Effects of a foliar spray of selenite or selenate at different growth stages on selenium distribution and quality of blueberries.

Title Effects of a foliar spray of selenite or selenate at different growth stages on selenium distribution and quality of blueberries.
Authors M. Li; Z. Zhao; J. Zhou; D. Zhou; B. Chen; L. Huang; Z. Zhang; X. Liu
Journal J Sci Food Agric
DOI 10.1002/jsfa.9004
Abstract

BACKGROUND: Foliar spraying of selenium (Se) has increasingly been applied to improve Se concentrations in grain crops, although little information is available about the properties of Se-enriched fruits. In the present study, selenium distribution in blueberry and Se effect on blueberry quality were investigated by foliar spraying selenite or selenate (200?g?ha ) on two blueberry cultivars (Bluecrop and Northland) during the young fruit or coloring stage.

RESULTS: Selenium concentration in blueberry was mainly affected by cultivar and spray stage relative to the Se source. Northland was 1.3- to 1.5-fold higher than Bluecrop with respect to Se enrichment. Se treatment at the young fruit stage induced a 1.5- to 2.3-fold increase compared to that at the coloring stage with respect to the Se concentration of blueberry. Additionally, selenium was mainly stored in pomace, with an accumulative distribution ratio of 89.3-94.9%. The proportion of organic Se reached up to 77.0% in blueberry. Furthermore, the foliar application of Se significantly increased the anthocyanin concentration and the intact fruit rate of blueberry.

CONCLUSION: Se-enriched blueberry can be used as a 'functional food'. Because Se was mainly accumulated in the pomace, the consumption of blueberries as fresh fruit, dried fruit and jam can improve the efficiency of Se supplement. © 2018 Society of Chemical Industry.

Citation M. Li; Z. Zhao; J. Zhou; D. Zhou; B. Chen; L. Huang; Z. Zhang; X. Liu.Effects of a foliar spray of selenite or selenate at different growth stages on selenium distribution and quality of blueberries.. J Sci Food Agric. 2018;98(12):47004706. doi:10.1002/jsfa.9004

Related Elements

Selenium

Selenium Bohr ModelSee more Selenium products. Selenium (atomic symbol: Se, atomic number: 34) is a Block P, Group 16, Period 4 element with an atomic radius of 78.96. The number of electrons in each of Selenium's shells is 2, 8, 18, 6 and its electron configuration is [Ar] 3d10 4s2 4p4. The selenium atom has a radius of 120 pm and a Van der Waals radius of 190 pm. Selenium is a non-metal with several allotropes: a black, vitreous form with an irregular crystal structure three red-colored forms with monoclinic crystal structures and a gray form with a hexagonal crystal structure, the most stable and dense form of the element. Elemental SeleniumOne of the most common uses for selenium is in glass production the red tint that it lends to glass neutralizes green or yellow tints from impurities in the glass materials. Selenium was discovered and first isolated by Jöns Jakob Berzelius and Johann Gottlieb Gahn in 1817. The origin of the name Selenium comes from the Greek word "Selênê," meaning moon.

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