Disadvantages of existing analogues

Invaluable natural poly-carboxylic acids in NANOAGRICOLE act as native chelating agents (which have an affinity with living cell) covering the micronutrients with fixed natural organic layer, masking their penetration through the stomata, significantly increasing the rate of absorption and facilitating the movement in plant tissues.

Derivatives of succinic acid, hydroxy-succinic acid, aminosuccinic acid, ethylene diamine disuccinic acid (oxalic acid, tartaric acid, racemic tartaric acid, aspartic acid), ethanedioic acid, citric acid, isocitric acid and ketoglutaric acid, which are the components of NANOAGRICOLE, as well as patented factors “Heliovector” and “Foliovector” participate in very important oxidative cycles of substance transformation in organism (Krebs, Roberts, Barro cycles, gluconeogenesis and neo glycolysis), act as activators of energetic processes, contributing to production of the main energetic substance ATP (adenosine triphosphate) in cells, significantly increase the resistance and adaptability of plants to adverse environmental conditions.

The electron transfer and energetic transformation stop without going into the next phase in case of absence of any of these acids in mitochondria of cells, and the organism dies. It is not for nothing, the healthy cells try to accumulate these substances in a stressful situation and concentration of succinic acid derivatives in them increases sharply.

Remember amber – hardened to stone tears of trees formed in the period of mass destruction of plants.Exactly this crushed stone saved the lives of Crusaders who worked the way through the harsh desert to the Holy Sepulchre. The preparation has prominent antibacterial capacities, fungicidal and antiviral properties due to the content of copper, zinc, molybdenum and boron.Heteroauxin in form of β-indoleacetic acid and β-indolebutyric acid, which is the part of compositions for seed treatment, promotes the acceleration of  root formation.

Micronutrients of majority of such fertilizers are represented either by common salt-like forms and have an effect only in higher concentration which is hazardous for soil, or chelated only by ethylene diamine tetracidic acid, but this complexing agent does not react with amphoteric elements. Therefore, boron and molybdenum are present in them in salt-like but not chelated form and practically not absorbed by plants in the proposed concentration. Micronutrients chelated by this complexing are stable only in a narrow pH range and inactive in neutral and basic soil.

The majority of such micronutrients do not contain chelates of cobalt which are expensive but extremely important for the metabolism. They are not balanced according to the content of mesophilic elements: magnesium, calcium and sulfur. Magnesium and calcium are almost not chelated in order to reduce the cost of the product. However, such form leads to rapid degradation of essential chelate complexes with other micronutrients and their transfer to the ordinary salts and thereby to reduction of their bioavailability. 

Actual concentration of micronutrients in the majority of phosphorus-containing fertilizers is hundred times lower than the standard, as phosphates of all metals except alkali metals are water-insoluble!

Such micronutrient fertilizers do not contain adaptogenic components which increase the survival rate in extreme conditions! Many micronutrient fertilizers are representedby dry forms and require additional procedure of weighing, dissolution and filtration.