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Isotopes in relation to polar glaciology

Published online by Cambridge University Press:  27 October 2009

Abstract

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Type
SCAR Bulletin No. 17, May 1964
Copyright
Copyright © Cambridge University Press 1964

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References

Berthios, L. Sedimentologie du Kangerdlugssuaq. Meddelelser om Grenland (in press).Google Scholar
Boato, G. Unpublished. Isotope fractionation process in nature. Summer course in nuclear geology, Varenne, 1960. Comitato Nazionale per l'Energia Nucleare, Laboratoria de Geologie Nucleare.Google Scholar
Botter, R., Lorius, C. and Nief, G. 1960. Sur la teneur en deutérium des précipitations en Terre de Victoria, Antarctique. Comptes rendus Hebdomadaires des Séances de l'Académie des Sciences (Paris), Tome 251, No 4, p 573.Google Scholar
Botter, R., Lorius, C. and Nief, G. 1961. Sur la datation des couches de névé dans l'Antarctique à partir de leur concentration en deutérium. Comptes rendus Hebdomadaires des Seances de l'Académie des Sciences (Paris), Tome 252, No 3, p 437.Google Scholar
Dansgaard, W. 1961. The isotopic composition of natural waters with special reference to the Greenland Ice Cap. Meddelelser om Grenland, Bd 165, Nr 2.Google Scholar
Epstein, S. and Benson, C. 1959. Oxygen isotope studies. Transactions of the American Geophysical Union, Vol 40, p 8184.Google Scholar
Fact, L., Merltvat, L., Nief, G. and Roth, E. 1963. Étude de la formation d'un grelon par une méthode d'analyse isotopique. Journal ofGeophysical Research. Vol 68, No 13, 3841–48.Google Scholar
Goldberg, E. D. Unpublished. Geochronology with lead 210. Symposium on radio active dating, Athens, 11 1962. International Association for Atomic Energy.Google Scholar
Gonfiantini, R., Toguatti, V., de Breuck, W., Picciotto, E. and Tongiorgi, E. 1963. Snow stratigraphy and oxygen isotope variations in the glaciological pit of Base Roi Baudoin, Dronning Maud Land, Antarctica. Nature, Lond., Vol 197, p 1096.CrossRefGoogle Scholar
Labeyrie, J. and Lambert, G. 1963. Sur I'existence d'une barrière de diffusion entre les troposphères des hèmisphères Nord et Sud. Comptes rendus Hebdomadaires des Scéances de l'Académie des Sciences (Paris), Tome 56, p 2664.Google Scholar
Langway, C. 1962. Some physical and chemical investigations of a 411 meters deep Greenland ice core and their relationship to accumulation. International Association of Scientific Hydrology Publication No 58, p 101.Google Scholar
Libby, W. F. 1956. Radioactive strontium fallout. Proceedings of the National Academy of Sciences, No 42.Google Scholar
Libby, W. F. 1959. Radioactive fallout particularly from the Russian October series. Proceedings of the National Academy of Sciences, No. 45, p 959–76.Google Scholar
Lorius, C. 1961. Concentration en deuterium des couches de névé dans l'Antarctique. Annales de Géophysique, Tome 17, No 4, p 378.Google Scholar
Lorius, C. 1963. Le deutérium: possibilités d'application aux problèmes de recherche concernant la neige, le névé et la glace dans l'Antarctique. Comité national français pour les recherches antarctiques, No 8.Google Scholar
Lorius, C. and Merlivat, L. 1963. Sur la caractérisation de la glace des Inlandsis à partir de la teneur en deutdrium. Comptes rendus Hebdomadaires des Séances de l'Académie des Sciences (Paris), Tome 256, No 2, p 475–77.Google Scholar
Oeschger, H., Renaud, A. and Schumacher, E. 1962. Essai de datation par le tritium des couches de nevé du Jungfraufirn et détermination de l'accumulation annuelle. Bulletin de la Société vaudoise des sciences naturelles, Vol 68, No 306, p 49.Google Scholar
Picciotto, E., de Maere, X. and Friedman, I. 1960. Isotopic composition and temperature of formation of antarctic snows. Nature, Lond., Vol 187, p 857.CrossRefGoogle Scholar
Picciotto, E., Tongiorgi, E., Gonfiantini, R., Togliattt, V. and de Breuck, W. 1963. Geographical variations of oxygen 18–oxygen 16 ratio in surface snow and ice from Queen Maud Land, Antarctica. Nature, Lond., Vol 197, p 1096.Google Scholar
Picciotto, E. and Wilgain, S. 1963. Fission products in Antarctic snow—A reference level for measuring accumulation. Journal of Geophysical Research. In press.CrossRefGoogle Scholar
Renaud, A., Schumacher, E., Hughes, B., Muhlemann, C. and Oeschger, H. 1962. Tritium variations in Greenland ice. Symposium on trace gases and natural and artificial radioactivity in the atmosphere. I.U.G.G., W.M.O. Utrecht.Google Scholar
Roth, E. 1963. L'utilisation des mesures de teneur en deutérium pour L'étude des phénomenes météorologiques et géologiques. Journal de Chimie Physique, Tome 60, No 1–2, p 331.Google Scholar
Sharp, R. P. and Epstein, S. 1962. Comments on annual rates of accumulation in West Antarctica. International Association of Scientific Hydrology Publication, No 58, p 273.Google Scholar
Vickers, W. W. 1963. Geochemical dating techniques applied to Antarctic snow samples. International Association of Scientific Hydrology Publication, No 61, p 199.Google Scholar