Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-25T10:38:19.008Z Has data issue: false hasContentIssue false
  • English
  • Français

University of Pennsylvania Radiocarbon Dates VI

Published online by Cambridge University Press:  18 July 2016

Robert Stuckenrath Jr.
Robert Stuckenrath Jr.*
Affiliation:
Department of Physics and University Museum University of Pennsylvania, Philadelphia 4, Pennsylvania
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.

In conformance with the request of the editors, ages in this date list have been calculated with the Libby half life value of 5568 ± 30 yr, although the present best estimate of the half life value is 5730 ± 40 yr (Godwin, 1962). Additional support for the latter value as being closer to the “effective” value for dating has been obtained by the measurements of samples of known age.

Type
Research Article
Information
Radiocarbon , Volume 5 , 1963 , pp. 82 - 103
Copyright
Copyright © The American Journal of Science 

References

Arnold, J. R., and Libby, W. F., 1950, Radiocarbon dates: Science, v. 113, p. 111120.Google Scholar
Barker, Harold, and Mackey, John, 1963, British Museum natural radiocarbon measurements IV: Radiocarbon, v. 5, p. 104108.Google Scholar
Braidwood, R. J., Howe, B., and Reed, C. S., 1961, The Iranian prehistoric project: Science, v. 133, p. 20082009.CrossRefGoogle ScholarPubMed
Broecker, W. S., Kulp, J. L., and Tucek, C. A., 1956, Lamont natural radiocarbon measurements III: Science, v. 124, p. 154165.CrossRefGoogle ScholarPubMed
Broecker, W. S., and Kulp, J. L., Lamont natural radiocarbon measurements IV: Science, v. 126, p. 13241334.Google Scholar
Craig, Harmon, 1961, Mass-spectrometer analyses of radiocarbon standards: Radiocarbon. v. 3, p. 13.CrossRefGoogle Scholar
Der Frei Ratier, , 1960, Kaiserzeitliche und fruhchristliche funde in Schiers: Grabunden, Switzerland, Feb. 18.Google Scholar
Dyson, R. H. Jr., 1958, Iran, 1957, iron age Hasanlu: Bull. Univ. Mus., Univ. Pennsylvania, v. 22, p. 2532.Google Scholar
Dyson, R. H. Jr. 1959, Digging in Iran: Hasanlu, 1958: Expedition, Bull., Univ. Mus., Univ. Pennsylvania, v. 1, no. 3, p. 417.Google Scholar
Dyson, R. H. Jr. 1960a, Death of a city: Expedition, Bull. Univ. Mus., Univ. Pennsylvania, v. 2, no. 3, p. 211.Google Scholar
Dyson, R. H. Jr. 1960b, Hasanlu and early Iran: Archaeology, v. 13, p. 118129.Google Scholar
Dyson, R. H. Jr. 1962, The Hasanlu project: Science, v. 135, p. 637647.CrossRefGoogle ScholarPubMed
Dyson, R. H. Jr., and Young, T. C. Jr., 1960, Solduz Valley, Iran: Pisdeli Tepe: Antiquity, v. 34, p. 1928.Google Scholar
Evans, Clifford, Meggers, B. J., and Cruxent, J. M., 1960, Preliminary results of archaeological investigations along the Orinoco and Ventuari Rivers, Venezuela: Actas del XXXIII Cong. Internac. de Americanistas, San Jose, Costa Rica 1958, v. 2, p. 359369.Google Scholar
Evans, Clifford, and Meggers, B. J., in press, Use of organic temper for Carbon-14 dating in lowland South America: Amer. Antiquity. Google Scholar
Fairservis, W. A. Jr., 1956, Excavations in the Quetta Valley, West Pakistan: Am. Mus. Nat. Hist., Anthropol. Papers, v. 45, pt. 2.Google Scholar
Gfeller, C., Oeschger, H., and Schwarz, U., 1961, Bern radiocarbon dates II: Radiocarbon, v. 3, p. 1525.CrossRefGoogle Scholar
Ghosh, A., 1954–55, 1955–56, 1958, Indian archaeology, a review: Govt. of India Dept. of Archaeol., 1954–55, p. 59; 1955–56, p. 8–11; 1958, p. 30–31.Google Scholar
Godwin, H., 1962, Half-life of radiocarbon: Nature, v. 195, no. 4845, p. 984.Google Scholar
Hurt, W. R., 1960, The cultural complexes from the Lagoa Santa region, Brazil: Am. Anthropol., v. 62, no. 4, p. 569585.Google Scholar
Hurt, W. R. 1962, New and revised radiocarbon dates from Brazil: W. H. Over Mus., State Univ. of South Dakota, Mus. News, v. 23, no. 11 and 12, p. 14.Google Scholar
Hurt, W. R., and Blasi, Oldemar, 1960, O sambaqui do Macedo, A.52.B, Parana, Brazil: Arqueologia, Univ. of Parana, Parana, Brazil, no. 2, 98 p.Google Scholar
Kenyon, K. M., 1954a, Jericho, oldest walled town: Archaeology, v. 7, p. 28.Google Scholar
Kenyon, K. M. 1954b, 1955, 1956b, 1957a, Excavations at Jericho: Palestine Explor. Quart., 1954b, May/Oct., p. 4563; 1955, May/Oct., p. 108–118; 1956b, May/Oct., p. 67–82; 1957a, May/Oct., p. 101–107.Google Scholar
Kenyon, K. M. 1956a, Jericho and its setting in Near Eastern history: Antiquity, v. 30, p. 184195.Google Scholar
Kenyon, K. M. 1957b, Digging up Jericho: the results of the Jericho excavations, 1952–1956: New York, F. A. Praeger, 267 p.Google Scholar
Kenyon, K. M. 1959, Earliest Jericho: Antiquity, v. 33, p. 59.CrossRefGoogle Scholar
Lloyd, Seton, 1940, Iraq government soundings at Sinjar: Iraq, v. 7, p. 1319.CrossRefGoogle Scholar
Meggers, B. J., and Evans, Clifford, 1958, Archaeological evidence of a prehistoric migration from the Rio Napo to the mouth of the Amazon: Univ. of Arizona Soc. Sci. Bull., no. 27, Migrations in New World History.Google Scholar
Meggers, B. J., and Evans, Clifford 1961, An experimental formulation of horizon styles in the tropical forest area of South America: Cambridge, Mass., Harvard Univ. Press, Essay in Pre-Columbian Art and Archaeol., no. 25, p. 372388.Google Scholar
Menzel, Dorothy, 1958, Preblemas en al estudio de horizonte medio in la arqueologia Peruana: Revista del Mus. Regional de Ica, Ica, Peru, v. 9, n. 10, p. 2456.Google Scholar
Ponce, C. S., 1962, Fechas radiocarbonicas de Bolivia: La Paz, Bolivia, Tiwanaku, in press.Google Scholar
Ralph, E. K., 1959, University of Pennsylvania radiocarbon dates III: Am. Jour. Sci. Radioc. Supp., v. 1, p. 4558.Google Scholar
Rands, R. L., 1960, The ceramic history of Palenque, Chiapas, Mexico: Philadelphia, Am. Phil. Soc. Yr. Book.Google Scholar
Rands, R. L. in press, Ceramic investigations at Palenque: Mexico, Bol. Bibliog. de Antropol. Am. Google Scholar
Rubin, Meyer, and Alexander, Corrinne, U. S. Geological Survey radiocarbon dates IV: Science, v. 127, p. 14761487.Google Scholar
Ruz, A., 1958, Exploraciones arquelogicas en Palenque: 1956: Mexico, Inst. Nac. de Antropol. e Hist. Ann., v. 10, p. 270.Google Scholar
Sankalia, H. D., 1958, New light on the “Aryan” invasion of India, links with the Iran of 1000 B.C. discovered in Central India: Illus. London News, v. 233, p. 478479.Google Scholar
Sankalia, H. D., Subbarao, B., and Deo, S. B., 1958, Excavations at Maheshwar and Navdatoli: Poona, Deccan Coll., Baroda, M.S. Univ. of Baroda.Google Scholar
Schaeffer, C. F. A., 1961a, 1961b, Les fondements pre- et proto-historiques de Syrie du Neolithique Preceramique au Bronze ancien: Syria, v. 8, 1961a, no. 3, p. 722; 1961b, no. 4, p. 221–246.CrossRefGoogle Scholar
Strong, W. D., 1957, Paracas, Nazca, and Tiahuanacanoid cultural relationships in south coastal Peru: Soc. for Am. Archaeology Mem., no. 13, Salt Lake City, 48 p.Google Scholar
Wallace, D. T., 1962, Cerrillos, an early Paracas site in Ica: Amer. Antiquity, v. 27, n. 3, p. 303314.Google Scholar
Walter, H. V., no date, The prehistory of the Lagoa Santa region (Minas Gerais) : Minas Gerais, Brazil, Oficinia Graficas de Paelaira e Topografia de Vellosa & Coia. Lit. Belo Horizonta.Google Scholar
Young, T. C. Jr., 1962, Taking the history of the Hasanlu area back another five thousand years: sixth- and fifth-millenium settlements in Solduz Valley, Persia: Illus. London News, v. 124, n. 6431, p. 707709.Google Scholar
Zeuner, F. E., 1954, The Neolithic Bronze Age gap on the tell of Jericho: Palestine Explor. Quart., Jan/May, p. 6468.Google Scholar