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Experiments were carried out to determine uptake and distribution of 137Cs, and total isotopes of Cs and K in plants of heather (Calluna vulgaris) growing at two levels of CsCl: 0.03 and 0.3 mM. Levels of Cs and K were determined in soil and in parts of plants: roots, stem, leaves and flowers. Also calculated were: (i) transfer factor of Cs and K from soil to parts of plant and (ii) discrimination of K by Cs during the transport of Cs from roots to aboveground parts of plants, expressed as K/Cs discrimination factor. The results confirmed that heather plants are hyper-accumulators of cesium, because the accumulation of Cs in shoot was much greater than in roots. The K level in heather did not change at Cs concentrations as high as 8-fold Cs level in this plant. Heather plants seem to be relatively resistant to cesium toxicity at 0.3 mM of CsCl; the effect of exposure to CsCl at this concentration was exerted only on roots, without affecting leaves and flowers. These results supply new information on the interactions between Cs and K nutrition in plants; they also point to a possible role of heather in redistribution of the radiocesium pollution in the forest ecosystem.
Czasopismo
Rocznik
Tom
Strony
31--35
Opis fizyczny
Bibliogr. 23 poz., rys.
Twórcy
- Isotopic Laboratory, Faculty of Biology, Warsaw University, 1 Miecznikowa Str., 02-096 Warsaw, Poland, Tel.: +48 22/ 554 23 00, Fax: +48 22/ 554 11 06
autor
- Isotopic Laboratory, Faculty of Biology, Warsaw University, 1 Miecznikowa Str., 02-096 Warsaw, Poland, Tel.: +48 22/ 554 23 00, Fax: +48 22/ 554 11 06
autor
- Isotopic Laboratory, Faculty of Biology, Warsaw University, 1 Miecznikowa Str., 02-096 Warsaw, Poland, Tel.: +48 22/ 554 23 00, Fax: +48 22/ 554 11 06
Bibliografia
- 1. Avery SV (1995) Caesium accumulation by microor-ganisms: uptake mechanisms, cation compartmentali-zation and toxicity. J Ind Microbiol 14:76−84.
- 2. Beljaars PR, Van Dijk R, Geersten JAM, Nooteboom H (1997) Determination of long-life radiocesium Cs-134 and Cs-137 in food by gamma-ray spectrometry: summary of collaborative study. J AOAC Int 80;3:545−548.
- 3. Bunzl K, Kracke W (1989) Seasonal variation of soil-to-plant transfer of K and fallout 134,137Cs in peatland vegetation. Health Phys 57;4:593−600.
- 4. Bystrzejewska-Piotrowska G, Jeruzalski M, Urban PŁ (2004) Uptake and distribution of caesium and its influence on physiological processes in croton plants(Codiaeum variegatum). Nukleonika 49;S1: s35−s39.
- 5. Bystrzejewska-Piotrowska G, Nowacka R (2004) The distribution of 137Cs in maize (Zea mays L.) and two millet species (Panicum miliaceum L. and Panicum maximum Jacq.) cultivated on the caesium-contaminated soil. Nukleonika 49;S1:s13−s17.
- 6. Bystrzejewska-Piotrowska G, Urban PŁ (2003) Accumu-lation of cesium in leaves of Lepidium sativum and its influence on photosynthesis and transpiration. Acta Biol Cracov Bot 45:131−137.
- 7. Bystrzejewska-Piotrowska G, Urban PŁ (2004) Accumu-lation and translocation of cesium-137 in onion plants (Allium cepa L.). Environ Exp Bot 51;1:3−7.
- 8. Bystrzejewska-Piotrowska G, Urban PŁ, Stęborowski R (2003) Discrimination between 137Cs and 40K in fruiting body of wild edible mushrooms. Nukleonika 48;3:155−157.
- 9. Clint GM, Dighton J (1992) Uptake and accumulation of radiocesium by mycorrhizal heather plants. New Phytol 121;4:555−561.
- 10. Ehlken S, Kirchner G (2000) Environmental processes affecting plant root uptake of radioactive trace elements and variability of transfer factor data: a review. J Environ Radioact 58:97−112.
- 11. Fisk S, Sanderson DCW (1999) Chernobyl-derived radiocesium in heather honey and its dependence on deposition patterns. Health Phys 77;4:431−435.
- 12. Hampton CR, Bowen HC, Broadley MR et al. (2004) Cesium toxicity in Arabidopsis. Plant Physiol 136;3:3824−3837.
- 13. Harrison AF, Clint GM, Jones HE et al. (1990) Distribution and recycling of radiocesium in heather-dominated eco-systems. Report of the Ministry of Agriculture, Fisheries and Food, London. Project N601.
- 14. Killham K (1995) Ecology of polluted soils. Soil ecology. Cambridge University Press, Cambridge
- 15. Moss R, Horril AD (1996) Metabolism of radiocesium in red grouse. J Environ Radioact 33;1:49−62.
- 16. Salt CS, Mayers RW, Colgrove PM, Lamb CS (1994) The effects of season and diet composition on the radiocesium intake by sheep grazing on heather moorland. J Applied Ecol 31:125−136.
- 17. Stęborowski R (2004) Potential applications of sewage sludges in soil reclamation and decontamination. In: Int Conf: Bioaccumulation of radionuclides and heavy metals– as a marker of environmental contamination, Kazimierz Dolny upon Vistula, September 26−28, 2004. Book of abstracts, p 42
- 18. Strandberg M (1994) Radiocesium in a Danish Scotch pine forest ecosystem. Sci Total Environ 157:125−132.
- 19. Strandberg M, Johansson M (1997) 134Cs in heather seed plants grown with and without mycorrhiza. J Environ Radioact 40;2:175−184.
- 20. Teertstra DK, Cerny P, Chapman R (1992) Composi-tional heterogeneity of pollucite from High Grade Dyke, Maskwa Lake, southeastern Manitoba. Can Mineral 30:687−697.
- 21. Urban PŁ, Bystrzejewska-Piotrowska G (2003) Compara-tive analysis of cesium and potassium uptake in onion Allium cepa L. Czech J Phys 53:A91−A96.
- 22. Waegeneers N, Camps M, Smolders E, Merckx R (2001) Genotypic effects in phytoavailability of radiocesium are pronounced at low K intensities in soil. Plant Soil 235:11−20.
- 23. White PJ, Broadley MR (2000) Mechanisms of caesium uptake by plants. New Phytol 147:241−256.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ6-0004-0065