E. Przedpełska scite author profile

The toxicity of heavy metals (Cd, Zn, and Pb) was assessed by in vivo observations of their effect on cytoplasmic streaming in Allium cepa L. bulb scale epidermal cells. On the basis of our results, the order of toxicity of the studied cations is Zn < Pb << Cd. The difference in toxicity between cadmium and lead was found to be very large. When cytoplasmic streaming was assessed, this difference was threefold. When the total content of cadmium and lead (determined by inductively coupled plasma mass spectrometry) was the criterion, the difference in toxicity was 15-fold. Fractionation of the tissue and enzymatic digestion of the cells revealed that the largest proportion of cadmium was located in the cell walls (56%), whereas almost all of the lead (97.6%) was accumulated in an insoluble form. The speciation of water-soluble Pb and Cd fractions is discussed on the basis of analysis by capillary zone electrophoresis interfaced with inductively coupled plasma mass spectrometry of water extracts from epidermal cells. Lead and cadmium appeared to be bound mainly to salts, which explains their toxicity. Cadmium was complexed (detoxified) by organic acids, while thiols were the metal-complexing species for lead. Histidine formed complexes with both cadmium and lead. Ultrastructural analyses showed that lead was encapsulated in small vesicles in the cytoplasm. Fluorescence studies of the endoplasmic reticulum (ER) revealed that it underwent extensive fragmentation under the influence of lead, with numerous ER vesicles appearing in the cells. In other words, the lead deposits in the cytoplasm were contained in vesicles arising from fragmentation of the ER. These observations indicate that epidermal cells have a rapid and effective mechanism for detoxifying lead involving the ER, and this may be one of the mechanisms accounting for the lower toxicity of lead in comparison with cadmium. The suitability of Allium cepa bulb scale epidermal cells for use in ecotoxicological studies is also discussed. Step-by-step directions for this test are given.

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Arabidopsis arenosa (Brassicaceae) from a lead–zinc waste heap in southern Poland – a plant with high tolerance to heavy metals

Przedpełska

Wierzbicka

2007

Plant Soil

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The morphological traits and tolerance to heavy metals (zinc, cadmium and lead) of two populations of Arabidopsis arenosa (Brassicaceae) were compared. One population was from a zinc-lead waste heap in Bolesław near Olkusz (southern Poland), the other one from the Kampinoski National Park (central Poland). Biometric measurements were done in the field and repeated after cultivation under controlled conditions (garden soil, phytotron chamber). Significant heritable morphological differences between the two populations were found. The plants from the waste-heap are smaller in comparison with the reference population, and their leaves are narrower, thicker with fewer trichomes, indicating. genetic adaptation to xerothermic conditions. The level of tolerance to heavy metals (zinc, cadmium, and lead) was compared by the root test. Very high tolerance to the three metals tested was found in the waste-heap population. Its tolerance exceeded that of four other predominant plant species populations growing on the same waste heap that had previously been tested in our laboratory. We consider the wasteheap population of A. arenosa to be a very suitable ecotype for the study of heavy metal tolerance mechanisms in plants.

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E. Przedpełska

Comparison of the toxicity and distribution of cadmium and lead in plant cells

Arabidopsis arenosa (Brassicaceae) from a lead–zinc waste heap in southern Poland – a plant with high tolerance to heavy metals

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