Science-Driven Solutions

Harnessing AI to predict soil metabolism for sustainable agricultural practices and resilient crop production.

A vast agricultural field with rows of freshly tilled soil in the foreground, extending into the distance. Two figures wearing hats are working in the field. The background features lush green hills, partially covered with trees, under an overcast sky.

Three agricultural machines are evenly spaced across a vast, lush green field, likely a crop such as corn or maize. The machines are equipped with sprayers and appear to be engaged in agricultural work, perhaps spraying fertilizers or pesticides. The rows of crops are neatly aligned, creating a pattern that emphasizes the scale and organization of the farmland.

Soil Metabolism Insights

Unlocking the secrets of soil microbiomes to enhance plant health and agricultural sustainability through advanced analytics.

Sustainable Agriculture

Developing innovative technologies to restore soil organics and health to ensure food security in a changing climate.

Designing Targeted Organic Soil Supplements to Improve Soil Metabolism for Sustainability

At Prosper Ag, we leverage novel measurement technologies, AI and metabolic models to understand the feedbacks between plants, microbes, and soil organics. This enables us to predict which organic supplements are needed to restore soil functions needed to support resilient soil and plant health.

Young green plants sprout from the soil, with black irrigation tubes running along the ground. The scene is sunny and vibrant, suggesting a thriving agricultural area. In the background, there is a blurred image of a person standing, possibly a farmer, and a clear blue sky above.

By focusing on foundational science, generalizable models, and molecular diagnostics, we are developing a platform that can be applied to diverse crops worldwide.

Generalizable approaches

Innovation

Harnessing soil metabolism for sustainable agriculture solutions.

Sustainability

Resilience