Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-20T06:28:48.379Z Has data issue: false hasContentIssue false

British Museum Natural Radiocarbon Measurements VI

Published online by Cambridge University Press:  18 July 2016

Harold Barker
Affiliation:
Research Laboratory, British Museum, London W.C. 1
Richard Burleigh
Affiliation:
Research Laboratory, British Museum, London W.C. 1
Nigel Meeks
Affiliation:
Research Laboratory, British Museum, London W.C. 1
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.

Dates listed below are based on measurements made up to May 1968, and cover a period during which the technique of gas proportional counting using CO2 was gradually replaced by liquid scintillation counting using benzene. The gas counting measurements were carried out by the method and techniques previously described (Barker and Mackey, 1968) the only modifications being the replacement of some old electronic units by more stable solid-state equipment; proportional counting results are indicated in the text by (P) at the end of the relevant sample descriptions. Liquid scintillation counting, which is now the preferred method in this laboratory, is carried out using a Packard Tri-Carb liquid scintillation spectrometer model 3315/AES fitted with selected low-noise quartz-faced photomultipliers. Normally 3 ml of benzene is prepared from each sample. This is dissolved in 12 ml of scintillation grade toluene containing 5 gm/liter of scintillator (PPO) and the solution is measured in a standard low-potassium glass vial at a temperature of 0°C. Photomultiplier E.H.T., amplifier, and channel width settings are optimized for C14, and measurements are carried out at ca. 65% efficiency of detection for C14 to eliminate interference from any tritium which may be present in the benzene. Under these circumstances the background is approx. 8.6 cpm and the modern (95% Aox) is approx. 24.0 cpm. Samples are counted in groups of 3 to 5 together with background and modern reference samples and are measured for at least one week, the instrument being set to cycle at 100 min intervals. In this period, the counts accumulated are such that the background is always measured to a statistical accuracy of better than 1% and most other samples to a higher accuracy than this. Background and modern counts used in the calculation of each result are only those relevant to the period of measurement of that particular sample. Statistical analysis of groups of replicate measurements made under these conditions over a very long period of time has demonstrated the excellent long-term stability of the equipment and indicates that the technique is quite capable of achieving results of very high statistical accuracy when required.

Type
Research Article
Copyright
Copyright © The American Journal of Science 

References

Date lists: Google Scholar
Arizona IV Damon, , Long, , and Sigalove, , 1963 Google Scholar
British Museum I Barker, and Mackey, , 1959 Google Scholar
British Museum III Barker, and Mackey, , 1961 Google Scholar
British Museum IV Barker, and Mackey, , 1963 Google Scholar
British Museum V Barker, and Mackey, , 1968 Google Scholar
Groningen IV Vogel, and Waterbolk, , 1963 Google Scholar
Groningen V Vogel, and Waterbolk, , 1964 Google Scholar
Lamont IV Broecker, and Kulp, , 1957 Google Scholar
NPL I Callow, , Baker, , and Pritchard, , 1963 Google Scholar
Pennsylvania VI Stuckenrath, , 1963 Google Scholar
UCLA IV Berger, , Fergusson, , and Libby, , 1965 Google Scholar
UCLA VI Berger, and Libby, , 1967 Google Scholar
Antonini, C. S. and Tucci, G., 1963, East and West: v. 14 (new series), no. 1-2, p. 1328.Google Scholar
Armstrong, A. L., 1928-1929, Excavations in Pin Hole Caves, Creswell Crags, Derbyshire: Prehist. Soc. Proc., East Anglia, v. 6, p. 330334.CrossRefGoogle Scholar
Ashbee, P., 1958, The Fussell's Lodge Long Barrow: Antiquity, v. 32, p. 106111.Google Scholar
Ashbee, P. 1964, The radiocarbon dating of the Fussell's Lodge Long Barrow: Antiquity, v. 38, p. 139140.CrossRefGoogle Scholar
Barker, Harold, 1953, Radiocarbon dating: Large-scale preparation of acetylene from organic material: Nature, v. 172, p. 631632.CrossRefGoogle Scholar
Barker, Harold and Mackey, C. J., 1959, British Museum natural radiocarbon measurements I: Am. Jour. Sci. Radiocarbon suppl., v. 1, p. 8186.Google Scholar
Barker, Harold and Mackey, C. J. 1961, British Museum natural radiocarbon measurements III: Radiocarbon, v. 3, p. 3945.CrossRefGoogle Scholar
Barker, Harold and Mackey, C. J. 1963, British Museum natural radiocarbon measurements IV: Radiocarbon, v. 5, p. 104108.CrossRefGoogle Scholar
Barker, Harold and Mackey, C. J. 1968, British Museum natural radiocarbon measurements V: Radiocarbon, v. 10, p. 17.CrossRefGoogle Scholar
Barker, , Harold, , Burleigh, , Richard, , and Meeks, Nigel, 1969, New method for the combustion of samples for radiocarbon dating: Nature, v. 221, p. 4950.CrossRefGoogle Scholar
Berger, R., Fergusson, G. J., and Libby, W. F., 1965, UCLA radiocarbon dates IV: Radiocarbon, v. 7, p. 336371.CrossRefGoogle Scholar
Berger, R. and Libby, W. F., 1967, UCLA radiocarbon dates VI: Radiocarbon, v. 9, p. 477504.CrossRefGoogle Scholar
Broecker, W. S. and Kulp, J. L., 1957, Lamont natural radiocarbon measurements IV: Science, v. 126, p. 13241334.CrossRefGoogle ScholarPubMed
Buckland, William, 1823, Reliquiae Diluvianae: London, p. 87.Google Scholar
Callow, W. J., Baker, M. J., and Pritchard, D. H., 1963, National Physical Laboratory radiocarbon measurements I: Radiocarbon, v. 5, p. 3438.CrossRefGoogle Scholar
Damon, P. E., Long, Austin, and Sigalove, J. J., 1963, Arizona radiocarbon dates IV: Radiocarbon, v. 5, p. 283301.CrossRefGoogle Scholar
Emery, W. B., 1938, The tomb of Hemaka: Excavations at Sakkara: 1938, Government Press, Cairo.Google Scholar
Emery, W. B. 1939, Hor-Aha: Excavations at Sakkara, 1937-38: 1939, Government Press, Cairo.Google Scholar
Emery, W. B. 1954, Great tombs of the first Dynasty II: Egypt Explor. Soc., London.Google Scholar
Emery, W. B. 1958, Great tombs of the first Dynasty III: Egypt Explor. Soc., London.Google Scholar
Emery, W. B. 1961, Archaic Egypt: Harmondsworth, London, p. 1269.Google Scholar
Emery, W. B. 1965, Prelim. Rept. on the Excavations at N. Saqqara, 1964-5: Jour. Egyptian Archaeol., v. 51, p. 7.Google Scholar
Evans, J. D., 1964a, Excavations in the Neolithic Mound of Knossos, 1958-60: London, Inst. Archaeol. Bull., no. 4, p. 3460.Google Scholar
Evans, J. D. 1964b, Excavations in the Neolithic Settlement of Knossos, 1957-60: Athens, Ann. of British School, v. 59, p. 132240.CrossRefGoogle Scholar
Garrod, D. A. E., 1926, The Upper Palaeolithic Age in Britain: Clarendon Press, Oxford, p. 4964.Google Scholar
Kenyon, K. M., 1960, Excavations at Jericho 1957-58: Palestine Explor. Quart., July-Dec., 1960.CrossRefGoogle Scholar
Leroi-Gourhan, A. and Brezillon, M., 1966, Gallia Prehistoire, v. 9, pt. 1, p. 382.Google Scholar
Longworth, I. H., 1961, Origins and development of the Collared Urn tradition in England and Wales: Prehist. Soc. Proc., v. 27, p. 263306.CrossRefGoogle Scholar
Manby, T. G., 1963, The excavations of the Willerby Wold Long Barrow, East Riding of Yorkshire: Prehist. Soc. Proc., v. 29, p. 173205.CrossRefGoogle Scholar
McBurney, C. B. M., 1959, Report on the first seasons fieldwork on British Upper Palaeolithic cave deposits: Prehist. Soc. Proc., v. 25, p. 260269.CrossRefGoogle Scholar
Nandris, J. G., 1968, Lepenski Vir: Science Jour., Jan. 1968, p. 6470.Google Scholar
Noakes, J. E., Kim, S. M., and Stipp, J. J., 1965, Chemical and counting advances in liquid scintillation age dating: Proc. Sixth Internatl. Conf. on Radiocarbon and Tritium Dating, Pullman, Washington. June 7-11, 1965, p. 6892.Google Scholar
North, F. J., 1942, Paviland Cave, the “Red Lady”, the Deluge, and William Buckland: Annals Sci., v. 91, p. 128.Google Scholar
Oakley, K. P., 1963a, Note on the Antiquity of Halling Man, App. II, in: Kerney, M.P., 1963, Late-glacial deposits on the Chalk of south-east England: Royal Soc. (London) Philos. Trans. B., v. 246, no. 730, p. 250251.Google Scholar
Oakley, K. P. 1963b, Mesolithic men in Britain: Prehist. Soc. Proc., v. 29, p. 426427.CrossRefGoogle Scholar
Oakley, K. P. 1968, The date of the “Red Lady” of Paviland: Antiquity, v. 42, p. 306307.CrossRefGoogle Scholar
Oakley, K. P., Barker, H., and Sieveking, G. de G., 1967, The skeleton of Halling Man: Archaeologia Cantiana, v. 82, p. 218220.Google Scholar
Petrie, , Flinders, W. M., 1914, Tarkhan II: British School of Archaeol. in Egypt, (London) p. 6.CrossRefGoogle Scholar
Pollard, S. H., 1966, Neolithic and Dark Age settlements on High Peak, Sidmouth, Devon: Devon Archaeol. Explor. Soc. Proc., no. 23, p. 3559.Google Scholar
Radley, J., 1966, A Bronze Age ring-work on Totley Moor and other Bronze Age ring-works in the Pennines: Archaeol. Jour., v. 123, p. 126.Google Scholar
Riley, D. N., 1966, An Early Bronze Age cairn on Harland Edge, Beeley Moor, Derbyshire: Derbs. Archaeol. Jour., v. 86, p. 3153.Google Scholar
Smith, H. S., 1964, Egypt and C-14 dating: Antiquity, v. 38, p. 3237.CrossRefGoogle Scholar
Sollas, W. J., 1913, Paviland Cave: An Aurignacian station in Wales: Jour. Royal Anthropol. Inst., v. 43, p. 337364.Google Scholar
Srejovic, Dragoslav, 1968a, Lepinski Vir 7,000 years ago: Illus. London News, Jan. 20, 1968.Google Scholar
Srejovic, Dragoslav 1968b, Lepenski Vir pottery and sculptures: Illus. London News, Feb. 3, 1968.Google Scholar
Stuckenrath, Robert Jr., 1963, Univ. of Pennsylvania radiocarbon dates VI: Radiocarbon, v. 5, p. 82103.CrossRefGoogle Scholar
Stuiver, Minze and Suess, H. E., 1966, On the relationship between radiocarbon dates and true sample ages: Radiocarbon, v. 8, p. 534540.CrossRefGoogle Scholar
Suess, H. E., 1967, Bristlecone pine calibration of the radiocarbon time scale from 4100 b.c. to 1500 b.c. (SM-87/52): Monaco symposium, Monaco, 2-10 March, 1967.Google Scholar
Trump, D. H., 1966, Skorba and the prehistory of Malta: Soc. of Antiquaries Research Rept. 22, p. 10, 48, 54.Google Scholar
Vogel, J. C. and Waterbolk, H. T., 1963, Groningen radiocarbon dates IV: Radiocarbon, v. 5, p. 163202.CrossRefGoogle Scholar
Vogel, J. C. and Waterbolk, H. T. 1964, Groningen radiocarbon dates V: Radiocarbon, v. 6, 349369.CrossRefGoogle Scholar
Wainwright, G. J., 1967, The excavation of the henge monument at Durrington Walls, Wiltshire, 1966: Antiquaries Jour., v. 47, p. 166184.Google Scholar
Wainwright, G. J. 1968, Durrington Walls a ceremonial enclosure of the 2nd millennium b.c.: Antiquity, v. 42, no. 165, p. 2026.CrossRefGoogle Scholar