Evaluation of cytological effects of Zn 2+ in relation to germination and root growth of Nigella sativa L. and Triticum aestivum L.

Abstract

The effects of different treatments with zinc sulfate (Zn 2+) on the cytology and growth of Nigella sativa and Triticum aestivum were investigated. Five concentrations of zinc sulfate ranging from 5 to 25 mg/l were applied for 6, 12, 18, and 24 h. The treatments reduced the germination percentages of N. sativa seeds and T. aestivum grains and inhibited the root growth of both plants. Concentrations higher than 25 mg/l of Zn 2+ applied for 24 h were toxic for both plants. The non-lethal concentrations of Zn 2+ showed an inhibitory effect on cell division in root tips of both plants and caused a decrease in their mitotic index values. The reduction in MI in root tips of T. aestivum was more evident than that of N. sativa. All treatments changed the frequency of mitotic phases as compared with the control values. The total percentage of abnormalities in N. saliva was more than that in T. aestivum. Zn 2+ treatments produced a number of mitotic abnormalities in dividing cells in root tips of both plants resulting from its action on the spindle apparatus such as C-metaphases, lagging chromosomes and multipolar anaphases and telophases. Also, Zn 2+ induced vacuolated nuclei and irregular prophases. The induction of chromosomal stickiness and chromosomal aberrations such as bridges and breaks indicates its action on the chromosome. These abnormalities (chromosome breaks and chromosomal bridges at ana–telophases) indicate true clastogenic potential of the ions tested.