Abstract
Paleoecological records indicate that from the Allerød to early Holocene interior Alaska underwent significant climatic changes that affected local environments. How did prehistoric Alaskans respond to these shifts between 14,000 and 10,000 cal BP? This paper examines the lithic record at the Owl Ridge site, central Alaska, from a human ecological perspective to explain changes in adaptive behaviors of prehistoric Alaskans. Owl Ridge is a multicomponent site located along the Teklanika River with three cultural components dating to the late Allerød (about 13,000), end of the Younger Dryas (about 12,000), and the very beginning of the Holocene Thermal Maximum (about 11,200 cal BP). We characterize and compare toolstone procurement and selection activities between these components to explore human response to changing climate at the Pleistocene-Holocene boundary. This study shows there were differences in technological organization and land-use patterns between the first occupation and subsequent occupations of the site. Initial occupants of Owl Ridge, utilizing the Nenana technocomplex, were not as familiar with the local lithic landscape as later counterparts. Later occupants, using the Denali technocomplex, exploited a higher degree of local toolstones and had become much more familiar with the local lithic landscape. We argue these changes in lithic technology and raw material procurement and selection behaviors reflect shifting land-use strategies used by interior Alaskans as they responded to climate-induced resource distribution shifts at the very end of the Pleistocene.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Abbott, M. B., Finney, B. P., Edwards, M. D., & Kelts, K. R. (2000). Paleohydrology of Birch Lake, central Alaska: A multiproxy approach to lake-level records. Quaternary Research, 53(1), 154–166.
Anderson, P. M., Edwards, M. E., & Brubaker, L. B. (2004). Results and paleoclimate implications of 35 years of paleoecological research in Alaska. In A. R. Gillespie & S. C. Porter (Eds.), The Quaternary Period in the United States (pp. 427–440). Amsterdam: Elsevier.
Andrefsky, W. R. (2009). The analysis of stone tool procurement, production, and maintenance. Journal of Archaeological Research, 17(1), 65–103.
Bamforth, D. B. (1991). Technological organization and hunter-gatherer land use: A California example. American Antiquity, 56(2), 216–234.
Barber, V. A., & Finney, B. P. (2000). Late quaternary paleoclimatic reconstructions for interior Alaska based on paleolake-level data and hydrologic models. Journal of Paleolimnology, 24(1), 29–41.
Bigelow, N. H., & Edwards, M. 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(1), 203–215.
Bigelow, N. H., & Powers, W. R. (2001). Climate, vegetation, and archaeology 14,000–9,000 cal yr B.P. in central Alaska. Arctic Anthropology, 38(2), 171–195.
Bigelow, N. H., Powers, W. R., & Begét, J. (1990). Latest Pleistocene increase in wind intensity recorded in eolian sediments from central Alaska. Quaternary Research, 34(2), 160–168.
Binford, L. R. (1979). Organization and formation processes: Looking at curated technologies. Journal of Anthropological Research, 35(3), 255–273.
Binford, L. R. (1980). Willow smoke and dogs’ tails: Hunter-gatherer settlement systems and archaeological site formation. American Antiquity, 45(1), 4–20.
Birks, H. H., Gelorini, V., Robinson, E., & Hoek, W. Z. (2015). Impacts of palaeoclimate change 60,000-8,000 years ago on humans and their environments in Europe: Integrating palaeoenvironmental and archaeological data. Quaternary International, 378, 4–13.
Bleed, P., & Bleed, A. (1987). Energetic efficiency and hand tool design: A performance comparison of push and pull stroke saws. Journal of Anthropological Archaeology, 6(2), 189–197.
Bowers, P. M. (1980). The Carlo Creek Site: Geology and Archaeology of an Early Holocene Site in the Central Alaska Range. Fairbanks, AK: Occasional Papers No. 27, University of Alaska, Fairbanks, Anthropology and Historic Preservation Cooperative Park Series Unit, Occasional Papers No. 27.
Bowers, P. M., & Reuther, J. (2008). AMS re-dating of the Carlo Creek site, Nenana valley, central Alaska. Current Research in the Pleistocene, 25, 58–61.
Brubaker, L. B., Anderson, P. M., Edwards, M. E., & Lozhkin, A. V. (2005). Beringia as a glacial refugium for boreal trees and shrubs: New perspectives from mapped pollen date. Journal of Biogeography, 32(5), 833–848.
Coffman, S. C. (2011). Archaeology at Teklanika West (HEA-001): An upland archaeological site, central Alaska. Unpublished M.A. thesis, Department of Anthropology, University of Alaska, Fairbanks.
Coffman, S. C., & Rasic, J. (2015). Rhyolite characterization and distribution in central Alaska. Journal of Archaeological Science, 57, 142–157.
Cook, J. P. (1996). Healy Lake. In F. H. West (Ed.), American beginnings: The prehistory and paleoecology of Beringia (pp. 323–327). Chicago: University of Chicago Press.
Cooper, J., & Sheets, P. (2012). Surviving sudden environmental change. Boulder: University Press of Colorado.
Crass, B. A., Kedrowski, B. L., Baus, J., & Behm, J. A. (2011). Residue analysis of bone-fueled Pleistocene hearths. In T. Goebel & I. Buvit (Eds.), From the Yenisei to the Yukon: Interpreting lithic assemblage variability in Late Pleistocene/Early Holocene Beringia (pp. 192–198). College Station: Texas A&M University Press.
Dikov, N. N. (1977). Arkheologicheskie Pamiatniki Kamchatki, Chukotki i Verkhnei Kolymy. Moscow: Nauka.
Dortch, J. M., Owen, L. A., Caffee, M. C., Li, D., & Lowell, T. V. (2010). Beryllium-10 surface exposure dating of glacial successions in the Central Alaska range. Journal of Quaternary Science, 25(8), 1259–1269.
Elston, R. G., & Brantingham, P. J. (2002). Microlithic technology in northern Asia: A risk-minimizing strategy of the late Paleolithic and early Holocene. Archeological Papers of the American Anthropological Association, 12(1), 103–116.
Erlandson, J., Walser, R., Maxwell, H., Bigelow, N., Cook, J., Lively, R., Adkins, C., Dodson, D., Higgs, A., & Wilber, J. (1991). Two early sites of eastern Beringia: Context and chronology in Alaskan interior archaeology. Radiocarbon, 33(1), 35–50.
Fitzhugh, B. (2012). Hazards, impacts, and resilience among hunter-gatherers of the Kuril Islands. In J. Cooper & P. Sheets (Eds.), Surviving sudden environmental change (pp. 19–42). Boulder: University Press of Colorado.
Gal, R. (2002). Providence and frugality: Tools for high latitude living. In Paper presented at the 29th annual meeting of the Alaska Anthropological Association. Alaska: Anchorage.
Goebel, T., Powers, W. R., & Bigelow, N. H. (1991). The Nenana complex of Alaska and Clovis origins. In R. Bonnichsen & K. L. Turnmire (Eds.), Clovis origins and adaptations (pp. 49–79). Corvallis: Center for the Study of the First Americans.
Goebel, T., Powers, W. R., Bigelow, N. H., & Higgs, A. S. (1996). Walker road. In F. H. West (Ed.), American beginnings: The prehistory and paleoecology of Beringia (pp. 356–363). Chicago: University of Chicago Press.
Goebel, T., Waters, M. R., & Dikova, M. (2003). The archaeology of Ushki Lake, Kamchatka, and the Pleistocene peopling of the Americas. Science, 301(5632), 501–505.
Goebel, T., Waters, M. R., & O’Rourke, D. H. (2008). The late Pleistocene dispersal of modern humans in the Americas. Science, 319(5869), 1497–1502.
Goebel, T., Slobodin, S. B., & Waters, M. R. (2010). New dates from Ushki-1, Kamchatka, confirm 13,000 cal BP age for earliest Paleolithic occupation. Journal of Archaeological Science, 37, 2640–2649.
Gómez Coutouly, Y. A. (2011). Identifying pressure flaking modes at Diuktai cave: A case study of the Siberian upper Paleolithic microblade tradition. In T. Goebel & I. Buvit (Eds.), From the Yenisei to the Yukon: Interpreting lithic assemblage variability in Late Pleistocene/Early Holocene Beringia (pp. 75–90). College Station: Texas A&M University Press.
Gómez Coutouly, Y. A. (2012). Pressure microblade industries in Pleistocene-Holocene interior Alaska: Current data and discussions. In P. M. Desrosiers (Ed.), Emergence of pressure blade making: From origins to modern experimentation (pp. 347–374). New York: Springer.
Graf, K. E. (2008). Uncharted territory: Late Pleistocene hunter-gatherer dispersal in the Siberian mammoth-steppe. PhD dissertation, Department of Anthropology, University of Nevada, Reno.
Graf, K. E. (2010). Hunter–gatherer dispersals in the mammoth-steppe: Technological provisioning and land-use in the Enisei River valley, south-central Siberia. Journal of Archaeological Science, 37(1), 210–223.
Graf, K. E., & Bigelow, N. H. (2011). Human response to climate during the younger Dryas chronozone in central Alaska. Quaternary International, 242(2), 434–451.
Graf, K. E., & Goebel, T. (2009). Upper Paleolithic toolstone procurement and selection across Beringia. In B. Blades & B. Adams (Eds.), Lithic materials and Paleolithic societies (pp. 55–77). London: Blackwell Publishers.
Graf, K. E., Blong, J., & Goebel, T. (2010). A concave-based projectile point form new excavations at the Owl Ridge site, central Alaska. Current Research in the Pleistocene, 27, 88–91.
Graf, K. E., DiPietro, L. M., Krasinski, K. E., Gore, A. K., Smith, H. L., Culleton, B. J., Kennett, D. J., & Rhode, D. (2015). Dry Creek revisited: New excavations, radiocarbon dates, and site formation inform on the peopling of eastern Beringia. American Antiquity, 80(4), 671–694.
Guthrie, R. D. (1983). Chapter 6: Paleoecology of the site and its implications for early hunters. In W. R. Powers, R. D. Guthrie, & J. F. Hoffecker (Eds.), Dry Creek: Archaeology and Paleoecology of a Late Pleistocene Alaskan Hunting Camp (pp. 209–283). Unpublished report.
Guthrie, R. D. (2006). New carbon dates link climatic change with human colonization and Pleistocene extinctions. Nature, 441(7090), 207–209.
Guthrie, R. D. (2017). Chapter 6: Paleoecology of the site and its implications for early hunters. In W. R. Powers, R. D. Guthrie, J. F. Hoffecker, & T. Goebel (Eds.), Dry Creek: Archaeology and paleoecology of a late pleistocene Alaskan Hunting camp (pp. 153–192). College Station: Texas A&M University Press.
Halperin, R. (1980). Ecology and mode of production: Seasonal variation and the division of labor by sex among hunter-gatherers. Journal of Anthropological Research, 36(3), 379–399.
Hamilton, T. D., & Goebel, T. (1999). Late Pleistocene peopling of Alaska. In R. Bonnichsen & K. L. Turnmire (Eds.), Ice Age peoples of North America: Environments, origins and adaptations of the first Americans (pp. 156–199). Corvallis: Oregon State University Press.
Hoffecker, J. F. (2001). Late Pleistocene and early Holocene sites in the Nenana river valley, central Alaska. Arctic Anthropology, 38(2), 139–153.
Hoffecker, J. F., & Elias, S. A. (2007). The human ecology of Beringia. New York: Columbia University Press.
Hoffecker, J. F., Powers, W. R., & Goebel, T. (1993). The colonization of Beringia and the peopling of the new world. Science, 259, 46–53.
Hoffecker, J. F., Powers, W. R., & Phippen, P. G. (1996). Owl ridge. In F. H. West (Ed.), American beginnings: The prehistory and paleoecology of Beringia (pp. 353–357). Chicago: University of Chicago Press.
Holmes, C. E. (2001). Tanana river valley archaeology circa 14,000 to 9000 BP. Arctic Anthropology, 38(2), 154–170.
Holmes, C. E. (2011). The Beringian and transitional periods in Alaska. In T. Goebel & I. Buvit (Eds.), From the Yenisei to the Yukon: Interpreting lithic assemblage variability in ate Pleistocene/Early Holocene Beringia (pp. 179–191). College Station: Texas A&M University Press.
Hu, F. S., Brubaker, L. B., & Anderson, P. M. (1993). A 12000 year record of vegetation change and soil development from Wien Lake, central Alaska. Canadian Journal of Botany, 71(9), 1133–1142.
Jarvenpa, R., & Brumbach, H. J. (2006). Revisiting the sexual division of labor: Thoughts on ethnoarchaeology and gender. Archeological Papers of the American Anthropological Association, 16(1), 97–107.
Kaufman, D., Ager, T., Anderson, N., Anderson, P., Andrews, J., Bartlein, P., & Duvall, M. (2004). Holocene thermal maximum in the western Arctic (0–180 W). Quaternary Science Reviews, 23(5), 529–560.
Kelly, R. L. (2003). Colonization of new land by hunter-gatherers: Expectations and implications based on ethnographic data. In M. Rockman & J. Steele (Eds.), Colonization of unfamiliar landscapes: The archaeology of adaptation (pp. 44–58). London: Routledge.
Kokorowski, H., Anderson, P., Mock, C., & Lozhkin, A. (2008). A re-evaluation and spatial analysis of evidence for a younger Dryas climatic reversal in Beringia. Quaternary Science Reviews, 27(17), 1710–1722.
Kuhn, S. L. (1995). Mousterian lithic technology: An ecological approach. Princeton: Princeton University Press.
Lloyd, A. H., Edwards, M. E., Finney, B. P., Lynch, J. A., Barber, V., & Bigelow, N. H. (2006). Holocene development of the Alaskan boreal forest. In F. S. Chapin III, M. W. Oswood, K. Van Cleve, L. A. Viereck, & D. L. Verhyla (Eds.), Alaska’s Changing Boreal Forest (pp. 62–78). New York: Oxford University Press.
Mason, O. K., Bowers, P. M., & Hopkins, D. M. (2001). The early Holocene Milankovitch thermal maximum and humans: Adverse conditions for the Denali complex of eastern Beringia. Quaternary Science Reviews, 20(1), 525–548.
Meiri, M., Lister, A. M., Collins, M. J., Tuross, N., Goebel, T., Blockley, S., Zazula, G. D., van Doorn, N., Guthrie, R. D., Boeskorov, G. G., Baryshnikov, G. F., Sher, A., & Barnes, I. (2014). Faunal record identifies Bering isthmus conditions as constraint to end-Pleistocene migration to the New World. Proceedings of the Royal Society B: Biological Sciences, 281(1776), 20132167.
Melton, J. A. (2015). Pieces to a puzzle: A lithic refit study evaluating stratigraphic and lithic components of the Owl Ridge site, central Alaska. Unpublished B.A. thesis, Department of Anthropology, Texas A&M University.
Meltzer, D. J. (2003). Lessons in landscape learning. In M. Rockman & J. Steele (Eds.), Colonization of unfamiliar landscapes: The archaeology of adaptation (pp. 222–241). London: Routledge.
Meltzer, D. J. (2004). Modeling the initial colonization of the Americas: Issues of scale, demography, and landscape learning. In C. M. Barton, G. A. Clark, D. R. Yesner, & G. A. Pearson (Eds.), The settlement of the American continents: A multidisciplinary approach to human biogeography (pp. 123–137). Tucson: The University of Arizona Press.
Mochanov, Y. A. (1977). Drevneishie Etapy Zaseleniia Chelovekom Severo-Vostochnoi Azii. Novosibirsk: Nauka.
Morgan, C. (2009). Climate change, uncertainty and prehistoric hunter–gatherer mobility. Journal of Anthropological Archaeology, 28(4), 382–396.
Mulligan, C. J., & Kitchen, A. (2014). Three-stage colonization model for the peopling of the Americas. In K. E. Graf, C. V. Ketron, & M. R. Waters (Eds.), Paleoamerican Odyssey (pp. 171–181). College Station: Texas A&M University Press.
Nelson, M. C. (1991). The study of technological organization. Archaeological Method and Theory, 3, 57–100.
Pearson, G. A. (1999). Early occupations and cultural sequence at Moose Creek: A Late Pleistocene site in central Alaska. Arctic, 52(4), 332–345.
Phippen, P. G. (1988). Archaeology at Owl Ridge: A Pleistocene-Holocene boundary age site in central Alaska. Unpublished M.A. thesis, Department of Anthropology, University of Alaska, Fairbanks.
Pitulko, V. V. (2011). The Berelekh quest: A review of forty years of research in the mammoth graveyard in Northeast Siberia. Geoarchaeology, 26(1), 5–32.
Plaskett, D. C. (1976). Preliminary report: A cultural resources survey in an area of the nenana and teklanika rivers of Central Alaska. Unpublished manuscript.
Potter, B. A. (2005). Site structure and organization in central Alaska: Archaeological investigations at Gerstle River. Unpublished Ph.D. dissertation, Department of Anthropology, University of Alaska, Fairbanks.
Potter, B. A. (2007). Models of faunal processing and economy in Early Holocene interior Alaska. Environmental Archaeology, 12(1), 3–23.
Potter, B. A. (2008). Radiocarbon chronology of central Alaska: Technological continuity and economic change. Radiocarbon, 50(2), 181–204.
Potter, B. A., Irish, J. D., Reuther, J. D., Gelvin-Reymiller, C., & Holliday, V. T. (2011). A terminal Pleistocene child cremation and residential structure from eastern Beringia. Science, 331(6020), 1058–1062.
Potter, B. A., Holmes, C. E., & Yesner, D. R. (2014a). Technology and economy among the earliest prehistoric foragers in interior eastern Beringia. In K. E. Graf, C. V. Ketron, & M. R. Waters (Eds.), Paleoamerican odyssey (pp. 81–103). College Station: Texas A&M University Press.
Potter, B. A., Irish, J. D., Reuther, J. D., & McKinney, H. J. (2014b). New insights into Eastern Beringian mortuary behavior: A terminal Pleistocene double infant burial at Upward Sun River. Proceedings of the National Academy of Sciences, 111(48), 17060–17065.
Powers, W. R., & Hoffecker, J. F. (1989). Late Pleistocene settlement in the Nenana valley, central Alaska. American Antiquity, 54(2), 263–287.
Raghavan, M., Steinrücken, M., Harris, K., Schiffels, S., Rasmussen, S., DeGiorgio, M., Albrechtsen, A., Valdiosera, C., Ávila-Arcos, M. C., Malaspinas, A. S., Eriksson, A., Moltke, I., Metspalu, M., Homburger, J. R., Wall, J., Cornejo, O. E., Moreno-Mayar, J. V., Korneliussen, T. S., Pierre, T., Rasmussen, M., Campos, P. F., de Baros Damgaard, P., Allentoft, M. E., Lindo, J., Metspalu, E., Rodríguez-Varela, R., Mansilla, J., Henrickson, C., Seguin-Orlando, A., Malmström, H., Stafford, T., Jr., Shringarpure, S. S., Moreno-Estrada, A., Karmin, M., Tambets, K., Bergström, A., Xue, Y., Warmuth, V., Friend, A. D., Singarayer, J., Valdes, P., Balloux, F., Leboreiro, I., Vera, J. L., Rangel-Villalobos, H., Pettener, D., Luiselli, D., Davis, L. G., Heyer, E., Zollikofer, C. P., Ponce de León, M. S., Smith, C. I., Grimes, V., Pike, K. A., Deal, M., Fuller, B. T., Arriaza, B., Standen, V., Luz, M. F., Ricaut, F., Guidon, N., Osipova, L., Voevoda, M. I., Posukh, O. L., Balanovsky, O., Lavryashina, M., Bogunov, Y., Khusnutdinova, E., Gubina, M., Balanovska, E., Fedorova, S., Litvinov, S., Malyarchuk, B., Derenko, M., Mosher, M. J., Archer, D., Cybulski, J., Petzelt, B., Mitchell, J., Worl, R., Norman, P. J., Parham, P., Kemp, B. M., Kivisild, T., Tyler-Smith, C., Sandhu, M. S., Crawford, M., Villems, R., Smith, D. G., Waters, M. R., Goebel, T., Johnson, J. R., Malhi, R. S., Jakobsson, M., Meltzer, D. J., Manica, A., Durbin, R., Bustamante, C. D., Song, Y. S., Nielsen, R., & Willerslev, E. (2015). Genomic evidence for the Pleistocene and recent population history of native Americans. Science, 349(6250), aab3884.
Redman, C. L. (2005). Resilience in archaeology. American Anthropologist, 107(1), 70–77.
Reimer, P. J., Bard, E., Bayliss, A., Beck, J. W., Blackwell, P. G., Bronk Ramsey, C., Buck, C. E., Cheng, H., Edwards, R. L., Friedrich, M., Grootes, P. M., Guilderson, T. P., Haflidason, H., Hajdas, I., Hatté, C., Heaton, T. J., Hoffmann, D. L., Hogg, A. G., Hughen, K. A., Kaiser, K. F., Kromer, B., Manning, S. W., Niu, M., Reimer, R. W., Richards, D. A., Scott, E. M., Southon, J. R., Staff, R. A., Turney, C. S. M., & van der Plicht, J. (2013). Intcal13 and Marine13 radiocarbon age calibration curves 0-50,000 years cal BP. Radiocarbon, 55(4), 1869–1887.
Reuther, J. D., Slobodina, N. S., Rasic, J. T., Cook, J. P., & Speakman, R. J. (2011). Gaining momentum: Late Pleistocene and early Holocene archaeological obsidian source studies in interior and northeastern Beringia. In T. Goebel & I. Buvit (Eds.), From the Yenisei to the Yukon: Interpreting lithic assemblage variability in Late Pleistocene/Early Holocene Beringia (pp. 270–286). College Station: Texas A&M University Press.
Shott, M. J. (1986). Settlement mobility and technological organization among Great Lakes Paleo-Indian foragers. PhD Dissertation, Department of Anthropology, University of Michigan, Ann Arbor.
Tackney, J. C., Potter, B. A., Raff, J., Powers, M., Watkins, W. S., Warner, D., Reuther, J. D., Irish, J. D., & O’Rourke, D. H. (2015). Two contemporaneous mitogenomes from terminal Pleistocene burials in eastern Beringia. Proceedings of the National Academy of Sciences, 112(45), 13833–13838.
Tamm, E., Kivisild, T., Reidla, M., Metspalu, M., Smith, D. G., Mulligan, C. J., Bravi, C. M., Rickards, O., Martinez-Labarga, C., Khusnutdinova, E. K., Fedorova, S. A., Golubenko, M. V., Stepanov, V. A., Gubina, M. A., Zhadanov, S. I., Ossipova, L. P., Damba, L., Voevoda, M. I., Dipierri, J. E., Villems, R., & Malhi, R. S. (2007). Beringian standstill and spread of native American founders. PloS One, 2(9), e829.
Théry-Parisot, I., Costamagno, S., Brugal, J. P., Fosse, P., & Guilbert, R. (2002). The use of bone as fuel during the Palaeolithic, experimental study of bone combustible properties. In J. Mulville & A. Outram (Eds.), The Zooarchaeology of fats, oils, milk and dairying (pp. 50–59). Oxford: Oxbow Books.
Thorson, R. M. (1986). Late Cenozoic glaciation of the northern Nenana river valley. In K. M. Reed & R. M. Thorson (Eds.), Glaciation in Alaska-the geologic record (pp. 171–192). Anchorage: Alaska Geological Society.
Waguespack, N. M. (2005). The organization of male and female labor in foraging societies: Implications for early paleoindian archaeology. American Anthropologist, 107(4), 666–676.
Wahrhaftig, C. (1970). Geologic map of the Fairbanks A-4 quadrangle, Alaska U.S. Geological Survey map GQ-810.
Warhaftig, C. (1958). Quaternary geology of the Nenana River Valley and adjacent of the Alaska Range. U.S. Geological Survey Paper, 293-A, 1–68.
Warhaftig, C. (1970a). Geologic map of the Healy D-5 quadrangle, Alaska. U.S. Geological Survey map GQ-807.
Warhaftig, C. (1970b). Geologic map of the Healy D-4 quadrangle, Alaska. U.S. Geological Survey Map GQ-806.
Warhaftig, C., & Black, R. F. (1958). Engineering geology along part of the Alaska Railroad. U.S. Geological Survey Paper, 293-B, 69–118.
West, F. H. (1967). The Donnelly Ridge site and the definition of an early core and blade complex in central Alaska. American Antiquity, 32(3), 360–382.
Wygal, B. T. (2009). Prehistoric colonization of southcentral Alaska: human adaptations in a post glacial world. Unpublished Ph.D. dissertation, Department of Anthropology, University of Nevada, Reno
Wygal, B. T. (2011). The microblade/non-microblade dichotomy: Climatic implications, toolkit variability and the role of tiny tools in Eastern Beringia. In T. Goebel & I. Buvit (Eds.), From the Yenisei to the Yukon: Interpreting lithic assemblage variability in Late Pleistocene/Early Holocene Beringia (pp. 234–254). College Station: Texas A&M University Press.
Yesner, D. R. (1996). Human adaptation at the Pleistocene-Holocene boundary (circa 13,000 to 8,000 BP) in eastern Beringia. In L. G. Straus, B. V. Eriksen, J. M. Erlandson, & D. R. Yesner (Eds.), Humans at the end of the Ice Age (pp. 255–276). New York: Plenum Press.
Yesner, D. R. (2001). Human dispersal into interior Alaska: Antecedent conditions, mode of colonization, and adaptations. Quaternary Science Reviews, 20(1), 315–327.
Yesner, D. R. (2007). Faunal extinction, hunter-gatherer foraging strategies, and subsistence diversity among eastern Beringia. In R. B. Walker & B. M. Driskell (Eds.), Foragers of the terminal Pleistocene in North America (pp. 15–31). Lincoln: University of Nebraska Press.
Acknowledgments
We would like to thank the editors of the volume, Erick Robinson and Fred Sellet, for inviting us to participate. We are grateful to the Owl Ridge field crew, including Heather Smith, John Blong, Josh Keene, Angela Younie, Takako Sakamoto, Tarah Marks, Anna Gilmer, Stuart White, Ted Goebel, Nancy Bigelow, and Mike Waters. Additionally, we would like to thank Peter Phippen for visiting our labs at CSFA during the fall of 2010 and helping us interpret field notes and catalog information from his excavations. We would like to acknowledge the University of Alaska Museum of the North for access to the 1970s and 1980s Owl Ridge collection housed there. We would also like to acknowledge and thank the Archaeology and Arctic Social Sciences programs at the National Science Foundation (Award Numbers 0917648 and 1029094) and the CSFA and Department of Anthropology at Texas A&M University for providing financial and logistical support of this project.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2018 Springer International Publishing AG
About this chapter
Cite this chapter
Gore, A.K., Graf, K.E. (2018). Technology and Human Response to Environmental Change at the Pleistocene-Holocene Boundary in Eastern Beringia: A View from Owl Ridge, Central Alaska. In: Robinson, E., Sellet, F. (eds) Lithic Technological Organization and Paleoenvironmental Change. Studies in Human Ecology and Adaptation, vol 9. Springer, Cham. https://doi.org/10.1007/978-3-319-64407-3_10
Download citation
DOI: https://doi.org/10.1007/978-3-319-64407-3_10
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-64405-9
Online ISBN: 978-3-319-64407-3
eBook Packages: Social SciencesSocial Sciences (R0)