Ingredients
Active ingredient content by molecular weight, g/l
Goals / Purpose
| Crop | Input rate | Input stage | Remarks | |
|---|---|---|---|---|
Crop:  Cereals | Input rate: 0,5–1 l/ha | Input stage: Winter- and spring sown cereals: Tillering | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Cereals | Input rate: 0,5–1 l/ha | Input stage: Winter- and spring sown cereals: Flag leaf | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Crop:  Legumes | Input rate: 0,5–1 l/ha | Input stage: 1st tier leaves | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Legumes | Input rate: 0,5–1 l/ha | Input stage: 2nd tier leaves | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Crop:  Sunflower | Input rate: 0,5–1 l/ha | Input stage: 2-4 pairs of leaves | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Sunflower | Input rate: 0,5–1 l/ha | Input stage: 6–8 pairs of leaves | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Crop:  Buckwheat | Input rate: 0,5–1 l/ha | Input stage: Ramification – Appearance of inflorescences | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Crop:  Maize | Input rate: 0,5–1 l/ha | Input stage: 6–7 leaves | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Maize | Input rate: 0,5–1 l/ha | Input stage: Tasseling | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Crop:  Rapeseed | Input rate: 0,5–1 l/ha | Input stage: In autumn for winter-sown rapeseed | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Rapeseed | Input rate: 0,5–1 l/ha | Input stage: Budding | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Crop:  Potatoes | Input rate: 0,5–1 l/ha | Input stage: Before flowering | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Cereals | Input rate: 0,5–1 l/ha | Input stage: After two weeks since the first application | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Crop:  Grapes | Input rate: 0,5–1 l/ha | Input stage: Before flowering | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Grapes | Input rate: 0,5–1 l/ha | Input stage: After flowering | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
| Crop: Grapes | Input rate: 0,5–1 l/ha | Input stage: Fruit setting | Remarks: Remedy of nutrient deficiency (chlorosis), plant respiration improvement, increase in yield and quality, better plant stress resistance | Details |
Description
Iron is part of the enzymes making chlorophyll, although chlorophyll does not contain it. Iron is involved in redox processes in plants, since it is able to transform from its oxidized form to a ferrous form and vice versa. Besides without iron respiration of plants is impossible, since it is an integral part of respiratory enzymes.
A lack of iron leads to the breakdown of growth substances (auxins) synthesized in plants, the leaves becoming light yellow. Iron cannot, unlike potassium and magnesium, move from old tissues to young ones (i.e., be reused by a plant).
