypes Point to a Single, Recent Entry of Native American Y Chromosomes into the Americas. Molecular Biology and Evolution 21:164175.Google Scholar