Hostname: page-component-7c8c6479df-7qhmt Total loading time: 0 Render date: 2024-03-28T05:26:32.925Z Has data issue: false hasContentIssue false

Lamont Natural Radiocarbon Measurements VII

Published online by Cambridge University Press:  18 July 2016

Edwin A. Olson*
Affiliation:
Lamont Geological Observatory, Columbia University, Palisades, New York
Wallace S. Broecker
Affiliation:
Lamont Geological Observatory, Columbia University, Palisades, New York
*
∗∗Present address: Division of Science, Whitworth College, Spokane, Washington.
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Radiocarbon-age measurements reported here were made at Lamont Geological Observatory between July 1958 and November 1960. Sample descriptions are classified as follows:

  1. I. Samples associated with glacial deposits

  2. II. Samples associated with marine coastal deposits

  3. III. Samples associated with marine coastal deposits uplifted by glacial rebound

  4. IV. Samples associated with pluvial-lake deposits

  5. V. Samples from deep-sea cores

  6. VI. Samples from cave deposits

  7. VII. Miscellaneous samples of geologic interest

  8. VIII. Samples of archaeologic interest

Type
Research Article
Copyright
Copyright © The American Journal of Science 

References

Arnold, J. R., and Libby, W. F., 1951, Radiocarbon dates: Science, v. 113, p. 111120.CrossRefGoogle ScholarPubMed
Antevs, Ernst, 1925 Condition of formation of the varved glacial clay: Geol. Soc. America Bull., v. 36, p. 171192.Google Scholar
Antevs, Ernst 1951, Glacial clays in Steep Rock Lake, Ontario: Geol. Soc. America Bull., v. 62, p. 12231261.CrossRefGoogle Scholar
Antevs, Ernst 1953, Gechronology of the Deglacial and Neothermal ages: Jour. Geology, v. 61, p. 195230.CrossRefGoogle Scholar
Anthony, H. E., 1949, Natures deep freeze: Nat. History, v. 58, p. 296301.Google Scholar
Broecker, W. S., and Kulp, J. L., 1957, Lamont natural radiocarbon measurements IV: Science, v. 126, p. 13241334.CrossRefGoogle ScholarPubMed
Broecker, W. S., Kulp, J. L., and Tucek, C. S., 1956, Lamont natural radiocarbon measurements III: Science, v. 124, p. 154165.CrossRefGoogle ScholarPubMed
Broecker, W. S., and Olson, E. A., 1961, Lamont radiocarbon measurements VIII: Radiocarbon, v. 3, p. 176204.CrossRefGoogle Scholar
Broecker, W. S., Olson, E. A., and Orr, P. C., 1960, Radiocarbon measurements and annual rings in cave formations: Nature, v. 185, p. 9394.CrossRefGoogle Scholar
Broecker, W. S., and Orr, P. C., 1958, Radiocarbon chronology of Lake Lahontan and Lake Bonneville: Geol. Soc. America Bull., v. 69, p. 10091032.CrossRefGoogle Scholar
Broecker, W. S., Tucek, C. S., and Olson, E. A., 1959, Radiocarbon analysis of oceanic CO2 : Internat. Jour. Applied Radiation and Isotopes, v. 7, p. 118.CrossRefGoogle Scholar
Coleman, A. P., 1933, The Pleistocene of the Toronto region: Ontario Dept. Mines 41st Ann. Rept., v. 41, pt. 7, 55 p.Google Scholar
Deevey, E. S. Jr., 1957, Radiocarbon-dated pollen sequences in eastern North America-Geobot. Inst. Rübel, Zürich, Veröffentl., no. 34, p. 3037.Google Scholar
Deuel, Thorne, 1957, The Modoc shelter: Illinois State Mus. Rept. Inv. 7. [Reprinted (with revisions) from Nat. History, v. 66, no. 8, 1957.].Google Scholar
Eardley, A. J., and Gvosdetsky, Vasyl, 1960, Analysis of Pleistocene core from Great Salt Lake, Utah: Geol. Soc. America Bull., v. 71, p. 13231344.CrossRefGoogle Scholar
Eden, W. J., 1955, A laboratory study of varved clay from Steep Rock Lake, Ontario: Am. Jour. Sci., v. 253, p. 659674.CrossRefGoogle Scholar
Elson, J. A., 1957, Lake Agassiz and the Mankato-Valders problem: Science, v. 126, p. 9991002.CrossRefGoogle ScholarPubMed
Emerson, W. K., 1960, Results of the Puritan-American Museum of Natural History expedition to western Mexico. 42. Shell middens of San Jose Island: Am. Mus. Novitates, no. 2013, 9 p.Google Scholar
Evans, G. L., and Meade, G., 1945, Quaternary of the Texas high plains: Texas Univ. Pub. 4401, p. 485507.Google Scholar
Ewing, W. M., and Donn, W. L., 1956, A theory of the Ice Ages: Science, v. 123, p. 10611066.CrossRefGoogle ScholarPubMed
Ewing, W. M., Heezen, B. C., and Ericson, D. B., 1959, Significance of the Worzel ash layer: Natl. Acad. Sci. Proc., v. 45, p. 355361.CrossRefGoogle Scholar
Farrand, W. R., 1961, Frozen mammoths and modern geology: Science, 1961, v. 133, p. 729735.Google ScholarPubMed
Fowler, M. L., 1959, Summary report of Modoc rock shelter: 1952, 1953, 1955, 1956: Illinois State Mus. Rept., Inv. 8.Google Scholar
Fowler, M. L., and Winters, H., 1956, Modoc rock shelter: Prelim. Rept: Illinois State Mus. Rept. Inv. 4.Google Scholar
Fyles, J. G., 1956, Surficial geology of the Horne Lake and Parksville map areas, Vancouver Island, British Columbia: Ph.D. dissert., Ohio State Univ. Google Scholar
Gamble, R., 1958, Descriptions and interpretations of some Pleistocene sections in Wayne County, Indiana: Earlham Coll. Sci. Bull. 3.Google Scholar
Gooding, A. M., 1957, Pleistocene terraces in the upper Whitewater drainage basin, southeastern Indiana: Earlham Coll. Sci. Bull. 2.Google Scholar
Haring, A., deVries, A. E., and deVries, H., 1958, Radiocarbon dating up to 70,000 years by isotopic enrichment: Science, v. 128, p. 472473.CrossRefGoogle Scholar
Harrington, M. R., and Simpson, R. D., in press, Tule Springs, Nevada, Southwest Mus., paper 18.Google Scholar
Hollick, A., 1926, Report on a tree trunk and associated lignitic debris excavated in Manhattan Island: Am. Mus. Novitates, no. 213, p. 16.Google Scholar
Kulp, J. L., Feely, H. W., and Tryon, L. E., 1951, Lamont natural radiocarbon measurements I: Science, v. 114, p. 565568.CrossRefGoogle ScholarPubMed
Leggett, O. O., and Bartley, X. X., 1953, An engineering study of glacial deposits at Steep Rock Lake, Ontario [see appendix by Burwash]: Econ. Geology, v. 48, p. 513540.CrossRefGoogle Scholar
Libby, W. F., 1955, Radiocarbon dating, 2nd ed.: Chicago, Univ. Chicago Press, ix, 175 p.Google Scholar
McCallum, J. L., and Dyck, W., 1960, University of Saskatchewan radiocarbon dates II: Am. Jour. Sci. Radioc. Supp., v. 2, p. 7381.Google Scholar
Mackay, J. R., 1956, Mackenzie deltas: a progress report: Canadian Geographer, no. 7, p. 111.CrossRefGoogle Scholar
Martin, P. S., Sabels, B. E., and Shutler, Dick Jr., 1961, Rampart Cave coprolite and ecology of the Shasta ground sloth: Am. Jour. Sci., v. 259, p. 102127.CrossRefGoogle Scholar
Menzies, R. J., Be, A. W. H., and Clarke, A. H., 1959, Biological aspects of Arctic deep-sea sedimentation: Rept. to Arctic Inst. of North America.Google Scholar
Olson, E. A., and Broecker, W. S., 1958, Sample contamination and reliability of radiocarbon dates: New York Acad. Sci. Trans., ser. II, v. 20, p. 593604.CrossRefGoogle Scholar
Olson, E. A., and Broecker, W. S. 1959, Lamont natural radiocarbon measurements V: Am. Jour. Sci. Radioc. Supp., v. 1, p. 128.Google Scholar
Orr, P. C., 1952, Excavations in Moaning Cave: Santa Barbara Mus. Nat. History, Dept. Anthropology Bull. 1, 19 p.Google Scholar
Orr, P. C. 1953, Speleothem Age dating: Texas Archaeol. Soc. Bull., v. 24, p. 717.Google Scholar
Orr, P. C. 1959, Observations on new radiocarbon measurements: Western Speleological Inst. Observations no. 5, p. 13.Google Scholar
Orr, P. C. 1960a, Late Pleistocene marine terraces on Santa Rosa Island, California: Geol. Soc. America Bull., v. 71, p. 11131120.CrossRefGoogle Scholar
Orr, P. C. 1960b, Radiocarbon dates from Santa Rosa Island, II: Santa Barbara Mus. Nat. History, Dept. Anthropology Bull. 3, 12 p.Google Scholar
Payne, T. G., and others, 1951, Geology of the Arctic slope of Alaska: U. S. Geol. Survey, Oil and Gas Inv. Map OM 126, sheet 1.Google Scholar
Péwé, T. L., 1960, Multiple glaciation in the McMurdo Sound area, Antarctic—a progress report: Jour. Geology, v. 58, p. 498514.CrossRefGoogle Scholar
Péwé, T. L., Rivard, N. R., and Lano, G. A., 1959, Mummified seal carcasses in the McMurdo Sound region, Antarctica: Science, v. 130, p. 716.CrossRefGoogle ScholarPubMed
Péwé, T. L., Rivard, N. R., and Lano, G. A. in press, Age of moraines in Victoria land, Antarctica: Jour. Geology.Google Scholar
Piggott, S., 1954, Neolithic cultures of the British Isles: (especially p. 152192, 316–321).Google Scholar
Poole, E. G., and Whiteman, A. J., in press, The glacial drifts of the southern part of the Shropshire-Cheshire basin: Geol. Soc. London Jour. Google Scholar
Potzger, J. E., 1946, Phytosociology of the primeval forest in central-northern Wisconsin and upper Michigan and a brief post-glacial history of the Lake Forest formation: Ecol. Mons., v. 16, p. 211260.CrossRefGoogle Scholar
Reeds, C. A., 1927, Glacial lakes and clays near New York city: Nat. History, v. 27, p. 5464.Google Scholar
Rubin, Meyer, and Alexander, Corrinne, 1958, U. S. Geological Survey radiocarbon dates IV: Science, v. 127, p. 14761487.CrossRefGoogle ScholarPubMed
Rubin, Meyer, and Alexander, Corrinne 1960, U. S. Geological Survey radiocarbon dates V: Am. Jour. Sci. Radioc. Supp., v. 2, p. 129185.Google Scholar
Saks, V. N., and Strelkov, S. A., 1959, Quaternary deposits of the Soviet Arctic [in Russian]: Arctic Geol. Research Inst., Trans. [Moscow], v. 91.Google Scholar
Simpson, R. D., 1956, Finding the scraper at Tule Springs: The Masterkey, v. 30, 109 p.Google Scholar
Simpson, I. M., and West, R. G., 1958, On the stratigraphy and paleobotany of a late Pleistocene organic deposit at Chelford, Cheshire: New Phytologist, v. 57, p. 239250.CrossRefGoogle Scholar
Strong, W. D., 1935, An introduction to Nebraska archeology: Smithsonian Misc. Colin., v. 93, no. 10, p. 224239.Google Scholar
Stuiver, Minze, Deevey, E. S., and Gralenski, L. J., 1960, Yale natural radiocarbon measurements V: Am. Jour. Sci. Radioc. Supp., v. 2, p. 4961.Google Scholar
Suggs, R. C., 1960, The island civilizations of Polynesia: New York, Mentor Series, New American Library.Google Scholar
Suggs, R. C. in press, The archeology of Nuku Hiva, Marquesas Islands, French Polynesia: Am. Mus. Nat. History Anthropol. Papers.Google Scholar
Tedrow, J. C. F., and Douglas, L. A., 1958, C14 dating of some Arctic soils: Rutgers Univ. Soils Dept., Mimeographed note.Google Scholar
Tedrow, J. C. F., Drew, J. V., Hill, D. E., and Douglas, L. A., 1958, Major genetic soils of the Arctic slope of Alaska: Jour. Soil Sci., v. 9, p. 3345.CrossRefGoogle Scholar
Terasmae, Jaan, 1959a, Notes on the Champlain Sea episode in the St. Lawrence lowlands, Quebec: Science, v. 130, p. 334335.CrossRefGoogle Scholar
Terasmae, Jaan 1959c, Paleobotanical study of buried peat from the Mackenzie River delta area, Northwest Territories: Canada Jour. Botany, v. 37, p. 715717.CrossRefGoogle Scholar
Terasmae, Jaan 1960, Contributions to Canadian palynology II. Part II. A palynological study of the Pleistocene interglacial beds at Toronto, Ontario: Canada Geol. Survey Bull. no. 56.CrossRefGoogle Scholar
Von den Steinen, K., 1928, Die Marquesaner und ihre Kunst: Berlin, Dietrich Riemer Verlag, v. II, p. 8486.Google Scholar
Watt, A. K., 1957, Pleistocene geology and ground water resources of the townships of North York, York County: Ontario Dept. Mines Ann. Rept., v. 64, pt. 7.Google Scholar
Worzel, J. L., 1959, Extensive deep sea subbottom reflections identified as white ash: Natl. Acad. Sci. Proc., v. 45, p. 349359.CrossRefGoogle ScholarPubMed