Hostname: page-component-848d4c4894-v5vhk Total loading time: 0 Render date: 2024-07-01T06:46:55.167Z Has data issue: false hasContentIssue false
  • English
  • Français

Improved Precision 14C Measurements and Natural 14C Variations Around 10,000 Cal BP

Published online by Cambridge University Press:  18 July 2016

Tomasz Goslar  and
Mieczysław F Pazdur
Tomasz Goslar
Affiliation:
Radiocarbon Laboratory, Institute of Physics Silesian Technical University Krzywoustego 2, PL-44-100 Gliwice, Poland
Mieczysław F Pazdur
Affiliation:
Radiocarbon Laboratory, Institute of Physics Silesian Technical University Krzywoustego 2, PL-44-100 Gliwice, Poland
Rights & Permissions [Opens in a new window]

Abstract

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.

Thirty-one samples of 5 tree rings from a single oak trunk with 300 tree rings were measured with improved precision to study natural 14C variations in the period from ca 9750 – 10,050 cal bp. Negative correlation was found between Δ 14C values and tree-ring indices. The pattern of 14C changes in the studied interval closely resembles the changes observed in several periodically spanned intervals within the limits of high-precision calibration data sets.

Type
III. Global 14C Variations
Information
Radiocarbon , Volume 31 , Issue 3: June 20-25, 1988 Dubrovnik, Yugoslavia , 1989 , pp. 833 - 838
Copyright
Copyright © The American Journal of Science 

References

Becker, B, 1981, Fällungsdaten römischer Bauhölzer anhand einer 2350 jährigen süddeutschen Eichen-Jahrringchronologie: Fundber Baden-Württemberg, v 6, p 369386.Google Scholar
Becker, B and Kromer, B, 1986, Extension of the Holocene dendrochronology by the Preboreal pine series, 8800 to 10,100 BP, in Stuiver, M and Kra, RS, eds, Internatl 14C conf, 12th, proc: Radiocarbon, v 28, no. 2B, p 961967.Google Scholar
Fritts, H C, 1976, Tree rings and climate: New York, Academic Press, 567 p.Google Scholar
Goslar, T, 1987, Dendrochronological studies in Gliwice Radiocarbon Laboratory, equipment, first results: Annales Acad Sci Fenn, AIII, v 145, p 97104.Google Scholar
Kromer, B, Rhein, M, Bruns, M, Schoch-Fischer, H, Münnich, K O, Stuiver, M and Becker, B, 1986, Radiocarbon calibration data for the 6th to the 8th millennia BC, in Stuiver, M and Kra, RS, eds, Internatl 14C conf, 12th, Proc: Radiocarbon, v 28, no. 2B, p 954960.Google Scholar
Linick, T W, Long, A, Damon, P E and Ferguson, C W, 1986 High-precision radiocarbon dating of bristlecone pine from 6554 to 5350 BC, in Stuiver, M and Kra, RS, eds, Internatl 14C conf, 12th, Proc: Radiocarbon, v 28, no. 2B, p 943953.Google Scholar
Neftel, A, Oeschger, H and Suess, HE, 1981, Secular non-random variations of cosmogenic carbon-14 in the terrestrial atmosphere: Earth Planetary Sci Letters, v 56, p 127147.Google Scholar
Pazdur, M F and Zastawny, A, 1987, Drastic increase of background in the Gliwice Radiocarbon Laboratory during late April, 1986, and its time changes: Radiocarbon, v 29, no. 1, p 156158.Google Scholar
Pearson, G W, Pilcher, J R, Baillie, M G L, Corbett, D M and Qua, F, 1986, High-precision 14C measurements of Irish oaks to show the natural 14C variations from AD 1840–5210 BC, in Stuiver, M and Kra, RS, eds, Internatl 14C conf, 12th, Proc: Radiocarbon, v 28, no. 2B, p 911934.Google Scholar
Reinsch, C H, 1967, Smoothing by spline functions: Numerische Mathematik, v 10, p 177183.Google Scholar
Schweingruber, F H, 1983, Der Jahrring, Standort, Methodik, Zeit und Klima in der Dendrochronologie: Verlag Paul Haupt Bern und Stuttgart, 234 p.Google Scholar
Stuiver, M, 1970, Long-term 14C variations, in Olsson, I U, ed, Radiocarbon variations and absolute chronology, Nobel symposium, 12th, Proc: New York, John Wiley & Sons, p 197213.Google Scholar
Stuiver, M, 1971, Evidence for the variation of atmospheric 14C content in the Late Quaternary, in Turekian, K K, ed, The Late Cenozoic glacial ages: New Haven, Yale Univ Press, p 5770.Google Scholar
Stuiver, M, Kromer, B, Becker, B and Ferguson, C W, 1986, Radiocarbon age calibration back to 13,300 years BP and the 14C age matching of the German oak and US bristlecone pine chronologies, in Stuiver, M and Kra, RS, eds, Internatl 14C conf, 12th, Proc: Radiocarbon, v 28, no. 2B, 969979.Google Scholar
Stuiver, M and Pearson, G W, 1986, High-precision calibration of the radiocarbon time scale, AD 1950–500 BC, in Stuiver, M and Kra, RS, eds, Internatl 14C conf, 12th, Proc: Radiocarbon, v 28, no. 2B, p 805838.Google Scholar
Tauber, H, 1970, The Scandinavian varve chronology and 14C dating, in Olsson, I U, ed, Radiocarbon variations and absolute chronology, Nobel symposium, 12th, Proc: New York, John Wiley & Sons, p 173196.Google Scholar
Vogel, J C, 1970, 14C trends before 6000 BP, in Olsson, I U, ed, Radiocarbon variations and absolute chronology, Nobel symposium, 12th, Proc: New York, John Wiley & Sons, p 313325.Google Scholar
Walanus, A, 1986, 14C electronic measurement system with a microcomputer, in Stuiver, M and Kra, RS, eds, Internatl 14C conf, 12th, Proc: Radiocarbon, v 28, no. 2A, p 569570.Google Scholar