Ingredients
Active ingredient content by molecular weight, g/l
Goals / Purpose
| Crop | Input rate | Input stage | Remarks | |
|---|---|---|---|---|
Crop:  Cereals | Input rate: 1–2 l/ha | Input stage: Tillering - booting | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Cereals | Input rate: 1–2 l/ha | Input stage: Earing | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Legumes | Input rate: 1–2 l/ha | Input stage: 1st tier leaves | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Legumes | Input rate: 1–2 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Legumes | Input rate: 1–2 l/ha | Input stage: Pod development | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Sunflower | Input rate: 1–2 l/ha | Input stage: 2-4 leaf pairs | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Sunflower | Input rate: 1–2 l/ha | Input stage: 6-8 leaf pairs | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Buckwheat | Input rate: 1–2 l/ha | Input stage: Ramification | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Buckwheat | Input rate: 1–2 l/ha | Input stage: Inflorescence formation | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Maize | Input rate: 1–2 l/ha | Input stage: 6-7 leaves | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Rapeseed | Input rate: 1–2 l/ha | Input stage: In autumn for winter rapeseed at foliar rosette formation | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Rapeseed | Input rate: 1–2 l/ha | Input stage: 6-8 leaves | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Rapeseed | Input rate: 1–2 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Potatoes | Input rate: 1–2 l/ha | Input stage: 10-15 cm sprouts | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Potatoes | Input rate: 1–2 l/ha | Input stage: Leaf development | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Potatoes | Input rate: 1–2 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Grapes | Input rate: 1–2 l/ha | Input stage: Before flowering | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Grapes | Input rate: 1–2 l/ha | Input stage: After flowering | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Grapes | Input rate: 1–2 l/ha | Input stage: Fruit setting | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Cucurbits | Input rate: 1–2 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Cucurbits | Input rate: 1–2 l/ha | Input stage: Two weeks after the first application | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Crop:  Beetroot | Input rate: 1–2 l/ha | Input stage: 4-6 pairs of real leaves | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Beetroot | Input rate: 1–2 l/ha | Input stage: Closing of crop | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
| Crop: Beetroot | Input rate: 1–2 l/ha | Input stage: Three weeks before harvesting | Remarks: Remedy of nutrient deficiency, boost for immunity, carbohydrate synthesis, plant stress-resistance, increase in crop yield and quality | Details |
Description
The main function of silicon is a comprehensive boost of plant immunity through enzymatic activity. It includes natural anti-stress mechanisms making plants stronger.
Silicon has a significant effect on the growth and development of plants, increases crop yield and improves product quality. However, the positive effect of silicon is especially noticeable at plants under stressful conditions. In optimal doses, silicon improves nitrogen and phosphorus metabolism in plant tissues, increases the consumption of boron and a number of other elements, and reduces the toxicity of excess amounts of heavy metals.
Revitaplant Silicon ensures:
- mechanical strength;
- stronger cell walls, rigidness of various plant organs;
- flowering power, fruiting energy;
- silicon efficiency in plant struggle against fungous and bacterial diseases;
- Plant -resilience in stress conditions (drought, extreme temperatures, wind load; viability in swampy and saline soil conditions).
Silicon-poor nutrition is one of the limiting factors in the development of the plant root system. It was found out that the optimization of silicon nutrition enhances the efficiency of photosynthesis and root system capacity.
