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Radiocarbon Analyses from Cincinnati, Ohio, and Their Implications for Glacial Stratigraphic Interpretations

Published online by Cambridge University Press:  20 January 2017

Thomas V. Lowell
Affiliation:
Department of Geology, University of Cincinnati, Cincinnati, Ohio 45221
Kevin M. Savage
Affiliation:
Department of Geology, University of Cincinnati, Cincinnati, Ohio 45221
C. Scott Brockman
Affiliation:
Ohio Department of Natural Resources, Division of Geological Survey, Columbus, Ohio 43224
Robert Stuckenrath
Affiliation:
Radiocarbon Laboratory, University of Pittsburgh, Pittsburgh, Pennsylvania 15238

Abstract

Detailed analysis of a site near Cincinnati, Ohio, shows that 14C ages of samples in a single geologic unit can have a range of several thousand years and ages from different stratigraphic units can overlap. At the Sharonville site, four 14C samples from organic silt below glaciogenic deposits have an inverted chronologic sequence, suggesting contamination, but nevertheless they indicate the silt was deposited before 27,000 yr B.P. A stump cluster in growth position, wood fragments, and moss from the upper surface of the silt may differ by as much as 2300 14C yr. Five ages from the stump cluster constrain the timing of a glacier advance of the Laurentide ice sheet to its southern limit in the Cincinnati area at 19,670 ± 68 yr B.P. Overlying glaciogenic sediments contain transported wood that may be as much as 3200 yr older than the advance. This range of ages points out that, for a given site, several age measurements are required to determine when a glacier advance occurred. Because the measured ages in this study span the entire interval suggested for a twofold sequence of advance, retreat, and readvance of the margin of the Miami sublobe, we suggest a single advance to its terminal position in the Cincinnati area as an alternate hypothesis for testing.

Type
Articles
Copyright
University of Washington

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References

Broecker, W.S. Denton, G.H., (1989). The role of ocean-atmosphere reorganization in glacial cycles Geochimica et Cosmochimica Acta 53 24652501 Google Scholar
Blong, R.J. Gillespie, R., (1978). Fluvially transported charcoal gives erroneous 14C ages for recent deposits Nature (London) 271 739741 Google Scholar
Dyke, A.S. Prest, V.K., (1987). Late Wisconsinan and Holocene Retreat of the Laurentide Ice Sheet Geological Survey of Canada Map 1702A, scale 1:5,000,000 Google Scholar
Geyh, M.A. Roeschmann, G., (1983). The unreliability of 14C dates obtained from buried sandy podzols Radiocarbon 25 409416 Google Scholar
Gilet-Blein, M.G. Evin, J., (1980). Unreliability of 14C dates from organic matter of soils Radiocarbon 22 919929 Google Scholar
Goldthwait, R.P. Stewart, D.P. Franzi, D.A. Quinn, M.J., (1981). Quaternary Deposits of Southwestern Ohio Vol. III American Geological Institute 409432 Cincinnati '81 Field Trip Guidebooks Google Scholar
Gooding, A.M., (1963). Illinoian and Wisconsin glaciations in the Whitewater basin, southeastern Indiana, and adjacent areas Journal of Geology 71 665682 Google Scholar
Gooding, A.M., (1975). The Sidney interstadial and late Wisconsin history in Indiana and Ohio American Journal of Science 275 9931011 Google Scholar
Gray, H.H. Forsyth, J.L. Schneider, A.F. Gooding, A.M., (1972). Geologic Map of the 1° × 2° Cincinnati Quadrangle, Indiana and Ohio, Showing Bedrock and Unconsolidated Deposits Indiana Geological Survey Regional Geologic Map No. 7, Part B, scale 1:250,000 Google Scholar
Kigoshi, K. Suzuki, N. Shiraki, M., (1980). Soil dating by fractional extraction of humic acid Radiocarbon 22 853857 Google Scholar
King, G.A., (1985). A standard method for evaluating radiocarbon dates of local deglaciation: Application to the deglaciation history of southern Labrador and adjacent Québec Géographie Physique et Quaternaire 36 163182 Google Scholar
Lawson, D.E., (1979). A comparison of pebble orientation in ice and deposits of the Matanuska Glacier, Alaska Journal of Geology 87 629645 Google Scholar
Long, A. Rippeteau, B., (1974). Testing contemporaneity and averaging radiocarbon dates American Antiquity 39 205215 Google Scholar
MacDonald, G.M. Beukens, R.P. Kieser, W.E. Vitt, D.H., (1987). Comparative radiocarbon dating of terrestrial plant macrofossils and aquatic moss from the “ice-free corridor” of western Canada Geology 15 837840 Google Scholar
Mickelson, D.M. Clayton, L. Fullerton, D.S. Borns, H.W. Jr. The late Wisconsin glacial record of the Laurentide ice sheet in the United States Porter, S.C., (1983). Late Quaternary Environments of the United States Vol. 1 Univ. of Minnesota Press Minneapolis 337 Google Scholar
Richmond, G.M. Fullerton, D.S., (1986). Summation of Quaternary glaciations in the United States of America Quaternary Science Reviews 5 183196 Google Scholar
Schiffer, M.B., (1986). Radiocarbon dating and the “old wood” problem: The case of the Hohokam chronology Journal of Archaeological Science 13 1330 Google Scholar