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Mid-Wisconsinan Radiocarbon Dates from Mastodon- and Mammoth-Bearing Springs, Ozark Highland, Missouri

Published online by Cambridge University Press:  18 July 2016

C V Haynes
Affiliation:
University of Arizona, Tucson, Arizona 85721
Minze Stuiver
Affiliation:
University of Washington, Seattle, Washington 98195
Herbert Haas
Affiliation:
Southern Methodist University, Dallas, Texas 75222
J E King
Affiliation:
Illinois State Museum, Springfield, Illinois 62706
F B King
Affiliation:
Illinois State Museum, Springfield, Illinois 62706
J J Saunders
Affiliation:
Illinois State Museum, Springfield, Illinois 62706
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From 1966 to 1979, the University of Missouri, the University of Arizona, and the Illinois State Museum conducted extensive interdisciplinary investigations of Late Pleistocene peat deposits associated with springs, some extinct, in the Pomme de Terre River Valley of the Ozark Highland, Missouri (fig 1). Most of the sites are now beneath the waters of the Harry S Truman reservoir. Archaeologic investigations in the area produced a remarkably long sequence of cultural change and development during the Holocene but produced no evidence of human presence in the area prior to 11,000 years ago despite diligent excavation of favorable bone-bearing deposits.

Type
III. 14C Applications
Copyright
Copyright © The American Journal of Science 

References

Brakenridge, GR, 1981, Late Quaternary floodplain sedimentation along the Pomme de Terre River, Southern Missouri: Quaternary Research, v 15, p 6276.Google Scholar
Dreimanis, A and Goldthwait, R P, 1973, Wisconsin glaciation in the Huron, Erie, and Ontario Lobes, in Black, R F, Goldthwait, R P, and Willman, H B, eds, The Wisconsinan Stage: Geol Soc America Mem 136, p 71105.CrossRefGoogle Scholar
Frye, J C, Willman, H B, and Glass, H D, 1968, Correlation of Midwestern loesses with the glacial succession, in Schultz, C B and Frye, J C, Loess, eds, Loess and related eolian deposits of the world, 7th Proc: INQUA cong, Lincoln, Univ Nebraska Press, v 12, p 321.Google Scholar
Hassan, A A, (ms), 1976, Geochemical and mineralogical studies on bone material and their implications for radiocarbon dating: PhD dissert, Southern Methodist Univ, Univ Micro films, Ann Arbor, Michigan.Google Scholar
Haynes, C V, 1976, Late Quaternary geology of the lower Pomme de Terre Valley, in : a case study in the Ozark Highland: New York, Academic Press, p 4761.Google Scholar
Haynes, C V, in press, Geochronology of mastodon-bearing springs and the lower Pomme de Terre River, Missouri: Geol Soc America spec Paper.Google Scholar
Kay, M, 1980, Stratigraphic studies at Rodgers Shelter, in Kay, M, ed, Holocene adaptations within the Lower Pomme de Terre River Valley, Missouri: Rep U S Army Crops Engineers Kansas City Dist, p 81106.Google Scholar
King, J E, 1973, Late Pleistocene palynology and biogeography of the Western Missouri Ozarks: Ecol Mon, v 43, p 539565.Google Scholar
King, J E and Lindsay, E H, 1976, Late Quaternary biotic records from spring deposits in western Missouri, in Wood, W R, and McMillan, R B, eds, Prehistoric man and his environments: a case study in the Ozark Highland: New York, Academic Press, p 6578.Google Scholar
McMillan, R B, 1976a, Rodgers Shelter: a record of cultural and environmental changes, in Wood, W R and McMillan, R B, eds, Prehistoric man and his environment: a case study in the Ozark Highland: New York, Academic Press, p 111122.Google Scholar
McMillan, R B, 1976b, Man and mastodon: a review of Koch's 1840 Pomme de Terre expeditions, in Wood, W R and McMillan, R B, eds, Prehistoric man and his environments: a case study in the Ozark Highland, New York, Academic Press, p 8296.Google Scholar
Mehringer, P J Jr, Schweger, C E, Wood, W R, and McMillan, R B, 1968, Late-Pleistocene boreal forest in the western Ozark Highlands?: Ecology, v 49, p 567568.CrossRefGoogle Scholar
Mehringer, P J Jr, King, J E, and Lindsay, E H, 1970, A record of Wisconsin-age vegetation and fauna from the Ozarks of western Missouri, in Dart, W Jr, and Jones, J K Jr, eds, Pleistocene and recent environments of the central Great Plains, Lawrence, University of Kansas Press, p 173183 Google Scholar
Saunders, J J, 1977, Late Pleistocene vertebrates of the Western Ozark Highland, Missouri: Illinois State Mus Repts Inv no. 33, 118 P.Google Scholar
Saunders, J J, 1981, Mitigation of the adverse effects upon the local paleontological resources of the Harry S Truman Dam and Reservoir, Osage River Basin, Missouri: Rept US Army, Corps Engineers, Kansas City Dist.Google Scholar
Shackleton, N J and Opdyke, N D, 1973, Oxygen isotope and paleomagnetic stratigraphy of equatorial Pacific Core V28-238: Oxygen isotope temperatures and ice volumes on a 105 year and 106 year scale: Quaternary Research, v 3, p 3955.Google Scholar
Wood, W R, 1976, Archaeological investigations at the Pomme de Terre Springs, in Wood, W R and McMillan, R B, eds, Prehistoric man and his environments: a case study in the Ozark Highland, New York, Academic Press, p 97107.CrossRefGoogle Scholar