Fulvic acid potassium function

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/2016-11-23
/By Huifeng Runda

Fulvic acid potassium function

Fulvic acid potassium function
First, the scientific combination of new nutrition chain, a comprehensive balance of plant needs. Biochemical fulvic acid potassium is not a pure molecular compound, but a heterogeneous complex macromolecular structure and the composition is extremely complex mixture. Therefore, the product in addition to high levels of fulvic acid, but also rich in plant growth process required for almost all of the amino acids, nitrogen, phosphorus, potassium, a variety of enzymes, sugars (oligosaccharides, fructose, etc.) protein , Nucleic acid, humic acid and VC, VE and a large number of B vitamins and other nutrients, is a green biological fertilizer.
Second, with high biological activity of the unknown growth factor. It has been proved that the biochemical fulvic acid potassium core has not yet been proved to have high biological activity of unknown growth factor. Strictly speaking, biochemical fulvic acid potassium does not contain hormones, but the process has been shown with the chemical synthesis of auxins, cell sorting, abscisic acid and other plant hormones similar to the role and the growth and development of plants Play a comprehensive regulatory role. Therefore, the use of this product to replace or partially replace gibberellin, complex sodium nitrate, multi-effect 矬 and other synthetic hormones.
Third, the complexation ability, improve the absorption of plant trace elements and operation. Trace elements on crop growth and in vivo solubility of a variety of enzymes, as well as resistance to disease resistance, improve yield and quality have an important impact. But trace elements in the plant in vivo mobility is very poor, very low ability to reuse the soil can easily be cured and loss of activity. . Especially easily with the soil phosphorus in the chemical interaction resulting in loss of activity, resulting in a lose-lose. Biochemical fulvic acid potassium as a result of total amino acids and carboxyl, hydroxyl and other active groups with high content, but also has oxygen-containing functional groups, the structure of many organic chelating bit and complexation bit. These complexing groups can be complexed or chelated with a number of trace elements such as calcium, magnesium, sulfur, iron, manganese, molybdenum, copper, zinc and boron, and can also be used at the same position Phosphorus to form complex with biochemical fulvic acid molecules as the intermediary, while coordinating and promoting plant roots or leaves of trace elements and phosphorus in vivo absorption, Resulting in passive inactivation of each other, but also played a positive role in balancing, thereby enhancing the utilization of the two.