Effect of molybdenum treatment on molybdenum concentration and nitrate reduction in maize seedlings

Since 1940 molybdenum has been known as an essential trace element in plant nutrition and physiology. It has a central role in nitrogen metabolism, and its deficiency leads to nitrate accumulation in plants. In this study, we cultivated maize seedlings (Zea mays L. cv. Norma SC) in nutrient solution...

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Published in:Plant physiology and biochemistry 2015-11, Vol.96, p.38-44
Main Authors: Kovács, Béla, Puskás-Preszner, Anita, Huzsvai, László, Lévai, László, Bódi, Éva
Format: Article
Language:English
Subjects:
Molybdenum
Molybdenum - administration & dosage
Molybdenum - metabolism
Nitrate accumulation
Nitrate reduction
Nitrates - metabolism
Nitrogen metabolism
Zea mays - growth & development
Zea mays - metabolism
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Summary:Since 1940 molybdenum has been known as an essential trace element in plant nutrition and physiology. It has a central role in nitrogen metabolism, and its deficiency leads to nitrate accumulation in plants. In this study, we cultivated maize seedlings (Zea mays L. cv. Norma SC) in nutrient solution and soil (rhizoboxes) to investigate the effect of molybdenum treatment on the absorption of molybdenum, sulfur and iron. These elements have been previously shown to play important roles in nitrate reduction, because they are necessary for the function of the nitrate reductase enzyme. We also investigated the relationship between molybdenum treatments and different nitrogen forms in maize. Molybdenum treatments were 0, 0.96, 9.6 and 96 μg kg−1 in the nutrition solution experiments, and 0, 30, 90, 270 mg kg−1 in the rhizobox experiments. On the basis of our results, the increased Mo level produced higher plant available Mo concentration in nutrient solution and in soil, which resulted increased concentration of Mo in shoots and roots of maize seedlings. In addition it was observed that maize seedlings accumulated more molybdenum in their roots than in their shoots at all treatments. In contrast, molybdenum treatments did not affect significantly either iron or sulfur concentrations in the plant, even if these elements (Mo, S and Fe) play alike important roles in nitrogen metabolism. Furthermore, the physiological molybdenum level (1× Mo = 0.01 μM) reduced NO3–N and enhanced the NH4–N concentrations in seedlings, suggesting that nitrate reduction was more intense under a well-balanced molybdenum supply. •Application of molybdenum (Mo) improved the absorption of Mo in shoots and roots.•Maize seedlings accumulated more molybdenum in their roots than in their shoots.•The absence of Mo supply resulted the accumulation of nitrate in maize seedlings.•Physiological Mo level (0.01 μM) reduced the NO3–N and enhanced the NH4–N contents.
ISSN:0981-9428
1873-2690
DOI:10.1016/j.plaphy.2015.07.013