Agro 100 - Model Agro-B OP -Concentrated Agro Liquid
Agro-B mobility OPis an agro-liquid concentrated in boron designed to prevent and rectify deficiencies. A good nutrition in boron encourages plant growth, pollination, fructification and assimilation of other nutrients.Agro-B mobility OPcontains sorbitol, an osmoregulator directly metabolizable and native to the plant, that forms stable and soluble boron complexes to ensure optimal absorption by the leaves, fast translocation facilitating boron mobility and availability to all parts of the plant.
- 4-0-0 + 10% B
- Boron with enhanced mobility
Agro-B mobility OPis activated byOligo Prime®, an innovative biostimulant technology that allows for quick absorption and translocation of nutrients and reinforces the plant’s natural defenses against abiotic stresses (drought, low temperature, salinity, etc.). It can be applied on leaves or on the soil based on soil or tissue analyses or as soon as deficiency symptoms appear. For more information onAgro-B mobility OP, consult your agronomic adviser.
Boron contributes to pollen formation and vitality and pollination in flowering crops. By reducing the flower abortion rate,Agro-B mobility OPincreases the number of flowers. More fertilized flowers, more grains, and more fruits. Boron plays an important role in the structure of cell walls, synthesis of hormones, and the transfer of sugars toward fruits, roots, and grains. Boron facilitates the binding of atmospheric nitrogen. Boron increases calcium assimilation and mobility in the plant. Boron improves resistance to cold and hydric stress by regulating water input in cells. Sorbitol and ethanolamine, part of theAgro-B mobility OPsolution, have proven anti-stress qualities (shortage of water, low temperature, salinity).
Boron deficiency
Boron contributes to pollen formation and vitality and pollination in flowering crops. By reducing the flower abortion rate,Agro-B mobility OPincreases the number of flowers. More fertilized flowers, more grains, and more fruits. Boron plays an important role in the structure of cell walls, synthesis of hormones, and the transfer of sugars toward fruits, roots, and grains. Boron facilitates the binding of atmospheric nitrogen. Boron increases calcium assimilation and mobility in the plant. Boron improves resistance to cold and hydric stress by regulating water input in cells. Sorbitol and ethanolamine, part of theAgro-B mobility OPsolution, have proven anti-stress qualities (shortage of water, low temperature, salinity).