Agriculturae Conspectus Scientificus, Vol 76, No 1 (2011)

Increased Soil Heavy Metal Concentrations Aff ect the Structure of Soil Fungus Community

Vaidilutė DIRGINČIUTĖ-VOLODKIENĖ, Dalė PEČIULYTĖ

Pages: 27-33

Summary


Effects of heavy metals on soil fungi populations and soil fertility incidental to it were studied under laboratory conditions. Metal-amended antroposol type soil samples were incubated for a month at 17°C under natural light regime. Copper, zinc and lead were chosen as the most common industrial pollutants. Each metal was applied either of sulfate, chloride or acetate salt (at concentration varying from 0.4 to 16.14 g kg-1 soil); control – soil without metal amendment. Fungal populations (dilution plate method) were investigated and soil phytotoxicity test was performed.
Elevated Cu, Zn and Pb concentrations in the soil influenced fungus community structure. Some species (Absidia glauca, Acremonium kiliense, Aspergillus fumigatus, and Alternaria alternata) detected in the control soil community were eliminated, while the abundance of the other species increased. Paecillomyces genus dominated in the soil amended with either of Cu or Zn. P. farinosus, P. fumosoroseum and fungal species from the Clonostachys, Penicillium and Lecanicillium genera were Znresistant. P. lilacinus and plant pathogenic fungi, A. alternata, Fusarium oxysporum, F. solani and Phoma lingam were very abundant in soil amended with Cu salts, followed by some saprotrophic fungi such as Cunninghamella echinulata and Mucor hiemalis f. hiemalis. An overall change in the plant (cress, Lepidum sativum; wheat, Ticicum aestivum; lupine, Lupinus polyphyllus, and sunflower, Heliannthus annus) seed viability was observed in comparison with control. Most deleterious effects on the seed germination were observed in case of zinc, medium – in case of copper, and the least – in case of lead. Zinc salts at used concentrations were unfavorable to both fungus populations and consequently to the seed viability.

Keywords


heavy metals; zinc; copper; lead; soil; fungi; community; phytotoxicity

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