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Hamburg University Radiocarbon Dates IV

Published online by Cambridge University Press:  18 July 2016

H W Scharpenseel ,
Heinrich Schiffmann  and
Peter Becker
H W Scharpenseel
Affiliation:
Ordinariat für Bodenkunde der Universität Hamburg, Allendeplatz 2, 2000 Hamburg 13, West Germany
Heinrich Schiffmann
Affiliation:
Ordinariat für Bodenkunde der Universität Hamburg, Allendeplatz 2, 2000 Hamburg 13, West Germany
Peter Becker
Affiliation:
Ordinariat für Bodenkunde der Universität Hamburg, Allendeplatz 2, 2000 Hamburg 13, West Germany
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This list consists of dates of soil samples from selected soil profiles in Tunisia, Sudan, and Argentina. The profiles from Tunisia were taken to elucidate ages of typic paleosols of paleoclimatic significance. The Sudan profiles increase our understanding of pedogenesis of Sudanese Vertisols. The existence of pedoturbation in these profiles is further explored and questioned. The profiles of Argentina were dated to supplement information from chemical and micromorphological studies.

Type
Date Lists
Information
Radiocarbon , Volume 26 , Issue 3 , 1984 , pp. 367 - 383
Copyright
Copyright © The American Journal of Science

References

Greene, H, 1928, Soil profile in the eastern Gezira: Jour Agric Sci, v 18, p 527.Google Scholar
Scharpenseel, H W, 1972, Messung der natürlichen C-14 Konzentration in der organischen Substanz von rezenten Böden, eine Zwischenbilanz: Zeitschr Pflanzenernähr Bodenkunde, v 133, p 241263.Google Scholar
Scharpenseel, H W, 1977, The search for biologically inert and lithogenic carbon in recent organic matter: Soil organic matter studies, Proc, Vienna, IAEA, v, p 193200.Google Scholar
Scharpenseel, H W and Pietig, F, 1969, Einfache Boden und Wasserdatierung durch Messung der 14C- und Tritium-Konzentration: Geoderma, v 2, p 273289.Google Scholar
Scharpenseel, H W and Pietig, F, 1970, University of Bonn natural radiocarbon measurements III: Radiocarbon, v 12, p 1939.Google Scholar
Scharpenseel, H W, Pietig, F, and Schiffmann, H, 1976, Hamburg University radiocarbon dates I: Radiocarbon, v 18, p 268289.Google Scholar
Scharpenseel, H W and Schiffmann, H, 1977, Hamburg University radiocarbon dates II: Radiocarbon, v 19, p 170182.Google Scholar
Scharpenseel, H W, Schiffmann, H, Neue, H U, Selmi, S, and Souissi, A, in press, Radiocarbon dating of Tunisian soils, in Maghrebien soil sci conf, 1st, Proc: Tunis, May 1983, in press.Google Scholar
Scharpenseel, H W and Zakosek, H, 1979, Phasen der Bodenbildung in Tunesien: Zeitschr Geomorph N F supp, v 33, p 118126.Google Scholar
Scharpenseel, H W, Zakosek, H, Neue, U, and Schiffmann, H, 1980, Search for pedogenic phases during younger Pleistocene and Holocene (Soltanien and Rharbien) of Tunisia, in Stuiver, Minze and Kra, Renee, eds, Internatl radiocarbon conf, 10th, Proc: Radiocarbon, v 22, no. 3, p 879884.Google Scholar
Stephan, S, Berrier, J, De Petre, A A, Jeanson, C, Kooistra, M J, Scharpenseel, H W, and Schiffmann, H, 1983, Characterization of in situ organic matter constituents in Vertisols from Argentina, using submicroscopic and cytochemical methods—first report: Geoderma, v 30, p 2134.Google Scholar
Tamers, M A, 1967, Radiocarbon ages of groundwater in an arid zone unconfined aquifer: Am Geophys Union Mono, v 11, p 143152.Google Scholar
Tothil, J D, 1946, The origin of the Sudan Gezira clay plain: Sudan, Notes and Records, v 27.Google Scholar