Ana R. F. Coelho
In human body almost 53% of magnesium (Mg) is involved in the development and maintenance of bone and other calcified tissues, 27 % in muscle, 19 % in the soft tissues and the remain 1% in the serum. Mg is a nutrient involved in protein synthesis, muscle and nerve functions, blood glucose control and blood pressure regulation. In addition, Mg deficiency is uncommon in humans because of the kidney limit urinary excretion of this nutrient. However, there are some group of people at risk of Mg inadequacy, people with gastrointestinal diseases, type 2 diabetes, chronic alcoholism. Mg biofortification is a strategy that promotes nutrient enhancement in food crops and can increase nutrient uptake and accumulation in the human body. This study aims to develop a technical itinerary for Mg biofortification of two tomato varieties (H1534 and H9205) during the 2018 production cycle. As such, the study was carried out in a test area with 15 x 66 m, in Beja region, Portugal. In this framework, leaf fertilization of plants was promoted after planting and throughout the respective production cycle. Six leaf applications were carried out with four different treatments of magnesium sulfate. At harvest were studied the interactions between Mg accumulation and with others chemical elements present in the tomato tissues. The average of Mg biofortification index in variety H1534 was 16.2% and the opposite was verified in variety H1534, by atomic absorption. However, it was found, performing the mapping at tissue level using a μ-EDXRF M4 Tornado ™ system, that the content of Mg increased 90% and 78.8%, respectively, in H1534 and in H9205. Using scanning electron microscopy, with X-ray energy dispersive spectroscopy (SEM-EDS), it was possible to identify in which area of the tomato tissue the Mg predominates.