Nasa Harvest and CropX today announced a strategic partnership that will give Nasa Harvest unprecedented soil insights for its global agricultural monitoring efforts. Supporting a more sustainable food ecosystem, together Nasa Harvest and CropX will provide farmers and industry experts with the data and information they need to improve farming sustainability by conserving resources and improving crop yields.
The partnership will further Nasa Harvest’s mission to improve food security and advance sustainable agriculture, supporting farmer productivity while preserving natural resources in the United States and worldwide through the use of satellite data. Combining the power of CropX soil data monitoring, comprehensive insights provided by the CropX ag analytics platform, and Nasa's network of Earth-observing satellites, this partnership will result in delivering critical insights to governments and farmers around the globe in support of informed and science-driven decision making.
“Soil health and nutrient management is at the very root of food security and sustainable agriculture concerns – an accurate understanding of what is actually happening underneath the ground is essential,” noted Nadav Liebermann, CropX chief technology officer. “Satellite imagery has long been an integral part of CropX algorithms, and our partnership with Nasa Harvest will deliver valuable agronomic insights by connecting critical data at different depths underground and from an expansive network of satellites in space. We are looking forward to working with the Nasa Harvest team to improve farming decision-making in both developed and undeveloped regions of the world.”
CropX has implemented strategies across a group of alfalfa farms in Arizona controlled by Integrated Ag Financial (IAF) Investments Group to test and finetune the algorithms that will become the foundation of nationwide, and potentially eventually global, agriculture insights. Over a 12-month time period with the integration of NASA data and international partner agency satellite data, the pilot program will quickly establish the parameters for water usage estimates, yield prediction, soil quality and land usage assessments based on multiple crop growing cycles.