Journal of Stress Physiology & Biochemistry, Vol. 13 No. 4 2017, pp. 88-94   ISSN 1997-0838
Original Text Copyright (cc) 2017 by  Kaznina and Titov



ORIGINAL ARTICLE
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Effect of Zinc Deficiency and Excess on the Growth and Photosynthesis of Winter Wheat

N.M. Kaznina*, A.F. Titov  

  Institute of Biology, Karelian Research Centre, Russian Academy of Science, Petrozavodsk, Russia

*E-Mail: kaznina@krc.karelia.ru

Received October 5, 2017

Zinc is one of the necessary micronutrients for plants, which performs a number of various functions in their cells. Therefore, the deficiency of this element negatively affects on plants and leads to a significant decrease of their productivity. On the other hand, zinc in high concentrations is toxic to plants, and its accumulation in aerial organs, especially in cereals, represent a real danger to human and animal health. In this investigation the effect of the deficiency (Zn 0 μM) and the excess of zinc (Zn 1000 μM) on the growth and photosynthesis of the winter wheat (cv. Mironovskaya 39) was studied. As a result, similarities and differences in the response of plants to these two types of stress were revealed. In particular, both with a lack and with an excess of metal in the nutrient solution, shoot growth and photosynthesis rate are inhibited  which leads to a decrease in the accumulation of dry biomass. Excess of metal, in contrast to its deficiency, leads to inhibition of root growth, and also a negative impact on pigment content, including light-harvesting complexes, and on maximum quantum yield of PS II. It is assumed that these changes in the photosynthetic apparatus are the main causes of a decrease of photosynthesis rate in plants under these conditions, whereas in the case of zinc deficiency, an inhibition of the process intensity is most likely due to a change in the activity of zinc-containing enzymes involved in the dark reactions of photosynthesis.

Key words:    Triticum aestivum L., zinc stress, growth, photosynthesis


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