PLONVIT® ACTIVE is a universal multi-micronutrient liquid foliar fertilizer for arable crops cultivation. It contains a complex of essential, carefully selected micronutrients in proportions that meet the nutritional requirements of arable plants.
PLONVIT® ACTIVE contains the unique and highly effective NUTRIBOOST™ technology. It is an innovative combination of micronutrients with organic gluconic acid, naturally occurring in plants, which supports efficient nutrient uptake. In addition, the fertiliser is enriched with formulation additives that improve leaf coverage, ensure product stability and increase the efficiency of nutrient uptake.
Improved micronutrient uptake
NUTRIBOOST™ due to the presence of gluconic acid, ensures excellent uptake, transport, and metabolism of nutrients in plant cells
Activation of energy processes
NUTRIBOOST™ supports the generation of additional energy and intensifies yield-forming processes, including photosynthesis, chlorophyll production, and the creation of essential enzymes and proteins for plant growth
More effective leaf coverage with working solution
NUTRIBOOST™ due to the presence of formulation additives, reduces the surface tension of the working solution
Micronutrient fertilisation is a crucial factor responsible for the growth, development, and high yield of plants. Foliar applications are the most effective way of supplying micronutrients. When applied in a well-balanced and rapidly absorbable form, such treatments can adequately meet a plant’s requirements for these essential elements. INTERMAG introduces a NEW GENERATION of PLONVIT® fertilisers, enhanced with our innovative NUTRIBOOST™ technology, PLONVIT ® is a brand of fertilisers that has been appreciated and trusted by farmers for years.
PLONVIT®ACTIVE – new technology, lower dose and higher efficacy
PLONVIT®ACTIVE – COMPOSITION
Nutrients | g/L | % (m/m) |
Total Nitrogen (N) | 67.5 | 5.0 |
Ureic Nitrogen (NH2) | 67.5 | 5.0 |
Magnesium oxide (MgO) water soluble | 27 | 2.0 |
Sulphur trioxide (SO3) water soluble | 69 | 5.1 |
Boron (B) as acid | 5.5 | 0.4 |
Copper (Cu) as chloride | 2.7 | 0.200 |
Iron (Fe) as sulfate | 11 | 0.80 |
Iron (Fe) as chloride | 11 | 0.80 |
Manganese (Mn) as sulfate | 17.6 | 1.30 |
Molybdenum (Mo) as ammonium salt | 0.27 | 0.020 |
Zinc (Zn) as sulfate | 17.6 | 1.300 |
PLONVIT®ACTIVE – APPLICATION
PLONVIT®ACTIVE is intended for foliar treatments in a water solution. Can be used together with other agrochemicals after cunducting a miscibility test.
PLONVIT®ACTIVE – LEARN MORE
FREQUENTLY ASKED QUESTIONS – FAQ
PLONVIT®ACTIVE is an innovative liquid foliar multi-micronutrient fertiliser. It is distinguished by the use of NUTRIBOOST technology, in which micronutrients are complexed by gluconid acid.
Gluconic acid is an organic acid that occurs naturally in plants. It plays a vital role in supporting efficient micronutrient uptake, enhancing plant health and growth. By complexing micronutrients, gluconic acid improves their availability to plants, ensuring optimal nutrient utilization.
NUTRIBOOST technology enseres more effective delivery of micronutrients to plants, intensifying the processes related to crop formation, which translates into their better quality and efficiency.
ARTICLES
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ Autumn: 3–6 leaves unfolded | 1.5–2 l/ha |
◆ Spring: tillering | 1.5–2 l/ha |
◆ stem elongation | 1.5–2 l/ha |
◇ flag leaf stage / beginning of heading | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – tillering | 1.5–2 l/ha |
◆ stem elongation | 1.5–2 l/ha |
◇ flag leaf stage / beginning of heading | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ Autumn: 3–6 leaves unfolded | 1.5–2 l/ha |
◆ Spring: continuation of tillering | 1.5–2 l/ha |
◆ stem elongation | 1.5–2 l/ha |
◇ flag leaf stage / beginning of heading | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – tillering | 1.5–2 l/ha |
◆ stem elongation | 1.5–2 l/ha |
◇ flag leaf stage / beginning of heading | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ Autumn: leaf development – until beginning of tillering | 1.5–2 l/ha |
◆ Spring: beginning of stem elongation | 1.5–2 l/ha |
◆ flag leaf stage – until first awns visible | 1.5–2 l/ha |
◇ end of flowering – until medium milk stage of grain ripening | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – until beginning of stem elongation | 1.5–2 l/ha |
◆ flag leaf stage – until first awns visible | 1.5–2 l/ha |
◇ end of flowering – until medium milk stage of grain ripening | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ Autumn: leaf development – until beginning of tillering | 1.5–2 l/ha |
◆ Spring: beginning of stem elongation | 1.5–2 l/ha |
◆ flag leaf stage – until first awns visible | 1.5–2 l/ha |
◇ end of flowering – until medium milk stage of grain ripening | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – until beginning of stem elongation | 1.5–2 l/ha |
◆ flag leaf stage – until first awns visible | 1.5–2 l/ha |
◇ end of flowering – until medium milk stage of grain ripening | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ Autumn: leaf development – until beginning of tillering | 1.5–2 l/ha |
◆ Spring: beginning of steam elongation | 1.5–2 l/ha |
◆ flag leaf stage – until beginning of heading | 1.5–2 l/ha |
◇ end of flowering – until early milk | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – until beginning of steam elongation | 1.5–2 l/ha |
◆ flag leaf stage – until beginning of heading | 1.5–2 l/ha |
◇ end of flowering – until early milk | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – tillering | 1.5–2 l/ha |
◆ stem elongation – until flag leaf stage | 1.5–2 l/ha |
◇ end of flowering – until early milk | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development | 1.5–2 l/ha |
◆ tillering | 1.5–2 l/ha |
◇ stem elongation | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ Autumn: 4–8 leaves unfolded | 1.5–2 l/ha |
◆ Spring: after start of growing season / beginning of main stem elongation | 1.5–2 l/ha |
◆ bud formation – until beginning of flowering | 1.5–2 l/ha |
◆ from the beginning of petal fall – to the beginning of husk development | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – until beginning of main stem elongation | 1.5–2 l/ha |
◆ bud formation – until beginning of flowering | 1.5–2 l/ha |
◆ from the beginning of petal fall – until the beginning of pods development | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – until beginning of main stem elongation | 1.5–2 l/ha |
◆ bud formation – until beginning of flowering | 1.5–2 l/ha |
◆ from the beginning of petal fall – until the beginning of pods development | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ first trifoliate leaf development | 1.5–2 l/ha |
◇ beginning of growth of shoots | 1.5–2 l/ha |
◆ beginning of flower bud development | 1.5–2 l/ha |
◇/◆ beginning of pod and seed development The application time should be considered as optimal in case of poor nodulation. |
1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ first true leaf development | 1.5–2 l/ha |
◇ beginning of growth of shoots | 1.5–2 l/ha |
◆ beginning of flower bud development | 1.5–2 l/ha |
◇/◆ beginning of pod and seed development The application time should be considered as optimal in case of poor nodulation. |
1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ first true leaf development | 1.5–2 l/ha |
◇ beginning of growth of shoots | 1.5–2 l/ha |
◆ beginning of flower bud development | 1.5–2 l/ha |
◇/◆ beginning of pod and seed development The application time should be considered as optimal in case of poor nodulation. |
1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ first true leaf development | 1.5–2 l/ha |
◇ beginning of growth of shoots | 1.5–2 l/ha |
◆ beginning of flower bud development | 1.5–2 l/ha |
◇/◆ beginning of pod and seed development The application time should be considered as optimal in case of poor nodulation. |
1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ first true leaf development | 1.5–2 l/ha |
◇ beginning of growth of shoots | 1.5–2 l/ha |
◆ beginning of flower bud development | 1.5–2 l/ha |
◇/◆ beginning of pod and seed development The application time should be considered as optimal in case of poor nodulation. |
1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ first true leaf development | 1.5–2 l/ha |
◇ beginning of growth of shoots | 1.5–2 l/ha |
◆ beginning of flower bud development | 1.5–2 l/ha |
◇/◆ beginning of pod and seed development The application time should be considered as optimal in case of poor nodulation. |
1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ rosette development | 1.5–2 l/ha |
◇ beginning of growth of shoots | 1.5–2 l/ha |
◆ beginning of flower bud development | 1.5–2 l/ha |
◇/◆ beginning of pod and seed development The application time should be considered as optimal in case of poor nodulation. |
1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ start of growing season | 1.5–2 l/ha |
◇ growth of shoots and leaves | 1.5–2 l/ha |
◆ after the next mowing | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ start of growing season | 1.5–2 l/ha |
◇ growth of shoots and leaves | 1.5–2 l/ha |
◆ after the next mowing | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ start of growing season | 1.5–2 l/ha |
◆ after each mowing | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ start of growing season | 1.5–2 l/ha |
◆ after each grazing (1–2 weeks before the next grazing) | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ 2–4 leaves unfolded | 1.5–2 l/ha |
◆ beginning of steam elongation | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ „herringbone” phase | 1.5–2 l/ha |
◆ phase of rapid growth | 1.5–2 l/ha |
◇ setting flower buds – until the beginning of flowering | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ beginning of leaf development | 1.5–2 l/ha |
◆ beginning of crop cover | 1.5–2 l/ha |
◆ beginning of storage root development | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ leaf development – tillering | 1–2 l/ha |
◆ stem elongation | 1–2 l/ha |
◇ panicle emergence – until early milk | 1–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ beginning of leaf development | 1–2 l/ha |
◆ beginning of side shoots formation | 1–2 l/ha |
◆ beginning of flower bud development | 1–2 l/ha |
◇ beginning of bolls development | 1–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ 2–6 leaves unfolded (4 leaves is the optimum stage for treatment) | 1.5–2 l/ha |
◆ 7–8 leaves unfolded | 1.5–2 l/ha |
◆ stem elongation – until beginning of tassel formation | 1.5–2 l/ha |
Application times (◆ optimal, ◇ optional): | Direction for use: |
◆ beginning of growth of shoots and leaves (plant height about 10 cm) | 1.5–2 l/ha |
◆ growth of shoots and leaves (plant height ˃15 cm) | 1.5–2 l/ha |
◆ beginning of tuber growth | 1.5–2 l/ha |