Hostname: page-component-cd9895bd7-lnqnp Total loading time: 0 Render date: 2024-12-26T18:23:05.587Z Has data issue: false hasContentIssue false
  • English
  • Français

Context and Environment in Taphonomic Analysis: Examples from Alaska's Porcupine River Caves1

Published online by Cambridge University Press:  20 January 2017

E. James Dixon
E. James Dixon*
Affiliation:
University of Alaska Museum, Fairbanks, Alaska 99701
Get access Rights & Permissions [Opens in a new window]

Abstract

Field investigations of caves along Alaska's Porcupine River document three major mechanisms which modify bone in patterns similar to alterations produced by man: (1) carnivore fracture; (2) rodent gnawing; and (3) rock fall and rubble scarring. A late Wisconsin faunal assemblage composed of Equus sp., Rangifer tarandus, Ovis dalli, Bison sp., proboscidean, numerous small mammal species, birds, and fish is well documented. This faunal assemblage suggests a mosaic environment of grassland-tundra-forest in the immediate vicinity of these caves and implies that the late Wisconsin environment in north-central Alaska may have been characterized by a number of microenvironments and colder, dryer, steppe conditions. Taphonomic data which have historically been interpreted to support human occupation of eastern Beringia during the Pleistocene are critically examined and the context of these discoveries (not the specimens themselves) provides the test essential to document the antiquity of man in North America prior to 12,000 yr ago.

Type
Research Article
Information
Quaternary Research , Volume 22 , Issue 2 , September 1984 , pp. 201 - 215
Copyright
University of Washington

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.)

Footnotes

1

Presented at the symposium “Taphonomic Analysis and Interpretation in North American Pleistocene Archaeology” held in Fairbanks, Alaska, April 1982.

References

Ager, T.A. (1975). Late Quaternary Environmental History of the Tanana Valley, Alaska Institute of Polar Studies, Ohio State University Research Foundation Columbus Paper No. 54Google Scholar
Alexander, A.J. (1956). Pone carrying by a porcupine. Letters to the Editor South African Journal of Science JuneGoogle Scholar
Binford, L.R. (1978). Nunamiut Ethnoarchaeology Academic Press New York Google Scholar
Binford, L.R. (1981). Bones: Ancient Men and Modern Myths Academic Press New York Google Scholar
Bonnichsen, R. (1973). Some operational aspects of human and animal alterations Gilbert, B.M. Mammalian Osteo-archeology: North America 924.Special Publications of the Missouri Archeology Society (Evans, D.R. Ed.), 1 337, University of Missouri Columbia Google Scholar
Bonnichsen, R. (1979). Pleistocene Bone Technology in the Beringian Refugium National Museum of Man Ottawa Mercury Series, Archaeological Survey of Canada, Paper No. 89Google Scholar
Brain, C.K. (1970). New finds at Swartkrans Australopithecine site Nature (London) 225 112 119 Google Scholar
Brain, C.K. (1981). The Hunters or the Hunted? University of Chicago Press Chicago Google Scholar
Cinq-Mars, J. (1979). Bluefish Cave I: A late Pleistocene eastern Beringian cave deposit in the northern Yukon Canadian Journal of Archaeology 3 1 32 Google Scholar
Curtis, J.D. Kozicky, E.L. (1944). Observations on the eastern porcupine Journal of Mammalogy 25 137 146 Google Scholar
Gabrielson, I.N. (1928). Notes on the habits and behavior of the porcupine in Oregon Journal of Mammalogy 9 33 38 Google Scholar
Gruhn, R. Bryan, A.L. (1981). A response to McGuire's cautionary tale about the association of man and extinct fauna in Great Basin Cave sites Quaternary Research 16 117 121 Google Scholar
Guthrie, R.D. (1968). Paleoecology of a late Pleistocene small mammal community from interior alaska Arctic 21 223 244 Google Scholar
Guthrie, R.D. (1984). The evidence for middle Wisconsin peopling of Beringia Quaternary Research 22 Google Scholar
Harington, C.R. (1970). Ice age mammal research in the Yukon Territory and Alaska Smith, R.A. Smith, J.A. Early Man and Environments in Northwest North America Univ. of Calgary Archaeological Assoc Calgary 35 51 Google Scholar
Harington, C.R. Clulow, F.V. (1973). Pleistocene mammals from Gold Run Creek, Yukon Territory Canadian Journal of Earth Sciences 10 697 759 Google Scholar
Hopkins, D.M. (1979). Landscape and climate of Beringia during late Pleistocene and Holocene time Laughlin, W.S. Harper, A.B. The First Americans: Origins, Affinities, and Adaptations Fischer New York 15 42 Google Scholar
Hughes, A.R. (1954). Hyaenas versus Australopithecines as agents of bone accumulations American Journal of Physical Anthropology 12 467 486 Google Scholar
Irving, W.N. Harington, C.R. (1973). Upper Pleistocene radiocarbon-dated artifacts from the northern Yukon Science 179 335 340 Google Scholar
Matthews, J.V. Jr. (1976). Arctic-steppe—An extinct biome Abstracts of the Fourth Biennial Meeting Amer. Quaternary Assoc., Arizona State University Tempe 73 77 Google Scholar
McGuire, K.R. (1980). Cave sites, faunal analysis, and big-hunters of the Great Basin: A caution Quaternary Research 14 263 268 Google Scholar
Morlan, R.E. (1978). Early Man in northern Yukon Territory: Perspectives as of 1977 Bryan, A.L. Early Man in America from a Circum-Pacific Perspective. Occasional Paper No. 1. Dept. of Anthropology, University of Alberta Edmonton 78 95 Google Scholar
Morlan, R.E. (1980). Taphonomy and Archaeology in the Upper Pleistocene of Northern Yukon Territory: A Glimpse of the Peopling of the New World National Museum of Man Ottawa Mercury Series: Archaeological Survey of Canada, Paper No. 94Google Scholar
Repenning, C.A. Hopkins, D.M. Rubin, M. (1964). Tundra rodents in a late Pleistocene fauna from the Tofty placer district, central Alaska Arctic 17 176 197 Google Scholar
Schweger, C. Habgood, T. (1976). The late Pleistocene steppe-tundra of Beringia—A Critique Abstracts of the Fourth Biennial Meeting. Session VII—Steppe-Tundra and Its Climatic Significance. Amer. Quaternary Assoc., Arizona State University Tempe 80 81 Google Scholar
Stanford, D. Bonnichsen, R. Morlan, R.E. (1981). The Ginsberg experiment: Modern and prehistoric evidence of a bone flaking technology Science 212 438 440 Google Scholar
Sutcliffe, A. (1970). Spotted hyaena: Crusher, gnawer, digester, and collector of bones Nature (London) 227 1110 1113 Google Scholar
Thorson, R.M. Guthrie, R.D. (1984). River ice as a taphonomic agent: An alternative hypothesis for bone “artifacts” Quaternary Research 22 172 188 Google Scholar
West, S.D. (1979). Habitat Responses of Microtine Rodents to Central Alaskan Forest Succession Unpublished Ph.D. dissertation University of California Berkeley Google Scholar