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Sea-level Data for Parts of the Bering-Chukchi Shelves of Beringia from 19,000 to 10,000 14C yr B.P.1

Published online by Cambridge University Press:  20 January 2017

Dean A. McManus
Affiliation:
School of Oceanography, University of Washington WB-10, Seattle, Washington 98195
Joe S. Creager
Affiliation:
School of Oceanography, University of Washington WB-10, Seattle, Washington 98195

Abstract

Sea-level changes in Beringia are especially significant because they affect the migration of land plants and animals between Asia and North America, and marine plants and animals between the Pacific and Arctic oceans. Previous studies of cores from the Bering and Chukchi shelves produced sea-level curves. Evaluation of these data suggests that nine of the radiocarbon-dated estimates of sea-level position are most reliable for the time period 19,000 to 10,000 yr B.P. The trend of these nine points is proposed as the basis for a regional sea-level curve for central Beringia. Constraints on the data must be noted, however, by anyone using them.

Type
Research Article
Copyright
University of Washington

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Footnotes

1

Contribution No. 1336, School of Oceanography, University of Washington.

References

Askren, D.R. (1972). Holocene Stratigraphic Framework—Southern Bering Sea Continental Shelf M.S. thesis University of Washington Seattle Google Scholar
Bloom, A.L. (1967). Pleistocene shorelines: A new test of isostasy Geological Society of America Bulletin 78, 14771494 CrossRefGoogle Scholar
Broecker, W.S., Kulp, J.L. (1956). The radiocarbon method of age determination American Antiquity 22, 111 Google Scholar
Brown, J., Sellmann, P.V. (1966). Radiocarbon dating of a buried coastal peat Science 153, 299300 Google Scholar
Campbell, R.H. (1966). Areal geology Wilimovsky, N.J., Wolfe, J.N. Environment of the Cape Thompson Region, Alaska U.S. Atomic Energy Commission Oak Ridge, Tenn 5784 Google Scholar
Clark, J.A., Farrell, W.E., Peltier, W.R. (1978). Global change in postglacial sea level: A numerical calculation Quaternary Research 9, 265287 Google Scholar
Creager, J.S., McManus, D.A. (1965). Pleistocene drainage patterns on the floor of the Chukchi Sea Marine Geology 3, 279290 Google Scholar
Curray, J.R. (1960). Sediments and history of Holocene transgression, continental shelf, Northwest Gulf of Mexico Shepard, F.P., Phleger, F.B., van Andel, Tj.H. Recent Sediments, Northwest Gulf of Mexico Amer. Assoc. of Petroleum Geologists Tulsa, Okla 221266 Google Scholar
Fairbridge, R.W. (1961). Eustatic changes in sea level Physics and Chemistry of the Earth 9, 99185 Google Scholar
Farrell, W.E., Clark, J.A. (1976). On postglacial sea level Geophysical Journal of the Royal Astronomical Society 46, 647667 Google Scholar
Frost, I.C. (1961). Evaluation of the Use of Dichromate Oxidation to Estimate the Organic Carbon Content of Rocks, Art. 285 C376C377 U.S. Geological Survey Professional Paper 424-CGoogle Scholar
Geyh, M.A. (1979). 14C routine dating of marine sediments Berger, R., Suess, H.E. Radiocarbon Dating University of Calif. Press Berkeley 470491 Google Scholar
Geyh, M.A., Krumbein, W.E., Kudrass, H.-R. (1974). Unreliable 14C dating of long-sorted deep-sea sediments due to bacterial activity Marine Geology 17, M45M50 Google Scholar
Grantz, A., Eittreim, S., Whiteney, O.T. (1981). Geology and physiography of the continental margin north of Alaska and implications for the origin of the Canada Basin Nairn, A.E.M., Churkin, M. Jr., Stehli, F.G. The Ocean Basins and Margins Vol. 5, Plenum New York 439492 “The Arctic Ocean”Google Scholar
Holmes, M.L. (1975). Tectonic Framework and Geologic Evolution of the Southern Chukchi Sea Continental Shelf Ph.D. thesis University of Washington Seattle Google Scholar
Holmes, M.L., Creager, J.S. (1974). Holocene history of the Laptev Sea continental shelf Herman, Y. Marine Geology and Oceanography of the Arctic Seas Springer-Verlag New York 211229 CrossRefGoogle Scholar
Holmes, M.L., Creager, J.S. (1981). The role of the Kaltag and Kobuk faults in the tectonic evolution of the Bering Strait region Hood, D.W., Calder, J.A. The Eastern Bering Sea Shelf: Oceanography and Resources Vol. 1, National Oceanic and Atmospheric Administration Washington, D.C 293302 Google Scholar
Hopkins, D.M. (1967)a. The Bering Land Bridge Stanford Univ. Press Stanford, Calif Google Scholar
Hopkins, D.M. (1967)b. The Cenozoic history of Beringia—A synthesis Hopkins, D.M. The Bering Land Bridge Stanford Univ. Press Stanford, Calif 451484 Google Scholar
Hopkins, D.M. (1972). The paleogeography and climatic history of Beringia during late Cenozoic time Internord 12, 121150 Google Scholar
Hopkins, D.M. (1973). Sea level history in Beringia during the past 250,000 years Quaternary Research 3, 520540 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 Gustav Fischer New York 1541 Google Scholar
Jackson, M.L. (1958). Soil Chemical Analysis Prentice-Hall Englewood Cliffs, N.J Google Scholar
Johnson, J.L., Holmes, M.L. (1980). Surface and Subsurface Faulting in Norton Sound and Chirikov Basin, Alaska U.S. Geological Survey Open-File Report 80-979Google Scholar
Knebel, H.J. (1972). Holocene Sedimentary Framework of the East-Central Bering Sea Continental Shelf Ph.D. thesis University of Washington Seattle Google Scholar
Knebel, H.J., Creager, J.S. (1973). Yukon River: Evidence of extensive migration during the Holocene transgression Science 179, 12301232 Google Scholar
Knebel, H.J., Creager, J.S., Echols, R.J. (1974). Holocene sedimentary framework, east-central Bering Sea continental shelf Herman, Y. Marine Geology and Oceanography of the Arctic Seas Springer-Verlag New York 157172 Google Scholar
Laughlin, W.S., Harper, A.B. (1979). The First Americans: Origins, Affinities, and Adaptations Gustav Fischer New York Google Scholar
McManus, D.A., Creager, J.S., Echols, R.J., Holmes, M.L. (1983). The Holocene transgression on the arctic flank of Beringia: Chukchi valley to Chukchi estuary to Chukchi Sea Masters, P.M., Flemming, N.C. Quaternary Coastlines and Marine Archaeology Pergamon London 365388 Google Scholar
Morner, N-A. (1976). Eustasy and geoid changes Journal of Geology 84, 123151 Google Scholar
Morner, N-A. (1980). The northwest European “sea-level laboratory” and regional Holocene eustasy Palaeogeography, Paleoclimatology, Palaeoecology 29, 281300 Google Scholar
Nelson, H., Creager, J.S. (1977). Displacement of Yukon-derived sediment from Bering Sea to Chukchi Sea during Holocene time Geology 5, 141146 Google Scholar
Olson, E.A., Broecker, W.S. (1958). Sample contamination and reliability of radiocarbon dates Transactions of the New York Academy of Sciences, Series II 20, 593604 Google Scholar
Olsson, I.U. (1974). Some problems in connection with the evaluation of C14 dates Geologiska Foreningens i Stockholm Forhandlingar 96, 311320 CrossRefGoogle Scholar
Patton, W.W. Jr. (1973). Reconnaissance Geology of the Northern Yukon-Koyukuk Province, Alaska A1A17 U.S. Geological Survey Professional Paper 774-AGoogle Scholar
Petrov, O.M. (1967). Paleogeography of Chukotka during late Neogene and Quaternary time Hopkins, D.M. The Bering Land Bridge Stanford Univ. Press Stanford, Calif 144171 Google Scholar
Shepard, F.P. (1954). Nomenclature based on sandsilt-clay ratios Journal of Sedimentary Petrology 24, 151158 Google Scholar
Vigdorchik, M.E. (1980). Arctic Pleistocene History and the Development of Submarine Permafrost Westview Boulder, Colo Google Scholar
Walcott, R.I. (1972). Past sea levels, eustasy, and deformation of the earth Quaternary Research 2, 114 Google Scholar