Magnesium for the plant: a guarantee of photosynthesis
Magnesium (Mg)
Since chlorophyll absorbs solar energy and uses it to convert carbon dioxide and water into complex organic substances: sugars, starch, etc., the very existence of green plants is impossible without magnesium.
Magnesium is an essential component of ribosomes: with its participation (together with ATP), the binding of amino acids to tRNA occurs during protein biosynthesis. Magnesium ions Mg2+ “cross-link” protein molecules into globules, providing structural support to protein molecules.
Magnesium catalyzes the synthesis of ATP from nucleoside diphosphates, activates enzyme systems that convert malic acid to citric acid, oxalic acid to formic acid, and carbon dioxide.
Together with calcium, magnesium forms the basis of pectin in the intercellular space, as they form compounds with pectic acids.
Magnesium is also part of the main storage organic compound containing phosphorus – phytic acid.
The magnesium content in plants averages 0.07% (by weight).
• black elderberry Sambucus nigra L., Caprifoliaceae (roots);
• common oat Avena sativa L., Poaceae (straw);
• all species of rosehip Rosa L., Rosaceae (fruits);
• three-colored violet Viola tricolor L., Violaceae (herb);
• white bedstraw Galium album Mill., Rubiaceae (herb);
• three-leaved buckbean Menyanthes trifoliata L., Menyanthaceae (herb);
• common tansy Tanacetum vulgare L., Asteraceae (inflorescences);
• Brazil nut (= Brazil nut) Bertholletia excelsa Humb. & Bonpl., Lecythidaceae (fruits, content – up to 376 mg%).