Abstract
A human’s diet should be diverse and rich in vitamins, macro- and microelements essential for the proper functioning of the human body. Globally, a high percentage of the human population suffers from malnutrition, deficiencies of nutrients and vitamins also known as the problem of hidden hunger. This problem it is not only common in poor countries, but also occurs in developed countries. Iodine is a nutrient crucial for the proper functioning of the human and animal body. For plants, it is referred to as a beneficial element or even a microelement. The design of the biofortification experiment was determined on the basis of the interaction of iodine and vanadium (synergistic interaction in marine algae), where vanadium-dependent iodoperoxidase catalyzes apoplastic oxidation of iodine, resulting in high efficiency of iodine uptake and accumulation in brown algae (Laminaria digitate). Three independent experiments (Exp.) were carried out with the foliar application of vanadium (V) and iodine (I) compounds. The main differences between the experiments with the adapted proper corn biofortification method were the different application stage between the individual experiments, the application intervals and the dose of the iodine–vanadium compound. In each experiment, the accumulation of iodine and vanadium in the grain was several times lower than in the leaves. The combination iodine and vanadium significantly increased the accumulation of iodine in the grain in the case of applying V with inorganic iodine compounds, and a decrease in the accumulation of I after applying V with organic iodine compound —especially in Exp. No. 3. In grain, the highest content of I−, IO3− was in combination with the application of 2-iodobenzoic acid (products of its metabolism). In most of the tested combinations, vanadium stimulated the accumulation/synthesis of exogenous/endogenous 5-iodosalicylic acid (5ISA) and 2-iodobenzoic acid (2IBeA), respectively, and decreased the content of 2,3,5-triiodobenzoic acid (2,3,5-triIBeA) in leaves and grains. The tested compounds I and V and the combinations of their application had a diversified effect on the vitamin C content in the grains. Vanadium in the lower dose of 0.1 µM significantly increased the sugar content in the grain.
Highlights
Iodine is an essential element necessary for the proper development and functioning of the human and animal organism
There was a tendency to increase the yield of maize cobs after the application of KIO3 with vanadium
The highest accumulation of iodine in the grain after foliar application of 2-iodobenzoic acid (2IBeA) and the clearly visible positive effect of vanadium on the accumulation of iodine in the leaves with inorganic compounds KI and KIO3 were observed in experiment
Summary
Iodine is an essential element necessary for the proper development and functioning of the human and animal organism. Iodine is a substrate necessary for the synthesis of thyroid hormones, thyroxine-T4 and triiodothyronine-T3 [1–3]. Iodine deficiency during pregnancy is associated with health consequences for the baby, such as impaired fetal brain development, leading to wider and irreversible changes such as cretinism disease. Insufficient daily dose of iodine in pregnant women can lead to infertility or miscarriage [4,5]. Another health consequence of iodine deficiency is the so-called hypertrophy of the thyroid gland, endemic goiter and increased probability of developing thyroid and stomach cancer [6,7]. The daily dose of iodine is 200–250 μg for pregnant women, 150 μg for adults, 90–120 μg for children from 5–12 years of age, under
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