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Influence of chelating agents on the uptake of239Pu and241Am by plants

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Summary

The uptake of239Pu and241Am from two contrasting soil types, namely, a laterite (Oxisol) and a medium black (Vertisol-Pellustert) and also from nutrient solution as influenced by pre-chelation with synthetic chelating agents, DTPA and EDTA was studied.

Results from soil-plant studies indicated a significant increase in uptake of239Pu and241Am by plants from both soil types when added as239Pu-DTPA,239Pu-EDTA,241Am-DTPA or241Am-EDTA as compared to the treatments where transuranics were added in ionic (nitrate) forms. Concentration ratios (CRs) for Pu and Am in plant shoots increased by factors ranging from 3 to 700 depending on the soil type and the complexing ligand.

Nutrient solution studies also revealed a marked enhancement in uptake as well as translocation of Pu and Am in plants due to supply of chelated transuranics. The shoots CRs in the case of Pu(NO3)4, Pu-EDTA, and Pu-DTPA were 0.11±0.02, 2.94±0.35 and 4.35±0.41, respectively. The observed values of Am CRs in shoots in the case of Am(NO3)3, Am-EDTA and Am-DTPA were 1.55±0.18, 1.86±0.25 and 2.85±0.40, respectively. An increase in the values of ‘Transport index’ by 6 to 50-folds was observed in the case of Am and Pu, respectively, when added as chelates of DTPA in comparison to the nitrate form of the radionuclides. EDTA complexes of the transuranics were observed to be less effective than corresponding DTPA complexes in enhancing the uptake of Pu and Am by plants.

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References

  1. Adriano D C 1979 Factors affecting the availability of americium-241 to the rice plant. J. Agric. Food Chem. 27, 1369–1375.

    PubMed  Google Scholar 

  2. Adriano D C, Delaney M S, Hoyt G D and Paine D 1977 Availability to plants and soil extraction of americium-241 as influenced by chelating agent, lime and soil type. Environ. Exp. Bot. 17, 69–77.

    Google Scholar 

  3. Angeletti L 1979 Transuranium elements. Physicochemical properties and environmental behaviour. Behaviour in soils, water and sediments. Transfer to the aquatic biomass and to vegetables (In French). CEA Centre d'Etudes Nuclearaires de Fonteray-aux-Roses Rep. CEA-R-4987, 64p.

  4. Ballou J E, Price K R, Gies R A and Doctor P G 1978 The influence of DTPA on the biological availability of transuranics. Health Phys. 34, 445–450.

    PubMed  Google Scholar 

  5. Bernhardt D E and Eadie C G 1976 Parameters for estimating the uptake of transuranic elements by terrestrial plants. US Environmental Protection Agency Technical Note ORP/LV-76-2, 31p.

  6. Brown K W 1976 Americium—Its behaviour in soil and plant systems. US Environmental Protection Agency Rep. EPA-600/3-76-005, 10p.

  7. Cleveland J M 1970 The Chemistry of Plutonium. Gordon and Breach Publ. New York, 653 p.

    Google Scholar 

  8. Ensminger J T, Fore C S and Dailey N S 1978 Environmental aspects of the transuranics; A selected, Annotated Bibliography Vol. 9, Nevada Applied Ecology Group Rep. ORNL/EIS-91/V9 (NVO/AEIC-78/1), 277p.

  9. Francis C W 1973 Plutonium mobility in soil and uptake in plants. A review. J. Environ. Qual. 2, 67–70.

    Google Scholar 

  10. Hakonson T E 1975 Environmental pathways of plutonium into terrestrial plants and animals. Health Phys. 29, 583–588.

    PubMed  Google Scholar 

  11. Hale V Q and Wallace A 1970 Effects of chelates on uptake of some heavy metal nuclides by plants from soils. Soil Sci. 109, 262–263.

    Google Scholar 

  12. Hanson W C 1975 Ecological considerations of the behaviour of plutonium in the environment. Health Phys. 28, 529–537.

    PubMed  Google Scholar 

  13. International Union of Pure and Applied Chemists (IUPAC) 1979 Chemical Data Series-22. Organic Ligands-Stability Constants of Metal-Ion Complexes Part B. Compiled by Douglas D Perrin. Pergamon Press, 1263p.

  14. Lindsay W L 1974 Role of chelation in micronutrient availability.In Plant Roots and its Environment. Ed. Carson E W, Univ. Press of Virginia, Charlottesville, Va, 507–524.

    Google Scholar 

  15. Lipton W V and Goldin A S 1976 Some factors affecting the uptake of plutonium-239 by pea plants. Health Phys. 31, 425–430.

    PubMed  Google Scholar 

  16. Moore F L and Hudgens J E 1957 Separation and determination of plutonium by TTA extraction. Anal. Chem. 29, 1767–1770.

    Google Scholar 

  17. Pimpl M and Schüttelkopf H 1979 Transport of plutonium, americium and curium from soils into plants by roots (In German). Kernforschungszentrum Karlsruhe GmbH Rep. KfK-2891-58p.

  18. Price K R 1973 A review of transuranic elements in soils, plants and animals. J. Environ. Qual. 2, 62–66.

    Google Scholar 

  19. Romney E M, Mork H M and Larson K H 1970 Persistence of plutonium in soil, plants and small mammals. Health Phys. 19, 487–491.

    PubMed  Google Scholar 

  20. Vyas B N and Mistry K B 1978 Studies on the uptake of plutonium from major Indian soils and its distribution in plants. J. Environ. Qual. 7, 533–536.

    Google Scholar 

  21. Vyas B N and Mistry K B 1980 Studies on the mobility of plutonium-239 and americium-241 in three major Indian soils. J. Nuclear Agric. Biol. 9, 85–88.

    Google Scholar 

  22. Vyas B N and Mistry K B 1981 Uptake of241Am from major Indian soils and its distribution in plants. Environ. Exp. Bot. 21, 75–81.

    Google Scholar 

  23. Vyas B N and Mistry, K B 1981 Influence of clay mineral type and organic matter content on the uptake of239Pu and241Am by plants. Plant and Soil 59, 75–82.

    Google Scholar 

  24. Vyas B N and Mistry K B 1983 Studies on the transformations of Plutonium and Americium in three major Indian soils. Science Total Environ. (in press.)

  25. Wallace A 1971 Regulation of the micronutrient status of plants by chelating agents and other factors. Rep. UCLA 34p 51-33, Los Angeles Calif. U.S.A., 309p.

  26. Wallace A 1972 Effect of soil pH and chelating agent (DTPA) on uptake by and distribution of241Am in plant parts of bush beans. Radiat. Bot. 12, 433–435.

    Google Scholar 

  27. Wallace A 1972 Increased uptake of241Am by plants caused by the chelating agent DTPA. Health Phys. 22, 559–562.

    PubMed  Google Scholar 

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  1. Biology and Agriculture Division, Bhabha Atomic Research Centre, Trombay, 400 085, Bombay, India

    B. N. Vyas & K. B. Mistry

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  1. B. N. Vyas
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  2. K. B. Mistry
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Vyas, B.N., Mistry, K.B. Influence of chelating agents on the uptake of239Pu and241Am by plants. Plant Soil 73, 345–353 (1983). https://doi.org/10.1007/BF02184311

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  • DOI: https://doi.org/10.1007/BF02184311

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