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Absorption of Technetium By Plants in Relation To Soil Type, Contamination Level and Time

Bibliographic reference Mousny, JM. ; Myttenaere, C.. Absorption of Technetium By Plants in Relation To Soil Type, Contamination Level and Time. In: Plant and Soil : international journal on plant-soil relationships, Vol. 61, no. 3, p. 403-412 (1981)
Permanent URL http://hdl.handle.net/2078.1/58016
  1. Baker, D. A., Hoenes, G. R. and Soldat, J. K. 1976 ‘Food—An interactive code to calculate internal radiation doses from contaminated food products’. Battelle Northwest Laboratory, BNWL-SA-5523.
  2. Beasley, T. M., Palmer, H. E. and Nelp, W. B. 1966 Distribution and excretion of technetium in humans, Health Phys.12, 1425.
  3. Bittel, R. 1980 Le technetium et l'environnement, Radioprotection Dunod.15, 141–146.
  4. Bondietti, E. A. and Francis C. W. 1979 Geologic migration potentials of technetium-99 and neptunium-237, Science203, 1337–1340.
  5. Cataldo, D. A., Wildung, R. E. and Garland, T. R. 1978 Technetium accumulation fate and behavior in plants. Chap. 28. In Proc. of the Environ. Chemistry and cycling processes Symp., Augusta, Ga, Conf-760429. Tech. Inf. Center, Oak Ridge, Tenn. USA.
  6. Gearing, P., Van Baalen, C. and Parker, P. L. 1975 Biochemical effects of technetium-99-pertechnetate on microorganisms. Plant. Phys.55, 240–246.
  7. Isermeyer, H. 1952 Eine einfache methode zur bestimmung der bodenatmung und der Karbonate im boden. Z. Pflanzenernaehr. Dueng. Bodenkd.56 26-XX.
  8. Kilmer, V. J. 1960 The estimation of free iron oxides in soils, Soil. Sci. Soc. Am. Proc.24, 420–421.
  9. Landa, E. R., Hart Thorvig, L. J. and Gast, R. G. 1977 The uptake and distribution of Tc-99 in higher plants. Biological implications of metals in the environment. Eds. Drucker and R. E. Wildung, USERDA Symp. Ser. Conf-750959. Nat. Tech. Inf. Serv., Springfield, Va.
  10. Landa, E. R., Thorvig, L. J. and Gast, R. G. 1977 Effect of selective dissolution, electrolytes, aeration and sterilization on technetium-99 sorption by soils. J. Environ. Qual.6, 181–187.
  11. Laul, J. C., Weimer, W. C. and Rancitelli, L. A. 1977 Biogeochemical distribution of rare earths and other trace elements in plants and soils. Proceedings of the second Symposium on the origin of the elements, UNESCO, Paris, May 10–13.
  12. Menzel, R. G. 1965 Soil-plant relationships of radioactive elements, Health Phys.11, 1325–1332.
  13. Mousny, J. M., Roucoux, P. and Myttenaere, C. 1979 Absorption and translocation of technetium in pea plant, Environm. Exp. Bot.19, 263–268.
  14. Myttenaere, C., Daoust, C. and Roucoux, P. 1980 Leaching of technetium from foliage by simulated rain, Environm. Exp. Bot.20, 415–419.
  15. Rancon, D. and Rochon, J. 1979 Retention des radionucleides à vie longue par divers matériaux naturels. Réunion de travail CCE sur: la migration des radionucléides à vie longue dans la géosphère. Bruxelles, Belgique, 29–31 janvier.
  16. Routson, R. C. and Cataldo, D. A. 1978 Accumulation of99Tc by tumbleweed and cheatgrass grown on arid soils, Health Phys.34, 685–690.
  17. Routson, R. C., Jansen, G. and Robinson, A. V. 1977241Am,237Np and99Tc sorption on two united states subsoils from differing weathering intensity areas, Health Phys.33, 311–317.
  18. Saas, A., Denardi, J. L., Colle, C. and Quinault, J. M. 1979 Cycle du molybdène et du technetium dans l'environnement. Evolution physico-chimique et mobilité dans les sols et les végétaux. IIème Symposium international de Radioécologie. Commissariat à l'énergie atomique, Electricité de France, Cadarache, 19–22 juin, 443–489.
  19. Till, J. E., Hoffman, F. O. and Dunning, Jr. D. E. 1979 A new look at99Tc releases to the atmosphere, Health Phys.36, 21–30.
  20. Weimer, W. C., Laul, J. C., Kutt, J. C. and Bondietti, E. A. 1978 Plant uptake of Americium, Curium and the chemical analog Neodymium. The proceeding of the third international conference on nuclear methods in environmental and energy research.
  21. Weimer, W. C., Laul, J. C. and Kutt, J. C. 1979 Prediction of the ultimate biological availability of transuranium elements in the environment. Contaminants and sediments, Baker R. A., Ed. Ann Arbor Science, Ann Arbor, Mi.
  22. Wildung, R. E., Routson, R. C., Serne, R. J. and Garland, T. R. 1974 Pertechnetate, iodide and methyl iodide retention by surface soils. USERDA Rep. BNWL-1950, part2, 37–41.
  23. Wildung, R. E., Garland, T. R. and Cataldo, D. A. 1977 Accumulation of technetium from soil by plants. Health Phys.32, 314–317.
  24. Wildung, R. E., McFadden, K. M. and Garland, T. R. 1979 Technetium sources and behaviour in the environment. J. Environ. Qual.8, 156–161.
  25. Generic models and parameters for assessing the environmental transfer of radionuclides in predicting exposure to critical group from routine relaeses: Transport of radionuclides through terrestrial and aquatic food-chains. I.A.E.A. Tech. Rep. Series (in press).