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Study: Management zone maps of little use to corn growers

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A multiyear analysis tested whether management zone maps based on soil conditions, topography, or other landscape features can predict which parts of a cornfield respond best to higher seeding or nitrogen application rates.

The study, published in Agronomy Journal, found that — contrary to common assumptions — crop-plot responses to the same inputs vary significantly from year to year. The most unpredictable factor — the weather — seemed to have the biggest impact on how the crops responded to these inputs.

Management zone mapping grew out of a surge in interest in digital agriculture — the use of new data-gathering and analysis technologies to better understand the interplay of factors that contribute to crop yields said the University of Illinois Urbana-Champaign crop sciences professor Nicolas Martin, who analyzed with former U. of I. postdoctoral researcher Carlos Agustin Alesso.

Such approaches use field-based sensors, satellite data, and other digital tools to track how crops respond to local conditions, fertilizer, seed rates, and other inputs. Martin said the goal is to minimize wasteful or destructive practices while maximizing yield.


The new study used an unusual approach to test management zone map predictions

“We used our farm equipment as a printer, creating a patchwork of inputs like a quilt with different colors,” Martin said. “We printed our experiment on multiple sites, using a completely randomized design.”

The researchers conducted the work on seven typical non-irrigated Illinois corn production sites, each of which was subdivided into hundreds of plots. Each plot received a randomized rate of corn seeding and nitrogen application. Each plot also had its soil composition, topography, and other site-specific landscape features measured. All other variables except weather were standardized across the fields. The trials took place from 2016 to 2021.

By measuring the yield of each plot during harvest over multiple years, the researchers determined which plots were the most responsive to inputs each year. They used an advanced random forest algorithm to decide which factors — weather conditions, soil characteristics, or slope, for example — best predicted whether higher nitrogen application or a higher seeding rate would improve yields.

“We found that weather variables are the most important factors determining the spatial patterns of response to the nitrogen rate or the seed rate, followed by landscape and soil attributes,” Martin said. “We also found that the responses vary yearly depending on the weather effects. They are very inconsistent, at least in the fields we tested.”

He said that a plot that responds well to a higher nitrogen rate one year might not respond so well the next time it is planted in corn. This makes the management zone mapping concept an unreliable predictor of crop responses to inputs.

“We think that these findings can explain in part why precision agriculture technologies have been unevenly adopted by farmers,” Martin said.

The researchers believe more multiyear data and better on-site sensor and analysis tools can eventually improve the predictive ability of management zone mapping.

»Related: Corn-colonizing fungus may help repel disease, grow larger

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