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Some Aspects of The Influence of Surface and Ground Water Chemistry on The Mobility of Thorium in the “Morro Do Ferro” - Environment.

Published online by Cambridge University Press:  15 February 2011

Norbert Miekeley
Affiliation:
Catholic University of Rio de Janeiro (PUC), R. Marquês de S. Vicente 225, Rio de Janeiro (Brazil);
Maria G.R. Vale
Affiliation:
Catholic University of Rio de Janeiro (PUC), R. Marquês de S. Vicente 225, Rio de Janeiro (Brazil);
Terezinha M. Tavares
Affiliation:
Catholic University of Rio de Janeiro (PUC), R. Marquês de S. Vicente 225, Rio de Janeiro (Brazil);
Wayne Lei
Affiliation:
New York University Medical Center, New York (USA)
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Extract

Information concerning the migration of thorium in natural environments is of interest in studies related to impact evaluations of mining and milling operations, to geochemical prospecting and at some point, to predict the long-term behavior of critical waste nuclides.

Type
Research Article
Copyright
Copyright © Materials Research Society 1982

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References

REFERENCES

1. Eisenbud, M. et al. (1981) in “International Symposium on Migration in the Terrestrial Environment of Long-Lived Radionuclides from the Nuclear Fuel Cycle”, Knoxville, Tennessee.Google Scholar
2. Weimer, J. C. et al. (1980) in “Contaminants and Sediments”, ed., Ann Arbor Science Publishers, Inc., Ann Arbor, MI, Vol. 2, pp. 465484.Google Scholar
3. Eisenbud, M. et al. (1982) “Studies of the Mobilization of Thorium from the Morro do Ferro”. MRS Symposia Proceedings, Vol. 11, Scientific Basis for Nuclear Waste Management, Lutze, W. ed.Google Scholar
4. Langmuir, D. and Herman, J. S. (1980) Geochim. Cosmochim. Acta 44, (11) pp. 17531766.10.1016/0016-7037(80)90226-4CrossRefGoogle Scholar
5. Publication of the analytical procedure is in preparation.Google Scholar
6. Miyake, Y. et al. . (1964) in “The Natural Radiation Environment”, eds. Adams, J. A. S. and Lowder, W. M., Univ. Chicago Press, pp. 219225.Google Scholar
7. Data furnished by Medeiros, J. A. and Pivetta, F. R. - PUC-RJ.Google Scholar
8. Kerndorf, H. and Schitzer, M. (1980) Geochim. Cosmochim. Acta 44, (11) pp. 17011708.10.1016/0016-7037(80)90221-5CrossRefGoogle Scholar
9. Klockmanns Lehrbuch der Mineralogie (1978), 16. Edition, revised by Ramdohr, P. and Strunz, H., ed. Ferdinand Enke Verlag, Stuttgart, p. 626.Google Scholar
10. Bondietti, E. A. (1974) in “Adsorption of U (+4) and Th (+4) by Soil Colloids”. Agronomy Abstracts.Google Scholar
11. Frayha, R. (1962) “Uranio e Tório no Planalto de Pocos de Caldas”. Brazilian National Department of Mineral Production, Bull. 116.Google Scholar
12. Wahlgren, M. A. and Orlandini, K. A. (1981) in “International Symposium on Migration in the Terrestrial Environment of Long-Lived Radionuclides from the Nuclear Fuel Cycle”, Knoxville, Tennessee.Google Scholar