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Penguin, A Macintosh Application for Entry and Presentation of Radiocarbon-Dated Samples

Published online by Cambridge University Press:  18 July 2016

Antonio Petri  and
Carlo Baroni
Antonio Petri*
Affiliation:
Dipartimento di Scienze della Terra, Università di Pisa and C.N.R. - Centro di Studio per la Geologia Strutturale e Dinamica dell'Appennino, Via S. Maria 53, I-56126 Pisa, Italy
Carlo Baroni
Affiliation:
Dipartimento di Scienze della Terra, Università di Pisa and C.N.R. - Centro di Studio per la Geologia Strutturale e Dinamica dell'Appennino, Via S. Maria 53, I-56126 Pisa, Italy
*
Present address: Department of Geology, Royal Holloway University of London, Egham, Surrey TW20 0EX, United Kingdom
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Abstract

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Penguin is a Macintosh computer application that facilitates the use of CALIB 3.03, the 14C age calibration program by Stuiver and Reimer (1993). Penguin offers an easy user interface based on the well-known Macintosh standard multiwindow environment to create and edit the CALIB 3.03 calibration files and to export data in text format. Penguin and CALIB interact at the file level, i.e., Penguin is capable of reading and writing files in CALIB formats. Files containing the data are created in the Penguin environment and then saved on disk in the Penguin format. Penguin allows multiple editing of the calibration parameters and recalibration of the list of samples without the need to insert any modifications manually throughout the list. Penguin can also be used to read already calibrated files in order to extract the “cal” ages and display them in a spreadsheet-like window.

Type
Articles
Information
Radiocarbon , Volume 39 , Issue 1 , 1997 , pp. 61 - 65
Copyright
Copyright © The American Journal of Science 

References

Baroni, C. 1994 Notes on Late-Glacial retreat of the Antarctic ice sheet and Holocene environmental changes along the Victoria Land coast. Memoirs of the National Institute of Polar Research (Tokyo), Special Issue, 50: 8587.Google Scholar
Baroni, C., Belluomini, G., Branca, M. E., Improta, S. and Orombelli, G. 1991 Radiocarbon dates from Terra Nova Bay (Northern Victoria Land, Antarctica): Conventional and calibrated ages. Memorie della Società Geologica Italiana 46: 8192.Google Scholar
Baroni, C. and Orombelli, G. 1991 Holocene raised beaches at Terra Nova Bay, Victoria Land, Antarctica. Quaternary Research 36: 157177.Google Scholar
Baroni, C. and Orombelli, G. 1994 Abandoned penguin rookeries as Holocene palaeoclimatic indicators in Antarctica. Geology 22: 2326.2.3.CO;2>CrossRefGoogle Scholar
Berkman, P. A. and Forman, S. L. 1996 Pre-bomb radiocarbon and the reservoir correction for calcareous marine species in the southern ocean. Geophysical Research Letters 23(4): 363366.Google Scholar
Björk, S., Hjort, C., Ingólfsson, O. and Skog, G. 1991 Radiocarbon dates from the Antarctic peninsula Region. Problems and potential. Quaternary Proceedings 1: 5565.Google Scholar
Broecker, W. S. and Olson, E. A. 1961 Lamont radiocarbon measurements VII. Radiocarbon 3: 176204.CrossRefGoogle Scholar
Broecker, W. S., Peng, T. H. and Engh, R. 1980 Modeling the radiocarbon system. In Stuiver, M. and Kra, R., eds., Proceedings of the 10th International 14C Conference. Radiocarbon 22(3): 565598.Google Scholar
Gordon, J. E. and Harkness, D. D. 1992 Magnitude and geographic variation of the radiocarbon content in Antarctic marine life: Implications for reservoir corrections in radiocarbon dating. Quaternary Science Reviews 11: 697708.Google Scholar
Harkness, D. D. 1979 Radiocarbon dates from Antarctica. British Antarctic Survey Bulletin 47: 4359.Google Scholar
Mabin, M. C. G. 1985 14C ages for “Heroic Era” penguin and seal bones from Inexpressible Island, Terra Nova Bay, North Victoria Land. New Zealand Antarctic Record 6(2): 2425.Google Scholar
Mabin, M. C. G. 1986 14C ages for “Heroic Era” penguin and seal remains from Cape Evans, McMurdo Sound New Zealand Antarctic Record 7(2): 1920.Google Scholar
Omoto, K. 1983 The problem and significance of radiocarbon geochronology in Antarctica. In Oliver, R. L., James, P. R. and Jago, J. B., eds., Antarctic Earth Science . Cambridge, Cambridge University Press: 450452.Google Scholar
Orombelli, G. 1988 Le spiagge emerse oloceniche della Baia Terra Nova (Terra Vittoria, Antartide). Atti della Accademia Nazionale dei Lincei , VIII, 81 (1987): 403416.Google Scholar
Östlund, H.G. and Stuiver, M. 1980 GEOSECS Pacific Radiocarbon. Radiocarbon 22(1): 2553.Google Scholar
Stuiver, M., Denton, G. H., Hughes, T. and Fastook, J. L. 1981 History of the Marine Ice Sheet in West Antarctica during the last glaciation: A working hypothesis. In Denton, G. H. and Hughes, T., eds., The Last Great Ice Sheets . New York, John Wiley & Sons: 319369.Google Scholar
Stuiver, M. and Östlund, H. G. 1980 GEOSECS Atlantic Radiocarbon. Radiocarbon 22(1): 124.CrossRefGoogle Scholar
Stuiver, M., Pearson, G. W. and Braziunas, T. 1986 Radiocarbon age calibration of marine samples back to 9000 cal yr bp. In Stuiver, M. and Kra, R., eds., Calibration Issue. Radiocarbon 28(2B): 9801021.Google Scholar
Stuiver, M. and Reimer, P. J. 1993 Extended 14C data base and revised CALIB 3.0 14C age calibration program. In Stuiver, M., Long, A. and Kra, R. S., eds., Calibration 1993. Radiocarbon 35(1): 215230.CrossRefGoogle Scholar
Whitehouse, I. E., Chinn, T. J. and Höfle, H. C. 1988 Radiocarbon contaminated penguin bones from Terra Nova Bay, Antarctica. New Zealand Antarctic Record 8(3): 1123.Google Scholar
Whitehouse, I. E., Chinn, T. J. and Höfle, H. C. 1989 Radiocarbon dates from raised beaches, Terra Nova Bay, Antarctica. Geologisches Jahrbuch E38: 331334.Google Scholar