UF/IFAS researchers deploy drones to perfect nutrient rates

The ability to detect crop nutrient deficiencies and promptly modify fertilizer application to address them is invaluable to agricultural producers — especially growers operating under slim profit margins. Identifying how much of a particular nutrient to add, however, is a balancing act. A UF/IFAS research project underway endeavors to remove the guesswork by providing growers with site-specific data.

Lakesh Sharma
Lakesh Sharma

UF/IFAS Best Management Practices Lab coordinator Lakesh Sharma leads a team of researchers using drones to develop algorithms that estimate nutrient application rates for optimal crop yields. They are within months of finalizing results related to the nitrogen needs of corn and cotton.

“In the near future, growers will be able to use sensors to detect how much nitrogen is present in plant leaves and, based on our algorithms, calculate how much additional nitrogen is needed by their crops,” said Sharma, assistant professor of soil fertility and sustainable agriculture.

Establishing optimum rates for nitrogen is important because nitrogen is a mobile nutrient easily displaced by water, soil, gases and other factors.

It’s also a costly commodity.

“If farmers apply too much, it cuts into their profit margins,” Sharma said. “But they’re also mindful that if they apply less than what is needed, they could go out of business due to yield losses.”

Sharma’s study is one facet of the UF/IFAS Nutrient Management Program, a suite of state-funded research projects updating decades-old nutrient application recommendations for Florida crops. The new rates are meant to deliver crop yields of the highest quality and quantity while minimizing adverse environmental effects.

Sharma is developing his algorithms using the Normalized Difference Vegetation Index (NDVI), an established predictor of plant health. NDVI values are a ratio of the red wavelengths and near-infrared wavelengths reflected by plant leaves. Values range from -1 to 1, with low, negative values indicating water or clouds, 0 indicating bare soil and high, positive values indicating lush vegetation.

NDVI map
Normalized Difference Vegetation Index (NDVI) map for corn in Live Oak. (Courtesy of Ayush Sharma)

Using a multispectral sensor mounted to a hexacopter drone, Sharma’s team collected NDVI data from small plot trials at three UF/IFAS properties: the North Florida Research and Education Unit – Suwannee Valley in Live Oak; the Plant Science Research and Education Unit in Citra; and the Hastings Agricultural Extension Center in Hastings. The results are aerial maps with swaths of neon colors corresponding to NDVI values. The team’s algorithms connect a nutrient application rate with each NDVI value.

By allowing the algorithms to direct nitrogen application amounts and by applying fertilizer throughout the growth cycle, Sharma’s team has achieved a nitrogen efficiency rate above 60% — about 15% higher than the national average and 20% higher than the global average.

Although the research continues, Sharma is already working through UF/IFAS Extension offices to share what he’s learned about precision agriculture tools like drones, NDVI sensors and NDVI-derived algorithms with growers. Through demonstrations, growers are learning how to replicate his results. He imagines a future in which they can rely on data gleaned from a sensor in the sky to direct GPS-mounted tractors applying precise amounts of fertilizer through variable-rate nozzles.

“We are making growers aware of this technology and exposing them to it as much as possible, so they can understand how it works and how they can benefit from it,” Sharma said.

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ABOUT UF/IFAS
The mission of the University of Florida Institute of Food and Agricultural Sciences (UF/IFAS) is to develop knowledge relevant to agricultural, human and natural resources and to make that knowledge available to sustain and enhance the quality of human life. With more than a dozen research facilities, 67 county Extension offices, and award-winning students and faculty in the UF College of Agricultural and Life Sciences, UF/IFAS brings science-based solutions to the state’s agricultural and natural resources industries, and all Florida residents.

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Megan Winslow
Posted: January 13, 2025


Category: Agribusiness, Agriculture, Crops, Farm Management, UF/IFAS
Tags: Algorithm, Ayush Sharma, Best Management Practices Lab, BMP, Citra, Corn, Cotton, Crop, Drone, Environmental, Extension, Fertilizer, Grower, Hastings, Hastings Agricultural Extension Center, IFAS, Institute Of Food And Agricultural Sciences, Lakesh Sharma, Megan Winslow, NDVI, Nitrogen, NMP, Normalized Difference Vegetation Index, North Florida Research And Education Unit, Nutrient, Nutrient Management Program, Plant Health, Plant Science Research And Education Unit, Producer, Recommendation, Research, Soil Fertility, Soil Water And Ecosystem Sciences, Sustainable, Suwannee Valley, UF, UF/IFAS


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