Functional diversity of microorganisms in metal- and alkali-contaminated soils of Central and North-eastern Slovakia

Fazekaš, Juraj; Fazekašová, Danica; Adamišin, Peter; Huličová, Petra; Benková, Eva

Functional diversity of microorganisms in metal- and alkali-contaminated soils of Central and North-eastern Slovakia

Juraj Fazekaš, Danica Fazekašová, Peter Adamišin, Petra Huličová and Eva Benková
Additional contact information
Juraj Fazekaš: Department of Environmental Management and
Danica Fazekašová: Department of Environmental Management and
Peter Adamišin: Department of Environmental Management and
Petra Huličová: Department of Environmental Management and
Eva Benková: Department of Intercultural Communication, Faculty of Management, University of Prešov, Prešov, Slovak Republic

Soil and Water Research, 2019, vol. 14, issue 1, 32-39

Abstract: A field-based study and laboratory tests were undertaken to determine the functional diversity of microorganisms in metal- and alkali-contaminated soils in Central and North-eastern Slovakia where iron ore and magnesite have been mined and processed for a long time. To improve the understanding of the functional diversity of microorganisms, we examined the effects of environmental factors on the functional diversity of microorganisms in metal- and alkali-contaminated soils in the emission field of heaps and tailings impoundments of iron ore mines (Central Spiš) and magnesite factories (Jelšava and Lubeník). Biolog® Eco Plates were used to determine and assess metabolic profiles of microbial communities. The examined area of Central Spiš showed extremely high values of Hg and Cu and the values of Zn, Cd, Pb and Cr exceeding the permissible limit were determined. Soil reaction was extremely acidic to strongly acidic. The Jelšava and Lubeník area was characterized by alkaline contamination and the soil reaction was slightly acidic to strongly alkaline. The values of Cr, Mn, and Mg exceeding the permissible limit were measured there. The results indicate harmful and even toxic contamination. Our results showed that the diversity of microorganisms was different in the investigated areas and it was significantly influenced by environmental factors such as soil reaction, bulk density, porosity, and heavy metals Hg, Pb, Cr, Zn, Cu, Mn and Mg. Based on the results of the Shannon index, we can conclude that the diversity was low to moderate (2.5-3.3) and medium (3.3-4.0). Correlations between functional diversity of microorganisms and soil reaction, Hg, Cr, and Cu were determined. Our findings are decisive for understanding the microbial diversity in metal- and alkali-contaminated soils and they can be used to assess the quality and health of soil, as well as for scientific applications of remediation techniques.

Keywords: AWCD; bulk density; heavy metal; porosity; Shannon diversity index; soil reaction (search for similar items in EconPapers)
Date: 2019
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Persistent link: https://EconPapers.repec.org/RePEc:caa:jnlswr:v:14:y:2019:i:1:id:37-2018-swr

DOI: 10.17221/37/2018-SWR

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