Thus, the soil conditioner becomes a source of nutrients and moisture that the plant roots suck from their pores throughout the growing season. This is particularly important during droughts and when water is scarce for irrigation. After the roots have received nutrients and moisture, the granules will naturally decompose, usually within a year.
According to the results of spring-summer tests in Germany, which were carried out on the example of spring wheat with a prolonged lack of rain and irrigation water at a temperature of 36 °C and above, the Hybrid Innovation soil conditioner proved to be the most effective means to maintain the green mass of the plants and thereby increase the yield.
With special Yara sensors that detect changes in the color range of vegetation, it was found that in the conditions of a prolonged absence of rain, the control fields and fields with traditional chemical fertilizers applied to them acquired a golden brown color, which indicated a suspension of their growth, in fact, drying out. The same sensors continued to detect the presence of a juicy green color in the fields with the applied soil conditioner Hybrid Innovation, which indicated a stable replenishment of the plant roots with moisture from the granules.
It is the green mass of plants that is the source of chlorophyll, which provides photosynthesis, as a result of which a significant increase in quality was recorded in the grains harvested from the fields where the Hybrid Innovation soil conditioner was applied. They contained more than 20% protein and gluten relative to samples collected from drought-affected control fields.
Field trials confirmed that it was by transferring organic nutrients and moisture to the roots of plants that the Hybrid Innovation soil improver, despite the shortage of irrigation water, provided an increase in yield by almost 30%.
The soil conditioner Hybrid Innovation – Basis is also recommended for potato cultivation.
Method of application: industrial (mechanical) filling of holes – 30-60 kg / ha
Potatoes are one of the highest yielding crops, but their production requires a lot of work and attention, especially when choosing seeds, fertilizers and essential micronutrients.
The soil conditioner Hybrid Innovation – Basis is designed for the cultivation of high-yielding potato varieties that are marketed as finished products or processed on other production lines.
Soil conditioner Hybrid Innovation – Basis can be used both independently and together with other organic and mineral fertilizers. It contains the necessary minimum of potassium and phosphorus, as well as a variety of macro and microelements, from amorphous silicon to rare microelements, which increase the efficiency of nutrient absorption, activate the growth of potato tubers and increase yields by up to 30%.
By using the soil conditioner Hybrid Innovation – Basis you can retain and bind heavy metals in the soil. In addition, the soil improver Hybrid Innovation – Basis increases soil fertility and restores the humus layer and beneficial microflora.
Potatoes with a high dry matter content are most in demand for further processing. Up to 30% of dry matter content has been found to be related to hydration of potatoes during the growing season. The ability of the soil conditioner Hybrid Innovation – Basis to absorb water should be emphasized here. If the soil conditioner Hybrid Innovation – Basis is present in the root area of plants, it retains moisture for a long time and supplies the potatoes in the field with water evenly. In addition, thanks to its ability to store water, the Hybrid Innovation – Basis soil improver can reduce the amount of water required by half or more.
Before planting potatoes, it is recommended to apply 300 kg of soil conditioner Hybrid Innovation – Basis per 1 hectare of field. When using the Hybrid Innovation – Basis soil conditioner, it is desirable to follow modern methods of mechanical fertilization if the soil conditioner is applied under the potato tuber during planting. In this way, the maximum effect for potato growth is achieved and the problem of constant water supply is optimally solved.