Translocation of selected heavy metals in the vegetative mycelium of a mycorrhiza symbiont

• Autorzy: Krupa P.
• Języki publikacji: EN

Abstrakty

EN

Translocation of selected heavy metals in a mycelium growing in an agar medium supplemented with heavy metals was studied. The study showed that zinc, cadmium and lead were higly accumulated in the mycelium structures and that mycelium actively inhibited metal ion translocation.

Słowa kluczowe

EN

inoculation; ectomycorrhiza; mycorrhizal fungi; tolerance; mycorrhiza symbiont; mycelium; heavy metal

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 1996
• Tom: 05
• Numer: 2
• Opis fizyczny: p.27-30,fig.,ref.

Twórcy

autor

Krupa P.

• University of Silesia, Jagiellonska 28, 40-032 Katowice, Poland

Bibliografia

• ABUZINADAH R.A. The role of proteins in the nitrogen nutrition of ectomycorrhizal plants. New Phytol 112, 55-60, 1989.
• BRADLEY R. Mycorrhizal infection and resistance to heavy metal toxicity in Calluna vulgaris. Nature 292, 335-337, 1981.
• DOSSKEY M.G. Role for the photosynthate demand of ectomycorrhizas in the response of Douglas fir seedlings to drying soil. New Phytol 117, 327-334, 1990.
• DOSSKEY M.G. Comparison of biomass allocation in ecto mycorrhizal and nonmycorrhizal Douglas fir seedlings of similar nutrition and overall size. Plant and Soil 142, 147-150, 1992.
• FINLAY R.D. Functional aspects of phosphorus uptake and carbon translocation in incompatibile ectomycorrhizal associations between Pinus sylvestris and Suillus grevillei and Boletinus cavipes. New Phytol 112, 185-192, 1988.
• GADD G.M. Microorganisms and heavy metal toxicity. Microbiol. Ecology, 4, 303-317, 1978.
• GRELLIER B. Synthesis in vitro, microanalysis and 31P-NMR study of metachromatic granules in birch mycorrhizas. New Phytol 112, 49-54 1989.
• GRILL E. Phytochelatins a class heavy-metal-binding peptides from plants, are functionally analogus to metallothioneins. Proc. Natl. Acad. Sci. USA, 184, 439-443, 1987.
• HEIJNE B. Effect of the air pollution component ammonium sulphate on the VAM infection rate of three heathland Species. Plant and Soil 144, 1-12, 1992.
• CUMMING J.R. WEINSTEIN L. H. Aluminum-mycorrhizal interactions in the physiology of pitch pine seedlings. Plant and Soil 125, 7-18, 1990.
• JONES M.D. The effects of nickel and copper on the axenic growth of ectomycorrhizal fungi. Can. J. Bot. 66, 119-124, 1988.
• JONES M.D. Nickel toxicity in mycorrhizal birch seedlings infected with Lactarius rufus or Scleroderma flavidum. I Effects on growth, photosynthesis, respiration and transpiration. New Phytol 108, 451-459, 19883.
• NALEWAJKO C. Effects of acid pH shock on phosphate con- l centrations and microbial phosphate uptake in an acidifying and a circumneutral lake. Can. J. Fish. Aquat. Sci. Vol. 45, 254-260, 1988.
• NYLUND J ,E. Effects of ectomycorrhiza on host growth and carbon balance in a semihydroponic cultivation system. New Phytol 112, 389-398, 1989.
• PACHLEWSKI R. Próby izolacji grzybów mikoryzowych z mikoryz sosny (Pinus silvestris L.) Prace IBL. 347, Warszawa, 1968.
• PACHLEWSKI R. Effect of mycorrhizae of pine seedlings on the utilization of different mineral phosphorus sources. Acta Mycol. 22 (1), 79-88, 1986.
• RUDAWSKA M. Mikoryza w: Biologia sosny zwyczajnej. PWN Kórnik 1993.
• TURNAU K. Element localization in mycorrhizal roots of teridium aquilium (L.) Kuhn collected from experimental plots treated with cadmium dust. New Phytol. 123, 313-324, 1993
• TURNAU K. Mikoryza w siedliskach skażonych metalami toksycznymi. Wiad. Bot. 37 (1/2), 43-58, 1993.
• WIEMKEN V., INEICHEN K. Effect of neutral and pathogenic fungi on mycorrhizal and non-mycorrhizal Picea roots: transpiration and accumulation of the stress metabolite amino- cyCIOpane carboxylic acid J. Plant Physiol., 140, 605-610, 1992.