• We use a patent-protected plant + beneficial microbe platform to make soil cleanup reliable, measurable, and deployable across real sites.

  • Most remediation projects fail for three reasons: plants don’t thrive, removal is too slow, and results don’t translate between sites. Our modular approach is designed to solve all three.

1. Keep plants productive on contaminated land

Helps plants establish and keep growing where contamination and poor soil conditions normally limit biomass.

  • Better establishment and resilience

  • Maintains harvestable biomass

  • Enables work on tougher sites

2. Increase removal per hectare

We optimise total removal, because outcomes are driven by biomass × uptake.

  • Higher removal per crop cycle

  • More predictable progress over seasons

  • Better economics for site owners

3. Improve uptake and recovery potential

Tunes metal interactions to improve uptake in real, mixed-metal soils and strengthen the pathway to recovered metal products.

  • Better performance on mixed contaminants

  • More consistent uptake across variable soils

  • Clearer recovery pathway post-harvest

Modules are matched with the right plant choice and agronomy for each site—across contaminants, soils, geographies, and biodiversity requirements.