Technology and effect of MGP-bio

In the activator, the mineral particles are extremely accelerated by air currents, so that they collide with each other at an extremely high rate (collisions between minerals). On average, 3,000 collisions per second take place at three times the speed of sound. You can reach dimensions from a few to a few thousandths of a millimeter. The surface of the particles becomes extremeirregular and jagged. This changes the surface and contact properties, destabilizes the structure of the mineral and increases its reactivity and solubility.

MGP-bio is a natural mineral powder obtained by tribomechanical activation (TMA) from calcite in a globally unique process. Due to a special protected technological process, calcite of sedimentary and maritime origin is mechanically crushed down to the micro range. Such crushed powder dissolves easily in the water, and this solution is then applied by fine atomization (several times) on the green (leaf) mass of individual cultures.

Penetration of micron calcite particles into the stoma of the leaf. It comes to the decomposition of the particles to calcium oxide and carbon dioxide. These two compounds are directly involved in the physiological processes of the leaf, especially in the process of photosynthesis and that of the primary and secondary metabolism.

By penetrating the intercellular area of the leaf through the leaf pore (stoma), calcium carbonate (CaCo 3) becomes calcium oxide (CaO) and Carbon dioxide (CO 2) is broken down. The carbon dioxide is immediately activated in the process of photosynthesis. With the help of sunlight (which becomes the energy of chemical bonds), water and carbon dioxide, organic compounds are created. Since the intensity of photosynthesis depends primarily on the light intensity and on the CO 2 concentration, MGP-bio ensures an optimal amount of CO 2 for the plant, thus contributing significantly to the process of photosynthesis as well as to primary and secondary metabolic processes but also to other physiological processes in the plant.

The photosynthetic process takes place in chloroplasts containing a photosynthetic pigment and chlorophyll. The process includes
1. a primary reaction or reaction in light, which takes place in thylakoid Mebranen the chloroplasts, where light energy to chemicalEnergy is converted.
2.a secondary reaction (Calvin’s cycle), which takes place in the dark, in the stroma of the chloroplasts. There it leads to the reduction of CO 2 and to the synthesis of carbohydrates (secondary metabolism).

Photosynthesis can only be carried out by the green parts of the plant. The most active photosynthetic tissue is the leaf mezzophyll, where most of the chlorophyll involved in photosynthesis (pigments) is located.
The efficiency of photosynthesis depends on

  • Supply of water and minerals
  • Porosity
  • Intensity of sunlight
  • Concentration of CO 2 and O 2
  • Development status of the plant airflow

The supply of the plant with carbon dioxide is always problematic because CO 2 is in the air around the plant, while photosynthesis takes place in the leaf’s cell system. For the process of photosynthesis to take place, CO 2 must enter the leaf. The entry of CO 2 takes place via pores (openings), which are located on the leaf surface (called the stoma).

By opening and closing the stomata, the plant gets the CO 2 flow but also that of water (transpiration) regulated.
Since MGP-bio directly introduces CO 2 into the plant leaf, the plant therefore has optimal amounts of carbon dioxide in the simplest way. This is the most basic explanation of the beneficial effects of MGP-bio on the most important life process in the plant. This effect consists in the intensification and optimization of photosynthetic processes.

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