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Water Stress Affecting Nutrient Deficiency in Corn

Water Stress Affecting Nutrient Deficiency in Corn


The dry conditions that continue to persist over much of Illinois and the Midwest are causing nutrient deficiency problems. Unfortunately, only rainfall will fix some of these problems. University of Illinois Assistant Professor of Crop Sciences Fabián Fernández says he does not recommend foliar or soil application of nutrients. Many cornfields show potassium (K) deficiency even though adequate fertility is present in the soil. One question being asked is: Why is K deficiency showing up in corn more often than any other nutrient deficiency?

“I believe the most likely reason is that, early in development, corn takes up larger amounts of K than of nitrogen (N) and phosphorous (P),” explains Fernández. “Soon after the V12 development stage, corn has already taken up half of all the K it will need.” By the R1-R2 development stages, the plant has taken up all of the K it will need (around 170 lbs. K2O/acre).

In contrast, N and P are taken up until sometime after the dent stage (R5). Unlike N, which moves freely over large distances in the soil solution, P and K can move only a few millimeters at most; thus, when the soil dries out, their position makes them unavailable to the crop.

The reason this happens is that pore space in the soil contains water and air. Plant-available K ions are dissolved in the soil water or attached to soil particles ready to come into solution as the plant needs them. When there is sufficient water in the soil, the K ions dissolved in water have to travel (by diffusion) only a short distance to be taken up by the crop.

As the soil dries out, the pore space fills with air. The K ion has to travel across a larger distance to reach the root because it cannot diffuse through air. Increased diffusion time can cause important reductions in potassium availability to corn during vegetative stages when potassium demands are large.

“Under dry conditions, the soil is unable to keep up with the crop demand even though there might be sufficient K in the soil,” Fernández says.

Phosphorus availability can be limited in a similar way. However, the plant does not have high demands for it over a relatively short period of time as it does for potassium, and the crop needs less P than K (about 80 lbs. P2O5/acre). Thus, the plant is probably still able to obtain enough phosphorus and the crop is less likely to show phosphorus deficiency symptoms.

In the worst case, as the soil dries out, the distance that the K ion has to travel becomes so large that it is not available to the plant. “This is what we are seeing in many fields,” Fernández says. “Even though these fields have adequate K levels, as far as the plant is concerned the nutrient is out of reach.”

While there is nothing that can be done to solve the current drought problems, this year has taught producers a number of important lessons.

“For the future, I recommend that we minimize the effect of drought by ensuring that any water in the soil is protected to be used by the crop,” Fernández says. “This year some farmers have seen firsthand how much water weeds can take up when not treated early in the season.”

Similarly, too much tillage in some situations has caused unnecessary water evaporation from the soil and those fields are running out of water sooner than those that were managed more carefully.

TAGS: Corn
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