Biomicrobes Fe
Nature’s Solution for Superior Nutrient Uptake.
ENHANCE IRON UPTAKE with Fe, a powerful blend of seven growth-enhancing rhizobacteria species designed to improve plant health and productivity. These bacteria mobilize, solubilize, and chelate both macro- and micronutrients in the rhizosphere, while producing siderophores that enhance iron uptake, ensuring plants receive optimal levels of this essential nutrient.
Enhance Iron Uptake
Improved Nutrient Absorption
Improved efficiency in fertilizer
absorption
Our multifunctional approach supports rapid growth, vigorous root development, and improved water efficiency. Additionally, Biomicrobes' Fe boosts plant resilience against abiotic stress factors such as high salinity, extreme temperatures, water imbalances, and heavy metals.
Beneficial substances
Each milliliter of Biomicrobes Fe contains 1 billion colony-forming units (CFUs) of effective bacteria. The high bacterial concentration enables effective results with lower application rates and less frequent applications. The dynamic interaction of these bacterial strains, along with the action of siderophores, creates a unique consortium that promotes plant health.
Mechanisms of Action
Biomicrobes' Fe can be integrated with both traditional and alternative fertilization strategies and is suitable for application from the seedling phase through to harvest. It is versatile and can be used in various planting environments, including direct soil application, hydroponic systems, peat, and rockwool.
Nutrient Solubilization
Bacillus in Fe are notable for their ability to solubilize phosphates, Fe's bacillus also boost potassium availability, crucial for plant growth. They also produce siderophores that enhance iron uptake.
Iron
Chelation
Fe's Bacillus produce siderophores that chelate iron from the soil, converting it into a more bioavailable form. This is especially beneficial in areas with iron-deficient soils.​
Biofilm
Formation
Fe's Bacillus species form protective biofilms around the root zones, improving the micro-environment for nutrient exchange and root protection.