How It's Made
Our Agrow Synergy™ humified fertilizers are created through a special Biodynamic, micronization process.
1. Phase One: Ultra-Thermophilic Composting
The process begins with ultra-thermophilic composting, where highly carbon and nitrogen rich feedstocks—such as woody biomass, agricultural residues, and other organic matter—are subjected to extremely high temperatures. This phase is driven by specially acclimated microbial communities capable of thriving in these intense conditions.
• Purpose: breakdown of complex organic feedstock materials.
• Microbial Adaptation: These microbes are uniquely trained to process and bind added minerals to carbon.
• Result: Formation of stable, carbon-bound mineral complexes that are non-toxic and plant-safe.
2. Phase Two: Mineral Integration
During the thermophilic phase, a carefully selected blend of minerals is introduced. These minerals are not simply mixed in—they are biologically integrated into the compost matrix by the microbes.
• Outcome: The minerals become chelated and stabilized within a humified carbon structure, ensuring they are bioavailable and non-leaching.
3. Phase Three: Mesophilic Curing Phase with Biodynamic Ferments
After the high-heat phase, the material enters a mesophilic curing phase, where temperatures gradually decline. At this stage, biodynamically-based ferments are added to the process.
• Function: These ferments enhance microbial diversity, enzymatic activity, and nutrient complexity.
• Stabilization: The material matures into a pH-balanced, plant-safe fertilizer that won’t burn roots, foliage, or flowers.
4. Phase Four: Vermiculture Integration
Once the compost has cooled sufficiently, it is passed through a vermiculture system. Earthworms further refine the material by:
• Digesting and enriching the compost.
• Producing castings rich in plant growth hormones, enzymes, and beneficial microbes.
5. Phase Five: Micronization for Foliar Uptake
The final product is milled to sub-25 micron particle sizes, creating the Grow and Bloom Champion fertilizer lines.
• Why this matters: These ultra-fine particles are small enough to be absorbed through leaf cuticles and stomatal receptors, making them ideal for foliar feeding.
• Result: Rapid nutrient uptake, increased efficiency, and minimal waste.