POTASH BACTER
Potassium Mobilizing Bacteria
KMB Pseudomonas Sp. unlock the potassium bound in minerals and make it available for plant uptake by secreting a variety of organic acids and enzymes that dissolve complex potassium minerals in the soil and transform insoluble potassium into a soluble form that plants can easily absorb by chelation, acidolysis, and the production of extracellular polysaccharides.
PHOSPHO BACTER
Phosphate Solubilizing Bacteria
Pseudomonas azotoformans acts as a biocontrol agent in the soil environment by improving plant growth through processes like nitrogen fixation, phosphate solubilization an phytohormone production and secretion of antimicrobial compounds. It colonizing the rhizosphere and root tissues, providing plant health and resilience against stressors. Plant growth hormones like auxins and cytokinins, which promote root development and overall plant growth.
RHIZO BACTER
Nitrogen Fixing Bacteria
In a symbiotic relationship, Rhizobium sp. bacteria enter the plant through the roots and develop nodules. In order for plants to synthesise amino acids and nucleotides, rhizobium bacteria must first transform atmospheric nitrogen into ammonia and nitrates. Additionally, rhizobium bacteria generate indole acetic acid (IAA), which stimulates the growth and development of plants.
ACETO BACTER
Nitrogen Fixing Bacteria
The bacterium Gluconacetobacter sp. can fix atmospheric nitrogen, which means it can transform atmospheric nitrogen gas into a form that plants may use as a source of nutrition. As a result, it has the potential to be a useful natural fertilizer in agriculture. By forming a symbiotic connection with the plant, it may give nitrogen continuously.
ENDO BACTER
Potassium Mobilizing Bacteria & Phosphate Solubilizing Bacteria
Phosphate and potassium are solubilized by the halophytic bacterium Bacillus sp. by producing organic acids that chelate Si4+, Mg2+, and Ca2+, which bind to the phosphate and potassium and increase their availability for plant absorption. Extracellular macromolecules that promote plant development, such proteins and polysaccharides, are secreted by it. halophytes, which enable them to get phosphate that is absent in saline conditions.
NPK BACTER
NPK Bacteria
By using a microbes that can fix atmospheric nitrogen, solubilize phosphorus, and mobilize potassium from the soil, Bacillus sp. essentially provides a balanced nutrient supply by accessing Immobilize forms of NPK and it produce siderophore that chelate iron. It also secrete an enzymes to mobilize potassium and the secretion of organic acids to dissolve bound phosphorus, as well as the potential production of plant growth hormones for improved root development and overall plant health.
AZOSPIRILLUM
N-fixing bacteria
Azospirillum Sp. mainly stimulates plant growth by fixing atmospheric nitrogen to a limited degree, but its main mechanism of action is the synthesis of phytohormones, especially indole acetic acid (IAA), which improves nutrient uptake and stimulates root development, increasing plant growth and yield. Because Azospirillum triggers stress-response pathways, it may also help plants withstand abiotic challenges like salinity and drought.
MYCONELIX
VAM
Glomus sp. of arbuscular mycorrhizal fungi that primarily work by penetrating plant roots and establishing a symbiotic relationship. This allows the fungus to access soil nutrients, such as phosphorus uptake, and mobilize immobile micronutrients, such as Fe, Mn, Zn, Cu, B, and Mo, as well as water, which it then transfers to the plant in exchange for carbohydrates, thereby improving the plant’s nutrient uptake and growth in nutrient-poor soil conditions. The development of arbuscules, which are highly branched fungal structures, within the plant root cells, greatly increasing the absorption surface area of the root.