Hostname: page-component-78c5997874-s2hrs Total loading time: 0 Render date: 2024-11-05T11:22:57.438Z Has data issue: false hasContentIssue false
  • English
  • Français

The Influence of Microbial Activity on the Movement of Uranium at Osamu Utsumi Mine, Poços De Caldas, Brazil

Published online by Cambridge University Press:  26 February 2011

Julia M West ,
Ian G Mckinley  and
Airton Vialta
Julia M West
Affiliation:
British Geological Survey, Keyworth, Nottingham NG12 5GG, United Kingdom.
Ian G Mckinley
Affiliation:
NAGRA, Parkstrasse 23, 5401 Baden, Switzerland.
Airton Vialta
Affiliation:
Nuclebras, Caixa Postal 913, Poços de Caldas MG, 37700, Brazil (now at Companhia de Desenvolvimento Technologico, Caixa Postal 6041, Campinas SP, 13081, Brazil).
Get access

Abstract

The Osamu Utsumi uranium mine, Poços de Caldas, Brazil is a roll front uranium deposit currently under investigation in an international natural analogue project involving Brazil, Sweden, Switzerland, the United Kingdom and the United States. This is a multi-disciplinary study (see the paper at this meeting by Smellie et al (1)), one component of which is an examination of the movement of natural series radionuclides across redox fronts. The processes at such fronts are analogous to those which could occur at radiolytic redox fronts found in the near- or far-field of deep repositories for HLW or spent fuel. Microbiological investigations have been carried out to determine the presence and activity of microbes known to be important in the uranium biogeochemical cycle; to define their importance in the movement of uranium across the redox front and to assess the significance of these observations to relevant safety assessment issues. This paper will summarise the results of these findings.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 127: Symposium BERLIN – Scientific Basis for Nuclear Waste Management XII , 1988 , 771
Copyright
Copyright © Materials Research Society 1989

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1. Smellie et al (at this meeting)Google Scholar
2. Poços de Caldas Project Progress Report September - November 1986. SKB, Box 5864, S-102 Stockholm, Sweden (1986)Google Scholar
3. Zajic, J. E., Microbial Biogeochemistry (Academic Press Inc, New York, 1969), pp. 179 - 196.Google Scholar
4. Poços de Caldas Project Progress Report March - May 1987. SKB, Box 5864, S-102 Stockholm, Sweden (1987)Google Scholar
5. Stanier, R. W., Adelberg, E. A., and Ingraham, J. C., General Microbiology, 4th ed. (MacMillan, Basingstoke, 1977). p. 28 Google Scholar
6. McKinley, I. G., West, J. M. and Grogan, H. A., An analytical overview of the consequences of microbial activity in a Swiss HLW repository. NAGRA NTB 84–07 Baden Switzerland (1985)Google Scholar
7. Thauer, R. K., Jungerman, K. and Decker, K., Bacteriological Reviews. 41, pp. 100180 (1977)Google Scholar
8. Ehrlich, H. L., Geomicrobiology (Marcel Dekker Inc, New York, 1981) pp. 203 - 249Google Scholar
9. West, J. M., Christofi, N. and McKinley, I. G., Radioactive Waste Management and the Nuclear Fuel Cycle, 6, pp. 79 - 95 (1985)Google Scholar
10. Cramer, J. J., (pers comm)Google Scholar
11. Cathles, L. M., Math. Geol. 11, pp. 175 - 191 (1979)Google Scholar
12. McKinley, and Bradbury (at this meeting)Google Scholar