J. For. Sci., 2008, 54(2):64-72 | DOI: 10.17221/796-JFS

A survey of forest pollution with heavy metals in the Natural Forest Region (NFR) Moravskoslezské Beskydy with particular attention to Jablunkov Pass

P. Fiala, D. Reininger, T. Samek
Central Institute for Supervising and Testing in Agriculture, Brno, Czech Republic

A survey of forest nutrition was carried out in Natural Forest Region (NFR) No. 40 Moravskoslezské Beskydy. The reason for this survey was the gradually worsening state of forest stands in this region and especially in a part of it - in the Jablunkov Pass. Air pollution was the suspected cause of the unfavourable development. According to methodology established for the survey of forest nutrition, the samples of soil and assimilatory organs were collected at 375 sampling sites. The spatial distinctness of Jablunkov Pass was expressed on the basis of selected soil characteristics (quantity of organic material, exchangeable pH, content of total nitrogen, zinc, lead, chromium, cadmium) and of the contents of chemical elements (total nitrogen, magnesium, zinc, lead, chromium, cadmium) in two-years-old Norway spruce needles. These analyses were done by the software Statistica. The medians of concentrations of elements in two-years-old Norway spruce needles in the area of NFR except Jablunkov Pass are: Zn - 34, Pb - 0.71, Cd - 0.15 and Cr - 0.38 (mg/kg). In the area of Jablunkov Pass: Zn - 43, Pb - 12.1, Cd - 0.25 and Cr - 0.41 (mg/kg). Particular attention was paid to the content of heavy metals both in the whole area of NFR and in the area of Jablunkov Pass particularly. The spatial homogeneity is disturbed by the influence of air pollution there. Markedly higher contents of zinc, lead and cadmium are found in the whole soil profile, in the case of chromium in the forest floor only. The distribution of heavy metal contents in the soil profile is influenced by the quantity and quality of organic matter and by the altitude of sampling sites. The higher values of medians of zinc, lead and cadmium contents are found in the area of the Pass. Chromium is an exception with the highest contents found in the southern part of NFR. The medians of concentrations of elements in the forest floor of Norway spruce stands in the area of NFR except Jablunkov Pass are: Zn - 70.6, Pb - 88.6, Cd - 6.4 and Cr - 0.69 (mg/kg). In the area of Jablunkov Pass: Zn - 103, Pb - 138, Cd - 8.8 and Cr - 1.02 (mg/kg). The spatial distinctness of the area around the Jablunkov Pass is confirmed by the evaluation of the data of forest nutrition survey. Particularly, it consists in the high contents of phytotoxic heavy metals. The exceptionally high pollution of this area can be a cause of the physiological weakness of trees with following attack of the honey fungus.

Keywords: Jablunkov Pass; heavy metals; forest nutrition survey; soil pollution

Published: February 29, 2008  Show citation

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Fiala P, Reininger D, Samek T. A survey of forest pollution with heavy metals in the Natural Forest Region (NFR) Moravskoslezské Beskydy with particular attention to Jablunkov Pass. J. For. Sci. 2008;54(2):64-72. doi: 10.17221/796-JFS.
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    References

    1. BRÜMMER G.W., GERTH J., HERMS U., 1986. Heavy metals species, mobility and availability in soils. Zeitschrift für Pflanzenernährung und Bodenkunde, 149: 328-389. Go to original source...
    2. CULEK M., 1996. Biogeografické členění České republiky. Praha, Enigma: 347.
    3. ČHMÚ, 2004. Informace o klimatu. Územní teploty a srážky. Čistota ovzduší. http://www.chmi.czmeteo/ok/infklim.html.
    4. DEUTSCHER WALDBODENBERICHT 1996, 1997. Bundesministerium für Landwirtschaft, Ernährung und Forsten, Bd. 1, 2. Berlin.
    5. HURRLE H., 1981. Schwermetalle in die Nadelbäumen auf alten bergbauhalden im Südschwarzwald. Allgemeine Forstund Jagdzeitung, 152: 234-239.
    6. LAIR G.J., GERZABEG M.H., HABENHAUER G., JAKUSCH M., KIRCHMANN H., 2006. Response of the sorption behaviour of Cu, Cd, and Zn to different soil management. Journal of Plant Nutrition and Soil Science, 169: 60-68. Go to original source...
    7. LOBE I., WILCKE W., KOBZA J., ZECH W., 1998. Heavy metal contamination of soils in Northern Slovakia. Zeitschrift für Pflanzenernährung und Bodenkunde, 161: 541-546. Go to original source...
    8. MÁLEK J., 1967. O ekologii václavky a červené hniloby a jejich rozšíření v lesních biocenózách. Lesnický časopis, 13: 545-562.
    9. MAŇKOVSKÁ B., 1997. Ťažké kovy v lesnom prostredí. Zprávy lesnického výzkumu, 42: 24-27.
    10. MAŇKOVSKÁ B., 2001. Concentrations of nutrient elements and microelements in the needles of Abies alba MILL. As an environmental indicator in the Carpathian Mts. Journal of Forest Science, 47: 229-240.
    11. MARKERT B., HEEPIN U., BERLEKAMP J., OEHLMANN J., GRODZINSKA K., MAŇKOVSKÁ B., SUCHARA I., SIEWERS U., WECKERT V., LIRTH H., 1996. A comparison of heavy metal deposition in selected Eastern European countries using the moss monitoring method, with especial emphasis on the "Black Triangle". Science of the Total Environment, 193: 85-100. Go to original source...
    12. MATERNA J., 2002. Souhrnné výsledky průzkumu stavu povrchových vrstev lesních půd v období 1993-1999. Brno, ÚKZÚZ: 98.
    13. NĚMEČEK J., MACKŮ J., VOKOUN J., VAVŘÍČEK D., NOVÁK P., 2001. Taxonomický klasifikační systém půd České republiky. Praha, ČZU: 78.
    14. SIEGEL F.R., 2002. Environmental Geochemistry of Potential Toxic Metals. Berlin, Springer Verlag. Go to original source...
    15. SINGH P., BURKE D., 1974. Influence of Armillaria root rot on the foliar nutrients and growth of some coniferous species. European Journal of Plant Pathology, 4: 20-26. Go to original source...
    16. TAMMINEN P., STARR M., KUBIN E., 2004. Element concentrations in boreal, coniferous humus layers in relation to moss chemistry and soil factors. Plant nad Soil, 259: 51-58. Go to original source...
    17. TYLER G., 1992. Critical concentrations of heavy metals in the mor horizon of Swedish forests. Report 4078. Swedish Environmental Protection Agency, Solna.
    18. UHLÍŘOVÁ H., HEJDOVÁ J., 1999. Těžké kovy v lesních ekosystémech České republiky. Zprávy lesnického výzkumu, 44: 1-10.
    19. ÚHÚL 2001. Oblastní plán rozvoje lesa. PLO č. 40, Moravskoslezské Beskydy s platností 2001-2020. Brandýs nad Labem, ÚHÚL.
    20. ZBÍRAL J., 1994. Analýza rostlinného materiálu. Jednotné pracovní postupy. Brno, ÚKZÚZ: 80.
    21. ZBÍRAL J., HONSA I., MALÝ S., 1997. Analýza půd III. Jednotné pracovní postupy. Brno, ÚKZÚZ: 150.
    22. ZEMÁNEK H., NĚMEC P., TRÁVNÍK K., 1992. Výsledky pedochemických a rostlinných analýz dílčího souboru monitoračních ploch. Brno, ÚKZÚZ: 7.

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