What is fulvic acid?
Most producers interested in soil improvement and plant nutrition will already be familiar with humic acids. Fulvic acid is, in essence, the main “active” ingredient in humic acids. It is the driving force behind the performance of all human-based materials. Humic acids are exceptional materials in their own right, but many of their beneficial characteristics are actually related to their fulvic component.
Fulvic acid is biologically more active than humic acid. It contains more oxygen, less carbon and is markedly more acidic than humic acid. Fulvic acid has a much lower molecular weight, which provides more possibilities for mobility within the plant, which in turn facilitates a greater influence on metabolic processes. Fulvic acid is the “fast food”, the “colonel’s recipe” for the success of humates in agriculture, it is much more versatile than humic acids, and arguably the most important input in organic agriculture. We hope you may have understood, what is fulvic acid?
What is fulvic acid in detail?
The electrical life of plants
Fulvic acid is a powerful organic electrolyte that can balance and energize all cells (microbe, plant, animal or human being). An electrolyte is a substance, soluble in water and other media, which is capable of conducting the electric current. The addition of an electrolyte reversed the situation drastically, with amoebae immediately resuscitate and return to your healthy state. The importance of the curative powers of fulvic acid in the human situation has not been overlooked. Fulvic acid is the new kid on the block in alternative medicine. Fulvic acids contain electrolytes that are essential for the well-being of plants. They serve as tiny battery chargers, which provide a constant drip charge for each cell. The maintenance of maximum electrical potential in the plants is equivalent to optimum growth, yield and health of the plants. Fulvic acid can restore electrical balance that has been altered during periods of stress (for example, storms, extreme temperatures and disease), and this may be the key to restoring the health of plants.
What is fulvic acid- The ‘Honeypot’ effect
Unfortunately, most of our soils now enter this category ‘questioned’, often due to toxic residues. When fulvic acid absorbs and stores these toxins, it also precipitates the biological degradation of these unwanted materials.
In soils with limited microbial activity, fulvic acid can be a promoter of the microbial so potent that dispersed populations of microbes are attracted to the colloid fulvic like bees to a honeypot. This “jar effect of honey” Humic acids also exhibit these detoxifying qualities, but the fulvic detoxification response is more pronounced, due to a greater ability to ‘bind’ with organic and inorganic contaminants, and also due to the fact that fulvic acid is more leachable than acid humic and can cart the remaining toxins along their journey through the soil profile.
Fulvic acid has a unique ability to dissolve insoluble materials. The research suggests that iron, a poorly transported mineral, essential for all plant life, is dissolved, complexes and transported to the plant much more efficiently in the presence of this organic acid. A low molecular weight tab ensures easy access and better translocation of the iron caution. Have you known what is fulvic acid?
Fulvic acid also potassium. Potassium is the most expensive mineral from a fertilization perspective, but large reserves are present, insoluble, in all but the lightest of soils. Potassium published by the ‘fulvic solvent’ will reduce fertilization costs. Silica is the flavor of the month in circles of soil science. Fulvic acid has a particularly strong potential of silica. Water-soluble silica plays a role similar to calcium, strengthening cell walls and building brix levels.
The research also confirms an increased phosphate solubility and stability, but silica, potassium and phosphate are all more susceptible to fulvic in the presence of iron. Fulvic acid has an affinity for iron, and can actually carry three to ten times its own weight of this metal. The mineral products most susceptible to disintegration by fulvic acid are those that contain the highest percentage of iron. NTS Soft Rock ™ contains phosphorus (10%), silica (25%) and iron (2%) *. The solubility of this product could certainly be improved by fulvic acid. Rock powder also contains good levels of iron, and most mineral rock fertilizers give better results with fulvic acid.
What is fulvic acid? A chelator And Penetrator
Fulvic acid is a highly efficient chelating agent, and the benefits of chelation are further enhanced by an increase in the permeability of plant membranes obtained by agents that sensitize the cell to acid. This increase results in an improvement in the permeability of the absorption of all nutrients and moisture. In fact, any material that is applied in combination with fulvic acid will be absorbed more efficiently. A related improvement in the efficiency of herbicides is an obvious advantage of this particular feature. There is also the obvious possibility to improve the fertilizer yield applied when the desired element can be cheated.
The fulvic phenomenon – Other Benefits
Fulvic acid contains an auxin-like growth response that improves cell division and elongation. Root cell division is magnified with obvious benefits for all root crops. Potatoes have been shown to be particularly sensitive to the promotion of fulvic acid. Fulvic acid also directly influences numerous enzymatic processes, including the enhanced metabolism of RNA and DNA proteins. This is relevant for the producers of extensive cereals pursuing a premium for the main durum wheat. Fulvic acid contains considerably more free radicals of humic acids, and this is part of the optimal health package of the plants.
The treatment of seeds with fulvic acid can be very productive. Compounds of succinic and fumaric acid, which are found within fulvic acids, are biological stimulators, stimulating previous growth, more roots and more outbreaks. Several research projects have reported increased yield of seed treatment crops alone. Finally, fulvic acid can replace or interact with sunlight to improve photosynthesis. This can be particularly valuable during prolonged cloudy periods.