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Weather at key growth stages predicts US Midwest corn yield and grain quality

Grain Central March 14, 2019

CORN is planted on approximately 36 million hectares across the United States every year.

With all that data, it takes months after harvest for government agencies to analyse total yield and grain quality.

Scientists are working to shorten that timeline, making predictions for end-of-season yield by mid-season.

However, fewer researchers have tackled predictions of grain quality, especially on large scales. A new University of Illinois study starts to fill that gap.

The study, published in Agronomy, uses a newly developed algorithm to predict both end-of-season yield and grain composition – the proportion of starch, oil, and protein in the kernel – by analysing weather patterns during three important stages in corn development.

Importantly, the predictions apply to the entire Midwest corn crop in the United States, regardless of corn genotypes or production practices.

Average corn grain quality across the US Midwest, with red areas showing the highest-protein levels graduating to purple, showing the lowest protein but highest yields. (Photo: Carrie Butts-Wilmsmeyer, University of Illinois)

“There are several studies assessing factors influencing quality for specific genotypes or specific locations, but before this study, we couldn’t make general predictions at this scale,” University of Illinois Department of Crop Sciences research assistant and co-author of the study, Professor Carrie Butts-Wilmsmeyer, said.

As corn arrives at elevators across the Midwest each season, the US Grains Council takes samples to assess composition and quality for their annual summary reports, which are used for export sales.

It was this comprehensive database that Butts-Wilmsmeyer and her colleagues used in developing their new algorithm.

“We used data from 2011 to 2017, which encompassed drought years as well as record-yielding years, and everything in between,” University of Illinois Department of Crop Sciences principal research scientist and co-author, Juliann Seebauer, said.

The researchers paired the grain-quality data with 2011-2017 weather data from the regions feeding into each grain elevator.

To build their algorithm, they concentrated on the weather during three critical periods – emergence, silking, and grain fill – and found that the strongest predictor of both grain yield and compositional quality was water availability during silking and grain fill.

The analysis went deeper, identifying conditions leading to higher oil or protein concentrations– information that matters to grain buyers.

The proportion of starch, oil, and protein in corn grain is influenced by genotype, soil nutrient availability, and weather.

But the effect of weather isn’t always straightforward when it comes to protein.

In drought conditions, stressed plants deposit less starch in the grain. Therefore, the grain has proportionally more protein than that of plants not experiencing drought stress.

Good weather can also lead to higher protein concentrations. Plenty of water means more nitrogen is transported into the plant and incorporated into proteins.

In the analysis, “above-average grain protein and oil levels were favoured by less nitrogen leaching during early vegetative growth, but also higher temperatures at flowering, while greater oil than protein concentrations resulted from lower temperatures during flowering and grain fill”.

The ability to better predict protein and oil concentrations in grain could influence global markets, considering the growing domestic and international demand for higher-protein corn for animal feed applications.

With the new algorithm, it should be theoretically possible to make end-of-season yield and quality predictions weeks or months ahead of harvest simply by looking at weather patterns.

“Other researchers have achieved real-time yield predictions using much more complex data and models. Ours was a comparatively simple approach, but we managed to add the quality piece and achieve decent accuracy,” Butts-Wilmsmeyer said.

“The weather variables we found to be important in this study could be used in more complex analyses to achieve even greater accuracy in predicting both yield and quality in the future.”

Source: University of Illinois College of Agricultural, Consumer and Environmental Sciences

The article, “Weather during key growth stages explains grain quality and yield of maize,” is published in Agronomy [DOI: 10.3390/agronomy9010016]. Authors include Carrie Butts-Wilmsmeyer, Juliann Seebauer, Lee Singleton, and Frederick Below. Financial support for the work was provided by USDA NIFA, the Illinois Agriculture Experiment Station, as well as the US Grains Council.

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