| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇/◆ Autumn: 3–6 leaves unfolded The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◇/◆ Spring: tillering The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◇/◆ stem elongation The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◇/◆ flag leaf stage / beginning of heading The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization. |
AMINO ULTRA
Additional Information
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇/◆ leaf development – tillering The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◇/◆ stem elongation The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature.Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◇/◆ flag leaf stage / beginning of heading The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization. |
|
| ◇/◆ flag leaf stage / beginning of heading The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization. |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇/◆ Autumn: 3–6 leaves unfolded The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◇/◆ Spring: continuation of tillering The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◇/◆ stem elongation The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◇ flag leaf stage / beginning of heading |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇/◆ leaf development – tillering The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◇/◆ stem elongation The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◇ flag leaf stage / beginning of heading |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆/◇ Autumn: leaf development – until beginning of tillering The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◆/◇ Spring: beginning of stem elongation The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◆/◇ flag leaf stage – until first awns visible The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆/◇ leaf development – until beginning of stem elongation The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◆/◇ flag leaf stage – until first awns visible The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇/◆ Autumn: leaf development – until beginning of tillering The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◇/◆ Spring: beginning of stem elongation The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
|
| ◇/◆ flag leaf stage – until first awns visible The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇/◆ leaf development – until beginning of stem elongation The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence. |
Single dose – 0.4–1.2 L/ha |
| ◇/◆ flag leaf stage – until first awns visible The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high and in case of low air and soil temperature. Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew. |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ Autumn: leaf development – until beginning of tillering | Single dose – 0.4–1.2 L/ha |
| ◇ Spring: beginning of steam elongation | |
| ◇ flag leaf stage – until beginning of heading |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ leaf development – until beginning of steam elongationg | Single dose – 0.4–1.2 L/ha |
| ◇ flag leaf stage – until beginning of heading |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ leaf development – tillering | Single dose – 0.4–1.2 L/ha |
| ◇ stem elongation – until flag leaf stage |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| Autumn: ◇/◆ 4–8 leaves unfolded The treatment should be considered as optimal in case of crops grown on soils with a pH above 7 and / or high phosphorus content in soil. |
Single dose – 0.4–1.2 L/ha |
| Spring: ◇/◆ beginning of main stem elongation The treatment should be considered as optimal in case of crops grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost. |
|
| ◇/◆ bud formation – until beginning of flowering The treatment should be considered as optimal in case of crops grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost. |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇/◆ leaf development – until beginning of main stem elongation The treatment should be considered as optimal in case of crops grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost. |
Single dose 0.4–1.2 L/ha |
| ◇/◆ bud formation – until beginning of flowering The treatment should be considered as optimal in case of crops grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost. |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ 4–6 leaves unfolded (BBCH 14–16) | Single dose – 0.4–1.2 L/ha |
| ◆ beginning of stem elongation (BBCH 30–33) | |
| ◇ beginning of inflorescence development (BBCH 51–53) |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ leaf development on the main stem (BBCH 13–19) | Single dose – 0.4–1.2 L/ha |
| ◆ stem growth (BBCH 30–39) | |
| ◆ beginning of inflorescence development (BBCH 51–53) |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ 1–3 pairs of side shoots visible (BBCH 21–23) | Single dose – 0.4–1.2 L/ha |
| ◆ 4–9 and more pairs of side shoots visible (BBCH 24–29) | |
| ◆ inflorescence buds visible (BBCH 51–55) |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ 2–6 leaves unfolded (4 leaves is the optimum stage for treatment) | Single dose – 0.4 –1.2 L/ha |
| ◆ 7–8 leaves unfolded | |
| ◆ stem elongation – until beginning of tassel formation |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ beginning of leaf development | Single dose – 0.4 –1.2 L/ha |
| ◆ beginning of crop cover | |
| ◇ beginning of storage root development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ beginning of growth of shoots and leaves (plant height about 10 cm) | Single dose – 0.4 –1.2 L/ha |
| ◆ beginning of tuber formation | |
| ◆ beginning of tuber growth | |
| ◇ tubers reach ca. 50% of the final mass |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ first trifoliate leaf development | Single dose – 0.2–1.2 L/ha |
| ◆ beginning of flower bud development | |
| ◇ beginning of pod and seed development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ first true leaf development | Single dose – 0.2–1.2 L/ha |
| ◆ beginning of flower bud development | |
| ◇ beginning of pod and seed development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ first true leaf development | Single dose – 0.2–1.2 L/ha |
| ◆ beginning of flower bud development | |
| ◇ beginning of pod and seed development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ first true leaf development | Single dose – 0.2–1.2 L/ha |
| ◆ beginning of flower bud development | |
| ◇ beginning of pod and seed development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ first true leaf development | Single dose – 0.2–1.2 L/ha |
| ◆ beginning of flower bud development | |
| ◇ beginning of pod and seed development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ after start of growing season – bud break | Single dose – 0.6–1.2 L/ha |
| ◆ “mouse ear” stage | |
| ◇ white bud stage | |
| ◆ end of flowering: majority of petals fallen | |
| ◆ after harvest | |
| ◆ before beginning of leaf colour turning |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ bud swelling / burst | Single dose – 0.6–1.2 L/ha |
| ◆ inflorescence emergence | |
| ◆ fruitlet development | |
| ◇ the fruit reaches about half of final size | |
| ◆ before beginning of leaf color turning: 1–3 treatments every 10–14 days |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ bud swelling / burst | Single dose – 0.6–1.2 L/ha |
| ◆ inflorescence emergence | |
| ◆ fruitlet development | |
| ◇ the fruit reaches about half of final size | |
| ◆ before beginning of leaf color turning: 1–3 treatments every 10–14 days |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ bud swelling / burst | Single dose – 0.6–1.2 L/ha |
| ◆ inflorescence emergence | |
| ◆ fruitlet development | |
| ◆ the fruit reaches about 30% of final size | |
| ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ inflorescence emergence | Single dose – 0.6–1.2 L/ha |
| ◆ fruitlet development | |
| ◆ the fruit reaches about 30% of final size | |
| ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ inflorescence emergence | Single dose – 0.6–1.2 L/ha |
| ◆ fruitlet development | |
| ◆ the fruit reaches about 30% of final size | |
| ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ bud burst and inflorescence emergence | Single dose – 0.6–1.2 L/ha |
| ◆ fruitlet development | |
| ◆ the fruit reaches about 30% of final size | |
| ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ first new leaves visible | Single dose – 0.6–1.2 L/ha |
| ◆ beginning of flowering | |
| ◆ beginning of fruit development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ bud break | Single dose – 0.6–1.2 L/ha |
| ◆ inflorescence emergence | |
| ◆ beginning of flowering | |
| ◆ beginning of fruit development | |
| ◆ post-harvest |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ Spring: after start of growing season – bud burst | Foliar treatments – single dose – 0.6–1.2 L/ha |
| ◆ leaf and shoot development | |
| ◆ beginning of inflorescence emergence | |
| ◆ before beginning of leaf colour turning: 1–2 treatments every 10–14 days |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ bud breaking | Foliar treatments – single dose – 0.6–1.2 L/ha |
| ◆ beginning of leaf colour turning: 1–2 treatments every 10–14 days |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ bud breaking | Foliar treatments – single dose – 0.6–1.2 L/ha |
| ◆ beginning of leaf colour turning: 1–2 treatments every 10–14 days |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ beginning of leaf and new shoot development | Foliar treatments – single dose – 0.6–1.2 L/ha |
| ◆ inflorescence emergence | |
| ◇ fruit development – until berries pea-sized | |
| ◆ post-harvest |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ leaf development | Foliar treatments – single dose 0.6–1.2 L/ha |
| ◆ beginning of inflorescence emergence | |
| ◇ fruiting period – immediately after the first harvest | |
| ◆ before beginning of leaf colour turning – when plants are leaving for the next growing season: 1–2 treatments every 10–14 days |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◇ leaf development | Foliar treatments – single dose 0.6–1.2 L/ha |
| ◆ further leaf development and beginning of the first inflorescence development | |
| ◇ fruiting period: 1–2 treatments every 14–21 days |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ Autumn in the planting year: before beginning of leaf colour turning | Foliar treatments – single dose 0.6–1.2 L/ha |
| ◆ Spring: leaf development | |
| ◆ Spring: beginning of runner growth | |
| ◇ Summer: development, growth and rooting of plantlets |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ FIELD GROWN NURSERY PLANTATIONS – autumn in the planting year: before beginning of leaf colour turning | Foliar treatments – single dose 0.6–1.2 L/ha |
| ◆ FIELD GROWN NURSERY PLANTATIONS – spring: leaf development | |
| ◆ FIELD GROWN NURSERY PLANTATIONS – spring: beginning of runner growth |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ Autumn in the planting year: before beginning of leaf colour turning | Foliar treatments – single dose 0.6–1.2 L/ha |
| ◆ Spring: leaf development | |
| ◆ Spring: beginning of runner growth | |
| ◇ Summer: development, growth and rooting of plantlets | |
| ◆ Beginning of autumn: runners with rooted plantlets cover inter-row spaces (if there is possibility for foliar application) |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◇ after seedling adaptation to the field conditions – intensive plant growth | Foliar treatments – single dose 0.2–1.2 l/ha |
| ◇ beginning of inflorescence emergence |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◇ after seedling adaptation to the field conditions – intensive plant growth | Foliar treatments – single dose 0.2–1.2 l/ha |
| ◇ the first flower bud emergence |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ beginning of growth of plants: 1–2 treatments every 7–14 days | Single dose 0.2–1.2 l/ha |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | Single dose – 0.2–1.2 L/ha |
| ◇ beginning of the flower head development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | Single dose 0.2–1.2 L/ha |
| ◇ beginning of the flower head development |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | Sinlge dose 0.2–1.2 L/ha |
| ◇ beginning of the head formation |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | Single dose 0.2–1.2 L/ha |
| ◇ beginning of the head formation |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | Single dose 0.2–1.2 L/ha |
| ◇ beginning of the head formation |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | Single dose – 0.2–1.2 L/ha |
| ◇ beginning of the head formation |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of the main stem and leaves | Single dose – 0.2–1.2 L/ha |
| ◇ beginning of axillary bud (‘sprouts’) formation |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | 0.2–1.2 L/ha |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ growth of leaves | 0.2–1.2 L/ha |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ after seedling adaptation to field conditions – leaf development | Single dose – 0.2–1.2 L/ha |
| ◇ growth of the main stem and leaves |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◇ 3rd–5th leaf unfolded | Foliar treatments – single dose 0.2–1,2 L/ha. |
| ◆ beginning of storage root formation | |
| ◆ the storage root reaches about 50% of its typical size |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ beginning of storage root formation | Foliar treatments – single dose 0.2–1,2 L/ha. |
| ◇ the storage root reaches about 50% of its typical size |
| Application times for foliar treatments (◆ optimal, ◇ optional): | Direction for use: |
| ◆ beginning of storage root formation | Foliar treatments – single dose 0.2–1,2 L/ha. |
| ◇ the storage root reaches about 50% of its typical size |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◆ 7–8 true leaves (BBCH 17–18) | Single dose – 0.2–1.2 L/ha |
| ◇ 9 true leaves / root begins to expand (BBCH 19/41) |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ 5 true leaves / beginning of crop cover (BBCH 15/31) | Single dose 0.2–1.2 L/ha |
| ◇ storage root begins to develop, diameter above 2 cm (BBCH 41–43) |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ 1–2 treatments every 7–21 days in spring | watering 0.05–0.1% solution OR spraying 0.25–0.3% solution |
| ◇ 1–2 treatments every 7–21 days in autumn |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ 1–2 treatments every 7–21 days in spring | watering 0.05–0.1% solution OR spraying 0.25–0.3% solution |
| ◇ 1–2 treatments every 7–21 days in autumn |
| Application times (◆ optimal, ◇ optional): | Direction for use: |
| ◇ 1–2 treatments every 7–21 days in spring | watering 0.05–0.1% solution OR spraying 0.25–0.3% solution |
| ◇ 1–2 treatments every 7–21 days in autumn |
DISCOVER MORE
VIEW ALL PLANT PRODUCTS →RELATED PRODUCTS
Plant Products
MIKROVIT® BORON TURBO
is a liquid foliar fertilizer containing 150 g of boron (B) in 1 liter in the form of boroethanolamine enriched with INT Technology to facilitate the uptake and movement of boron in plants.
VIEW DETAILS →
Plant Products
Tytanit
TYTANIT® is a patented yield biostimulant, containing TITANIUM (Ti) in the form of a unique molecule aTIUM®. TYTANIT® catalyzes natural plant physiological processes and therefore positively affects yield quantity and quality.
VIEW DETAILS →
Plant Products
OPTYSIL
OPTYSIL® is an innovative silicon immunity biostimulant, containing active silicon form, which owes its effectiveness to unique formula duoSIL™
VIEW DETAILS →