Formulation – MgCl₂ + Sugar Solution

“Fusarium oxysporum Induction Enhancement” as part of Agarwood R&D protocol series (FOIFA vs. chemical vs. combined approach)

Purpose:
To support both host tree metabolism and Fusarium oxysporum fungal colonization during agarwood inoculation, enhancing resin biosynthesis and sustained host vitality.

1. Mechanistic Basis

A. Role of Magnesium Chloride (MgCl₂):

  • Supplies magnesium (Mg²⁺) — a central ion in chlorophyll and enzyme activation.
  • Supports host photosynthesiscarbohydrate translocation, and cell wall stability.
  • Enhances osmotic balance in infected tissues, reducing cellular stress after inoculation.
  • Facilitates phenolic compound synthesis, which are precursors to agarwood resin.

B. Role of Sugar (Sucrose or Glucose):

  • Acts as an energy substrate for both the tree and the inoculated fungus.
  • Promotes fungal sporulation and colonization at the infection site.
  • Supports secondary metabolite synthesis (sesquiterpenes and chromones) by providing carbon skeletons.
  • Serves as an osmoprotectant, mitigating oxidative stress post-inoculation.

2. Functional Synergy

When combined, MgCl₂ + sugar creates a biocompatible microenvironment at the inoculation site:

  • The tree remains metabolically active (nutrient-supported recovery).
  • The fungus receives carbon and minerals for colonization.
  • Localized biochemical stress triggers resin formation, a defensive response.

3. Example Formulation (for R&D Testing)

 For experimental use only — field calibration and pH adjustment required.

ComponentConcentrationFunction
MgCl₂·6H₂O0.1–0.2 M (approx. 2–4 g per 100 mL)Osmotic regulator, enzyme activator
Sucrose or Glucose2–5% (w/v)Carbon source for host + fungus
Sterile Waterq.s. to 100 mLSolvent
Optional Additive: Yeast extract (0.1%)Enhances fungal nutrient uptake
pH range: 5.5–6.5Optimum for Fusarium oxysporum and host compatibility

4. Application Notes

  • Inject or infuse 5–10 mL per inoculation point, depending on trunk diameter.
  • Use sterile technique to avoid contaminant fungi.
  • Reapply every 3–4 months in R&D trials to sustain resin induction.
  • Monitor color change, resin odor, and fungal mycelium activity at the wound site.

5. Scientific Rationale

The Mg²⁺ ions activate key defense enzymes (PAL, PPO), while sugar provides the metabolic fuel.
Together, they accelerate secondary metabolite accumulation, leading to denser and more aromatic agarwood resin.