WE FIND
A SOUL OF SOIL
PRODUCING GRANULAR AND ACCURATE SOIL NUTRIENTS MAPS
Market-disruptive high-resolution soil intelligence for smarter fertilisation and sustainable farming driven by the proprietary
"see-inside-the soil" AI-powered radar
Soil degradation: the silent crisis
Agricultural soil is one of the main treasures of humankind. After thousands years of intensive use, soil in most parts of the world is exhausted and depleted of nutrients. According to the latest UN-backed report, 24 billion tons of fertile soil is being lost every year, largely due to unsustainable agriculture practices.
Soil fertility can differ drastically across the same field. As a result, current (flat rate) fertilisation is both expensive and inefficient. Some parts of the field are getting too much fertiliser and others suffer from lack of nutrients. Non-absorbed fertilisers pollute groundwater, kill fish and destroy a fragile ecological balance of our planet.
Differentiated fertilisation could solve the uneven soil nutrients distribution problem, but a potential of automatic fertiliser spreaders is not fully realised due to the lack of granular and accurate soil nutrients maps.
The EU "Farm to Fork" strategy – one of the central pillars of the European Green Deal aims to reduce the use of fertilisers by at least 20% by 2030!
Our Solution
What We Do
We are going to revolutionise soil analysis by keeping it non-invasive, but at the same time laboratory-level accurate, fast and widely accessible. Our ultimate goal is to provide farmers all over the world with granular and accurate soil nutrients maps for their fields.
Our designated sensors collect topsoil data. Our AI-powered software processes it and generates detailed maps of multiple soil parameters helping farmers to make optimal fertilisation decisions.
With Mappping Soil technology farmers would be able to reduce ecological pressure on soil, increase their yields and profits and ensure long-term sustainability of their business
Key Benefits
-
Optimisation of fertiliser use and reduced input costs
-
Fast identification of soil variability
-
Soil analysis at any crops growing stage and through most of the year
-
Large covered area (~30 ha per unit per day)
Accuracy of the soil analysis lab with the scaling of aerial imaging!
Our Technology
How It Works
1. Operator uploads the pre-generated flight plan to the UAV control system
2. UAV traverses the field; sensors collect spectral data directly from the soil
3. The data is uploaded to the cloud-based data processing and analysis platform
4. A set of detailed soil parameters maps "a field atlas" is generated (nutrients, pH, SOM, moisture, etc.)
Output & Integration
GIS-compatible maps: each colour-map corresponds to the level of the individual parameter measured across the field starting from dark blue (very low) to dark red (very high).
Parameters measured: N, P, K, Mg, Ca, organic matter, temperature, moisture, pH, electric conductivity
Measurement depth: ~20 cm
Spatial resolution: 100 m² (10×10 m)
Expected accuracy: not less than 90% for macro-nutrients (NPK), sufficient for certification and accreditation as a soil analysis lab in accordance with the ISO 17025
Navigation of autonomous fertiliser spreaders: automatic motion plan generation
Data recording and additional use: API/export options
Use Cases
Differentiated (Precise) Fertilisation
Farmers and agronomy service providers can use high-resolution soil maps to identify nutrient variability across their fields at a resolution of 100 m² (10×10 m). Based on this data, they can generate variable fertiliser rate application maps and directly program fertiliser spreaders. This enables precise, site-specific fertiliser dosing, reduces input costs and improves nutrient use efficiency through integration with modern precision farming machinery.
Regular Soil Health Monitoring and Groundwater Pollution Risk Estimation
Agronomists, cooperatives, and environmental agencies can run periodic soil scans to monitor changes in soil parameters over time. These dynamic maps will help to identify zones with nutrient accumulation or depletion, as well as areas with higher risk of unabsorbed nutrients leaching into groundwater. This enables early intervention and supports compliance with environmental regulations. Regular soil monitoring will provide all stakeholders with data-driven rationale for sustainable land management decisions.
Carbon Farming and Sustainability Tracking
Farmers, carbon project developers, and sustainability campaigns and initiatives can use soil maps to track indicators related to soil organic matter and carbon content. Mapping Soil technology enables spatial monitoring of changes over time, providing soil carbon intelligence and supporting carbon sequestration verification. This helps quantify the impact of regenerative practices and supports participation of farmers in carbon credit schemes. It also provides reliable and transparent data for ESG reporting.
Soil Intelligence for ESG Planning and Policy Decision-Making
Government bodies, international organisations and agencies (e.g. FAO), and agri-industry stakeholders can use aggregated soil maps to build a high-resolution “soil atlas” at regional or national level. Such atlases support evidence-based planning of fertiliser production, warehousing and distribution, short- and long-term yield projections, and targeted subsidy allocations. The data enables better risk assessment related to soil degradation, nutrient imbalance, and food security. The approach strengthens ESG reporting, policy design, and sustainable resource management at scale.
Our ESG Сommitment
SDG 2 – Zero Hunger
Our technology supports sustainable agricultural intensification by enabling precise fertilisation based on high-resolution soil data. This helps farmers increase yields while maintaining soil fertility and avoiding overuse of fertiliser. By improving nutrient efficiency, crops can be produced with lower nitrate accumulation, contributing to safer and higher-quality food. The approach supports long-term productivity of agricultural land.
SDG 13 – Climate Action
Our technology supports climate-smart agriculture by improving nutrient use efficiency and reducing unnecessary fertiliser application. This can lower greenhouse gas emissions, particularly nitrous oxide (N₂O), associated with over-fertilisation. In addition, monitoring of soil organic matter provides insights into soil carbon dynamics. This helps farmers adopt practices that contribute to carbon sequestration and climate change mitigation.
SDG 6 – Clean Water and Sanitation
By optimising fertiliser use, our technology helps preventing unabsorbed nutrients from leaching into groundwater and destroying sources of drinking water for humans and animals. Regular monitoring of soil conditions enables early identification of areas with higher risk of groundwater nitrate and phosphate pollution and better protection of water resources.
SDG 15 – Life on Land
Our high-resolution multi-parameter maps support sustainable land management and help to prevent soil degradation. By supporting balanced fertiliser application, our technology contributes to maintaining soil biodiversity and ecosystem health. It supports continuous development of soil data systems for long-term soil monitoring on all levels from the individual farm to the national governments and international agencies. This helps protect terrestrial ecosystems and promotes sustainable agriculture.
Contact us
