Ingredients
Active ingredient content by molecular weight, g/l
Goals / Purpose
| Crop | Input rate | Input stage | Remarks | |
|---|---|---|---|---|
Crop:  Cereals | Input rate: 1 l/ha | Input stage: Tillering | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Cereals | Input rate: 1 l/ha | Input stage: Booting | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Legumes | Input rate: 1 l/ha | Input stage: 1st tier leaves | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Legumes | Input rate: 1 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Legumes | Input rate: 1 l/ha | Input stage: Pod development | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Sunflower | Input rate: 1 l/ha | Input stage: 2-4 leaf pairs | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Sunflower | Input rate: 1 l/ha | Input stage: 6-8 leaf pairs | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Buckwheat | Input rate: 1 l/ha | Input stage: Ramification | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Buckwheat | Input rate: 1 l/ha | Input stage: Inflorescence formation | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Rapeseed | Input rate: 1 l/ha | Input stage: In autumn for winter rapeseed at the rosette formation stage | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Rapeseed | Input rate: 1 l/ha | Input stage: 6-8 leaves | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Rapeseed | Input rate: 1 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Rapeseed | Input rate: 1 l/ha | Input stage: Pod development | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Potatoes | Input rate: 1 l/ha | Input stage: 10-15cm sprouts | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Potatoes | Input rate: 1 l/ha | Input stage: Leaf development | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Potatoes | Input rate: 1 l/ha | Input stage: Budding – flowering start | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Grapes | Input rate: 1 l/ha | Input stage: Before flowering | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Grapes | Input rate: 1 l/ha | Input stage: After flowering | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Grapes | Input rate: 1 l/ha | Input stage: Fruit setting | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Cucurbits | Input rate: 1 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Cucurbits | Input rate: 1 l/ha | Input stage: Two weeks after the first application | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Crop:  Beetroot | Input rate: 1 l/ha | Input stage: 4-6 pairs of real leaves | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Beetroot | Input rate: 1 l/ha | Input stage: Closing of crop | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
| Crop: Beetroot | Input rate: 1 l/ha | Input stage: 20 days before harvesting start | Remarks: Remedy of nutrient deficiency, higher yield and better quality, better synthesis of amino acids and proteins, higher nitrogen fixation by nodule bacteria | Details |
Description
Sulfur is a part of proteins (i.e. of aminoacids - methionine, cystine and its derivative cysteine), vitamins (thiamine B1 and biotin H). It participates in the formation of most enzymes and oils. It plays an important role in the redox reactions of crops. It improves the uptake of nitrogen compounds by crops, prevents the formation of non-protein forms of nitrogen compounds in commercial products, which ensures its high environmental friendliness. Sulfur also increases crop resistance to low or high temperatures, drought, and radiation. Featuring such multifaceted significance sulfur cannot be substituted by other mineral elements.
Lack of sulfur in the mineral nutrition of plants leads to a 40% photosynthesis decrease, down to protein breakdown and the accumulation of soluble nitrogenous compounds. Symptoms of sulfur deficiency appear on young leaves of crops or growth points. They somewhat resemble the symptoms of nitrogen deficiency. The need for sulfur in plants depends on the level of nitrogen nutrition. The higher the nitrogen norm rate, the more sulfur they consume. Diagnostics of plant sulfur nutrition showed that the need for sulfur in winter wheat, barley, beans, peas, sunflowers and maize is evident already in the initial phases of crop growth.
