Insignum Agtech and Beck’s Collaborate to Help Corn ‘talk’

Apr 28, 2023

By Kyle Mohler

The companies will collaborate to cross the trait into proprietary Beck’s genetics for field-testing in 2023 to evaluate commercial viability of the traits.

Insignum AgTech develops plant genetic traits that enable plants to “talk” and signal to farmers when specific plant stresses begin.

“With this trait, a corn plant generates purple pigment, indicating that a fungal infection has started but is not yet apparent. Additional traits will utilize other natural pigments, such as red or blue, that give an early indication of yield-limiting factors such as insect pests or fertility loss,” said Insignum Ag Tech CEO Kyle Mohler, a Purdue University alumnus. “Farmers will gain the ability to sustainably and precisely treat when and where needed, ultimately increasing yields without arbitrarily increasing costly inputs.”

As Insignum AgTech transitions from research to a commercial development phase, Mohler is pleased to collaborate with Beck’s, the largest family-owned retail seed company and the third-largest seed brand in the U.S.

“Beck’s values technology that helps farmers succeed,” said Tom Koch, research manager at Beck’s. “Insignum’s genetic traits are well aligned with that mission. Farmers can see what their plants need and then respond to improve crop health and yields. We were encouraged by Insignum’s results we saw in field trials last year, and we’re hopeful about this collaboration.”

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Video: Not only is corn getting sweatier, it's getting smarter

Over the past several weeks, much of the U.S. Midwest has experienced prolonged episodes of extreme heat, a trend also observed in other major corn-producing regions of North America such as eastern South Dakota, southern Ontario, and parts of Kansas and Missouri. These high-temperature events can place significant physiological stress on maize (Zea mays L.), which is cultivated on approximately 90 million acres across the United States, with leading production in Iowa, Illinois, Nebraska, and Minnesota. Like all maize, Bayer’s PRECEON™ Smart Corn System is subject to transpiration-driven water loss under high heat. However, this system incorporates agronomic traits designed to improve standability through enhanced stalk strength, thereby reducing lodging risk during stress conditions. Furthermore, the system supports precision agriculture practices by enabling more targeted fertilizer and crop protection applications. This approach not only helps to optimize input efficiency but also contributes to maintaining or increasing yield potential under variable environmental stresses such as heat waves, which are becoming more frequent in corn belt and fringe production regions.