FUTURE SOIL® is an Australian platform delivering world-first liquid soil technologies that redefine how water moves, holds, and behaves through every layer of the soil profile. Independent field trials now confirm what growers have long suspected: when you change soil physics at the micro-structural level, you change everything.
Reprogramming Soil from the Inside Out
The FUTURE SOIL® development team has unlocked a new mechanism to control hydraulic conductivity at the colloidal and electrochemical level — enabling soils to absorb, hold, and distribute water with unprecedented precision.
This breakthrough is now deployed across the platform, combining:
Biochar-based carbon matrices
Cationic siloxane quaternaries
Non-ionic surface activators
The result: a new generation of performance-grade soil conditioners that reshape structure, infiltration, and water storage from the topsoil to the subsoil.
Field trials have focused on capturing irrigation and run-off by modifying how water enters and behaves in the soil. Results show that mineral-coated carbon particles do more than feed microbes, they physically change soil behaviour, transforming how it drains, retains, and breathes.
The Agronomic Shift
What agronomists have long suspected is now proven in the field: small shifts in soil physics and chemistry deliver massive gains in water efficiency.
FUTURE SOIL® has directly addressed:
Run-off and pooling
Deep drainage and nutrient loss
Penetration resistance in clay
Dry pockets and crusting in sand
By controlling infiltration rates, managing resistance, and improving drainage profiles, growers are now seeing clear increases in yield and input efficiency.
Colloidal-level siloxane treatments have outperformed gypsum, calcium, and compost, delivering faster action, deeper reach, and broader compatibility across soil types.
Secondary Electron Microscopy of Liquid Biochar – showing particle size and available NPK embedded onto the carbon
Paddock trials have so far shown:
Reduced penetration resistance → lower run-off, deeper root growth
Lower drainage potential → less leaching, improved irrigation cycles
Increased retention → more plant-available water
Improved infiltration → greater water harvesting efficiency
In one deep core:
Roots extended to 100 mm, where previously they stopped at 50–60 mm
Moisture reached 200 mm depth, compared to just 80 mm prior to treatment
Core sections of hole 13 (left) and 4 (right). Core from hole 4 shows a root growing at a depth of 100mm where previously it only grew to about 50 to 60mm. Furthermore, moisture is present to the full depth of the core at 200mm compared to 80mm before the treatment
The Technical Breakthrough
With the mechanism now fully defined, the FUTURE SOIL® R&D team has engineered a synergistic system between micronised liquid biochar and colloidal siloxane compounds.
This system forms a charged carbon matrix where:
Biochar stores water, nutrients, and microbial life
Siloxanes reshape aggregation and flow dynamics
Embedded NPK is released gradually with higher uptake efficiency
This is more than a fertiliser, it is a soil regeneration platform that builds:
Deeper root penetration, even in compacted or saline soils
Improved nutrient cycling, with less loss and better synchrony
Subsoil hydration, sustaining crops between irrigations
Biological activation at depth, enabling long-term carbon cycling
These are not surface-level changes, they are deep structural transformations that unlock true regenerative farming.
FUTURE SOIL® does not treat symptoms, it reprograms the soil itself.