Toxicity and DNA damage in tobacco and potato plants growing on soil polluted with heavy metals
Gichner, Tomáš; Patková, Zdeňka; Száková, J.; Demnerová, K.
ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY 65 [3]: 420-426, 2006
Klíčová slova: Cd; Comet assay; Cu; Ethyl methanesulfonate; Single cell gel electrophoresis
Abstrakt: Heterezygous tobacco (Nicotiana tabacum var. xanthi) and potato (Solanum tuberosum var. Korela) plants were cultivated on soil from the site Střimice which is highly polluted with heavy metals and on nonpolluted soil from the recreational site Jezeří, both in North Bohemia, Czech Republic. The total content, the content of bioavailable, easily mobile, and potentially mobile components of heavy metals (Cd, Cu, Pb, and Zn) in the tested soils, and the accumulation of these metals in the above-ground biomass and roots of tested plants were analyzed by flame atomic absorption spectrometry or flameless atomic absorption spectrometry. The average tobacco leaf area and potato plant height were significantly reduced in plants growing on the polluted soil. We have measured the DNA damage in nuclei of leaves of both plant species using the Comet assay. A small but significant increase in DNA damage was noted in plants growing on the polluted soil versus controls. As the tobacco and potato plants with increased DNA damage were severely injured (inhibited growth, distorted leaves), this increase may be associated with necrotic or apoptotic DNA fragmentation. No increase in the frequency of somatic mutation was detected in tobacco plants growing on the polluted soil. Thus, the polluted soil probably induced toxic but not genotoxic effects on tobacco and potato plants.
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Autoři z ÚEB: Tomáš Gichner
ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY 65 [3]: 420-426, 2006
Klíčová slova: Cd; Comet assay; Cu; Ethyl methanesulfonate; Single cell gel electrophoresis
Abstrakt: Heterezygous tobacco (Nicotiana tabacum var. xanthi) and potato (Solanum tuberosum var. Korela) plants were cultivated on soil from the site Střimice which is highly polluted with heavy metals and on nonpolluted soil from the recreational site Jezeří, both in North Bohemia, Czech Republic. The total content, the content of bioavailable, easily mobile, and potentially mobile components of heavy metals (Cd, Cu, Pb, and Zn) in the tested soils, and the accumulation of these metals in the above-ground biomass and roots of tested plants were analyzed by flame atomic absorption spectrometry or flameless atomic absorption spectrometry. The average tobacco leaf area and potato plant height were significantly reduced in plants growing on the polluted soil. We have measured the DNA damage in nuclei of leaves of both plant species using the Comet assay. A small but significant increase in DNA damage was noted in plants growing on the polluted soil versus controls. As the tobacco and potato plants with increased DNA damage were severely injured (inhibited growth, distorted leaves), this increase may be associated with necrotic or apoptotic DNA fragmentation. No increase in the frequency of somatic mutation was detected in tobacco plants growing on the polluted soil. Thus, the polluted soil probably induced toxic but not genotoxic effects on tobacco and potato plants.
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