Chemical | WoodWorthy™ | WoodWorthy™ Formulation | WoodWorthy™ Development | WoodWorthy™ Profile
Trade Name: BarIno™ WoodWorthy™
Tagline: “Induce. Enhance. Harvest.”
Inoculant Characteristics
| Parameter | Details |
|---|---|
| Resin Yield | Low to Moderate – Does not directly cause resin formation, but facilitates metabolic changes leading to enhanced resin under combined inoculation. |
| Fragrance Intensity | Mild to Moderate – Subtle, earthy, and faint woody tones when used alone. Enhanced aroma when co-inoculated with fungi or oxidants. |
| Chemical Composition | – Chromones: Low alone; enhanced when used with stress inducers – Sesquiterpenes: Low to moderate – Phenolics: May increase under combined stress |
| Resin Color | Light brown to medium brown – gradual darkening when used with oxidative or microbial inoculants |
| Mechanism of Action | Functions primarily as a mild abiotic stressor and ionic modulator. Also acts as a microbial enhancer(especially in brown sugar blends), feeding co-inoculated fungal strains and supporting cell wall loosening. |
| Best Use Scenario | Ideal as a co-formulant with fungal or oxidizing inoculants to stimulate deeper and more uniform resin production. |
| Application Method | Inject as a 5–10% aqueous solution, or combine with brown sugar and fungal culture for synergistic wick-based application |
| Tissue Residue Risk | Low – Mg²⁺ is an essential nutrient; enhances photosynthesis in remaining tissues |
| Compatibility | Excellent compatibility with Fusarium oxysporum, Trichoderma spp., MnO₂, or brown sugar (used in BarIno™ FusaTrinity™ blend) |
| Resin Development Speed | Slow when used alone – visible browning by Month 2–3; faster if used with microbes or oxidants |
| Form | Clear, colorless crystals or flakes; easily soluble in water |
| Precautions | Use sterile water for solution; risk of microbial contamination if left unsealed or mixed with organic substrates |
Use Case Summary
Magnesium Chloride is best seen as a resin-enhancing co-agent, not a primary inducer. Its main strength lies in its biocompatibility and ability to support microbial growth, resin biosynthesis pathways, and tree stress response when used in combination protocols.