Agriculture
Plant Growth Regulators
Hormones that stimulate stem elongation, seed germination, and flowering in plants. Used to promote rapid growth and increase fruit size in certain crops.
Hormones involved in cell elongation, root development, and apical dominance. They are used to stimulate rooting in cuttings, prevent premature fruit drop, and induce flowering.
Hormones that promote cell division, delay aging, and enhance nutrient uptake in plants. They are used to promote lateral bud development, delay senescence, and increase yield in certain crops.
Soil Amendments & Conditioners
To modify soil pH, improve drainage, and supply essential nutrients to plants. Correct soil deficiencies and imbalances, promote optimal plant growth and development.
Improve soil texture, aeration, and moisture retention. Enhance root development, reduce compaction, and improve overall soil health and productivity. No Tilling!
Correct acidity or alkalinity issues, modify soil pH . Ensuring optimal conditions for plant growth and nutrient uptake.
Bio-Stimulants
Organic compounds derived from decomposed plant and animal matter, such as humic acid, fulvic acid, and humates. They improve soil structure, nutrient availability, and water retention, promoting root growth and overall plant health.
Potassium humate contains humic acids, which are complex organic molecules with high molecular weights. Humic acids play a crucial role in soil fertility and plant growth by improving soil structure, enhancing nutrient availability, and promoting microbial activity.
Fulvic acids are another component of potassium humate. They are smaller molecules compared to humic acids and are highly soluble in water. Fulvic acids help chelate nutrients, making them more available to plants, and also stimulate plant growth and root development.
Seaweed Extract: Concentrated extracts from seaweed species, rich in growth-promoting hormones, amino acids, vitamins, and minerals. They stimulate plant growth, enhance nutrient uptake, and improve stress tolerance in crops.
Organic compounds that serve as building blocks for proteins and enzymes in plants. They improve protein synthesis, nutrient assimilation, and stress response, promoting vigorous growth and enhanced resilience.
Beneficial microorganisms like mycorrhizal fungi, rhizobia, and plant growth-promoting bacteria (PGPB). They establish symbiotic relationships with plants, improving nutrient uptake, disease resistance, and overall plant performance.
Provide nutrients to the soil in a slow-release manner, improving soil fertility while minimizing environmental impact. Examples include composted manure, seaweed extracts, and fish emulsion.
No-Till
An agricultural practice minimises soil disturbance by eliminating or reducing tillage operations. Instead of ploughing or turning the soil, seeds are planted directly into undisturbed soil cover, such as crop residues or living vegetation. This approach helps retain soil moisture, reduce erosion, and preserve soil structure and organic matter. No-till farming promotes soil health, biodiversity, and resilience to environmental stressors, while also conserving water and energy resources. Contact us to speak to one of our Bio-Agronomists.of microbial growth, ensuring product safety and stability. Extending shelf life by inhibiting bacteria, fungi, and other microorganisms.