By Janese Heavin
Every year, Missouri farmers lose millions of dollars in valuable nutrients that wash away into rivers and lakes. These nutrients—nitrates and phosphates found in fertilizers—are crucial for plant growth, but they wreak havoc on aquatic life when they end up in waterways.
University of Missouri researcher Matthias Young believes he's found a way to keep the nutrients on land where they belong. He's developing a technique that could lead to new types of sensors to help farmers better measure nitrates and phosphates in the soil, allowing them to use fertilizers more efficiently.
"Nitrates and phosphates released into waterways cause algae blooms that kill fish and hurt tourism in waterfront communities," said Young, an assistant professor of chemical engineering with a joint appointment in chemistry in Mizzou's College of Arts and Science. "Not only that, but farmers don't want nitrates and phosphates washing off their fields. Based on data from the Environmental Protection Agency and the United States Department of Agriculture, an estimated $100 million of fertilizer is wasted every year in Missouri alone. This work helps fish, wildlife, tourism and farmers."
A new path forward
While his team is still working out some kinks, Young's research shows promise for a faster, more reliable and cost-effective way to measure ions such as nitrates in the soil.
That's important because if nitrate levels are low, plants won't get the nutrients they need to grow. But if they're too high, adding more fertilizer is wasteful because excess nitrates will run off into waterways.
Existing devices, known as ion-selective electrodes, can measure nitrates and phosphates, but they're costly and imprecise. One current method requires farmers to collect soil samples and send them to a lab for analysis, which is slow and only represents a small patch of land. Labs have access to more sophisticated sensors that rely on special molecules to bind to and measure ions, but these molecules can run about $10,000
"Farmers are deciding how much fertilizer to deliver, but they're making decisions based on limited information," Young said. "Even the expensive sensors have to be recalibrated frequently, meaning they can't be left in the field."
Young's new design changes the way information is collected.
He and his team are devising a sensor that measures how quickly ions move through a membrane, rather than how strongly they bind to it. Using a pulsed electrical current, these devices are more sensitive and reliable.
Young is consulting with Missouri farmers as he makes progress in hopes of commercializing sensors that are inexpensive and practical.
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