Abstract
The iodine (I) and selenium (Se) deficiencies affect approximately 30% and 15%, respectively, of the global population. The biofortification of vegetables is a valid way to increase the intake of iodine and selenium through the diet. This study was carried out on baby-leaf lettuce to investigate the effects on plant growth, leaf quality, and leaf I and Se accumulation of adding potassium iodide and sodium selenate, separately and simultaneously, to the nutrient solution in a floating system and aeroponics. The effect of I and Se biofortification on post-harvest quality of lettuce leaves was also evaluated. Our results evidenced that the Se and I treatments increased the content of the two microelements in lettuce leaves without any negative interactions in the plants, when applied either separately or simultaneously. Both hydroponic systems proved to be suitable for producing Se and/or I enriched lettuce. Biofortification with Se was more effective when performed in aeroponics, whereas I biofortification was more effective in the floating system. Quality of leaves during post-harvest storage was not affected by neither of the treatments. Lettuce leaves enriched with 13 µM Se and 5 µMI could be good dietary sources of Se and I without inducing toxic effects in humans.
Highlights
IntroductionIodine is an essential element for human health as it is involved in the synthesis of the thyroid hormone [2]
Iodine (I) and selenium (Se) deficiency affects approximately 30% and 15%, respectively, of the global population [1].Iodine is an essential element for human health as it is involved in the synthesis of the thyroid hormone [2]
The results reported are the average values
Summary
Iodine is an essential element for human health as it is involved in the synthesis of the thyroid hormone [2]. The adequate intake (AI) is 150 μg I day−1 [3], and I deficiency is one of the most widespread micronutrient deprivations, causing an insufficient secretion of thyroid hormones that leads to a series of iodine deficiency disorders (IDDs) [4]. As a component of seleno-amino acids and selenoproteins, and as a cofactor of glutathione peroxidase (GSHPx; EC 1.11.1.9) [5], Se is involved in various metabolic processes such as thyroid hormone metabolism, antioxidant defense, and immune function [5]. Selenium is an antioxidant and may have a positive effect on plant metabolism [6] and delay plant senescence by reducing ethylene production [7]. The AI of selenium proposed by EFSA [11] for adult men and women is 70 μg day−1
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