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Drone Shot of basalt deployment

Transparency

Carbon removal you can verify

matiC is our digital MRV platform that tracks every ton of carbon, from quarry to credit, by integrating field, lab, and logistics data, into a single auditable chain of custody across thousands of farms and deployment sites.

Every credit carries a unique digital fingerprint, giving buyers full visibility into what they are purchasing.

Hand holding basalt

Mati's ROBUST MRV

The world’s most precise
farmer-first ERW system

Mati customizes ERW deployments for each farm: testing soils, tailoring dosage, and tracking every application through our digital MRV platform. Independent validation by Isometric, Puro.earth, and BeZero ensures the integrity and durability of every ton removed.

Chain of custody

Tracking
Logging
Analysis
Accounting
Verification
Quarry & Logistics Tracking
Each basalt batch is assigned a unique ID at the quarry.
Tracked through transport, storage, and field delivery.
Real-time logistics logs ensure chain integrity.
Field Deployment Logging
GPS-tagged field boundaries and farmer IDs.
Application dates, rates, and field photos.
Deployment events supervised by on-field staff.
Sampling & Lab Analysis
Baseline and post-deployment soil, water, and biomass sampling.
Lab-tested for elemental composition using ICP-MS.
Results directly linked to specific sample IDs in MatiC.
Modeling & Carbon Accounting
Outputs: verified tonnes of CO₂ removed
Verification & Credit Issuance
Data packets exported for third-party verification by Isometric and Puro.earth.
Credits only issued once field data, lab results, and model outputs verified.

Monitoring, Reporting, and Verification (MRV)

Field-Based Chemistry,
Full-Chain Accountability

High-Precision Field Measurement

Mati measures CO₂ removal using direct field-based geochemistry, not proxies or assumptions.

Samples on the field

Advanced Soil &
Laboratory Analysis

We quantify basalt weathering through advanced soil analysis using Inductively Coupled Plasma Mass Spectrometry (ICP-MS), detecting precise shifts in key elements (Ca, Mg, Si) after application. These measurements allow us to calculate the mass of basalt weathered and the resulting CO₂ drawdown using established stoichiometric relationships.

Scientist in lab

Quantified CO₂ Drawdown

Our MRV follows a cradle-to-grave framework. We model the fate of bicarbonate produced during weathering—tracking dissolved inorganic carbon from soils into rivers, aquifers, and ultimately the ocean, where it is stored for millennial timescales.

Lab process

Cradle-to-Grave Carbon
Fate Modeling

Result: Every carbon credit is anchored in field data, lab-verified chemistry, and transparent long-term fate modeling.

Samples in lab