Integrated Crop Management

Grain quality and grain handling issues in drought areas

The continued shortage of rainfall in eastern Iowa has affected both yield and quality for corn and soybeans.

Soybean quality

Soybeans will be small seeded. In some cases, the seeds will be flat or oblong chips rather than developed beans. This situation happened several years ago in a dry year; the term "shrinkled" (shriveled and wrinkled) was coined to describe such soybean seeds. The small seed size relates directly to loss in yield. Areas that received late August rains will have fewer "shrinkled" seeds. Seed beans from drought areas will be small.

The 2005 soybeans from dry areas are likely to be lower than average in protein unless late season rains occurred before the plants started to turn color. Because protein is formed at the end of the growing season, conditions that shorten the growing season reduce protein levels. Normal protein content for Iowa soybeans is about 35 percent, and for the United States as a whole, it is about 35.5 percent. Expect one to two percentage points of protein less in areas where the growing season was shortened. Lower protein means more difficulty in producing 48 percent protein soybean meal, more concerns for export buyers, and more mill-feed (hulls) for a processor to market. Food-quality soybeans with contract limits for protein and seed size may be most affected. Much of the dry area typically serves the export market.

Oil content is likely to be more normal, around 19 percent (on a 13 percent moisture basis). However, oil yields per bushel may be lower from flat and small soybeans because extraction is harder, leaving more residual oil in the soybean meal.

Soybean moisture levels will likely be low at harvest, but stressed grain does not store well. Soybeans above 12 to 13 percent moisture should be dried with aeration.

If bean leaf beetles were prevalent, there may be considerable mottling and brown staining. Discoloration does not affect oil and meal yields, but food-grade soybean users prefer normal-colored beans and have a higher percentage of cleanout from discolored lots.

The impact of aphids on soybean color and quality is not known.

Corn quality

Corn quality is also affected by drought. Protein and other quality traits are determined early in the growing season. Drought reduces kernel fill. Corn protein should be average to above average (8% or better). Test weights will be reduced. If the drought was persistent through the entire season, corn test weights could average 52--54 lb/bu, which is less than the acceptable limits for No. 2 corn.

Test weight is a good indicator of corn storability. Corn that is below 54 lb/bu after drying should not be stored into warm weather and should be dried to less than 14 percent moisture before storage of any duration. Lighter corn also will break more in handling. Corn normally gains 0.25 lb/bu per percent of moisture removed, but drought-stressed corn normally does not experience as much, if any, test weight gain.

Be selective about what corn is placed in storage versus moved at harvest. Low test weight corn should not be put in temporary storages or outdoor piles. It is also not wise to mix corn of different crop years in the same storage bin; the mix is generally much less stable than each year's crop stored separately.

Extreme drought creates susceptibility to aflatoxin in corn. Aflatoxin is produced by the fungus Aspergillus flavus that invades stress-weakened corn in the field.

If nighttime low temperatures in August remain above 75 °F for several days, the fungus is more likely to produce toxin. The earliest harvested, most stressed corn is at the highest risk. It is recommended to spot check 2005 corn in severely dry areas before feeding or marketing. Consult with your veterinarian if you suspect a problem.

Aflatoxin testing by the United States Department of Agriculture is required for all corn exports. Elevators serving river and rail export markets will undoubtedly check corn they receive. Likewise, feed markets serving dairy herds should check because of the potential for pass through into fluid milk. The tolerance for aflatoxin in fluid milk is 0.5 ppb compared to 20 ppb in whole corn. Dry and wet grind ethanol plants must be especially careful because the distillers' grains and corn gluten feed are often used in dairy rations. Processing in these plants concentrates aflatoxin or any other feed toxin about 4:1 in the feed products after starch is fermented or removed.

If corn is dried uniformly, aflatoxin is not likely to increase in storage; storage conditions of 18 percent moisture and above 60 °F are needed to support the Aspergillus flavus in storage, and even then, this fungus is often crowded out by more aggressive storage fungi that do not produce toxins.

The Iowa Grain Quality Initiative website [1] has additional information about aflatoxin and aflatoxin testing.

This article originally appeared on pages 184-185 of the IC-494(23) -- September 19, 2005 issue.

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