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K-State Agronomy eUpdates

Department of Agronomy

Kansas State University

1712 Claflin Rd.

2004 Throckmorton PSC

Manhatan, KS 66506

785-532-6101

agronomy@ksu.edu

Extension Agronomy

Aflatoxin in corn: A potential concern in dry years

Aspergillus ear rot is being found at levels not seen since 2012. As a result, aflatoxin is likely to be a problem again this year on drought-stressed corn in Kansas. Aflatoxin, produced by the fungus Aspergillus flavus, is a greenish-yellow, dime- to quarter-sized mold that grows on corn ears between the kernels (Figure 1). In severe cases, the mold may cover much larger portions of the ear (Figure 2).

Figure 1. Aspergillus ear rot colony. Photo by Doug Jardine, K-State Research and Extension.

Figure 2. Severe case of Aspergillus ear rot. Photo by Doug Jardine, K-State Research and Extension.

It tends to be favored by hot, humid, and droughty conditions and for that reason, is more often found in eastern Kansas rather than in the less-humid western counties.

Most elevators now use one of several commercial quantitative tests that can be performed in a very short period of time right at the point of delivery, rather than the outdated black light method. Samples testing at less than 100 parts per billion (ppb) are usually accepted without penalty. Levels over 100 ppb may be docked a percentage or not accepted at all.

The FDA has established 20 ppb or higher as the level deemed unsafe for human consumption. However, buyers of corn for consumption by humans or pets typically have much more stringent standards and may require levels to be 10 ppb or less. Ethanol plants may also refuse aflatoxin contaminated grain since the toxin is heat stable and can concentrate as much as three- to four-fold in the distiller’s grains. Aflatoxin contaminated corn at any level should not be fed to lactating dairy cows because it can be passed through to the milk.

At 20 to 100 ppb, corn can still be fed to breeding cattle, swine, and mature poultry. Grain testing at 100 to 200 ppb can be used for finishing swine over 100 pounds and for beef cattle. For levels between 200 and 300 ppb, uses are limited to finishing beef cattle only.

Grain with aflatoxin levels higher than 300 ppb cannot be used as feed unless it has been cleaned or blended to safe levels. Blended corn can only be used for direct feeding on the farm where it is blended. It cannot be sold unless a specific blending exemption from the FDA is granted, such as occurred during the 2012 outbreak.

Drought stressed corn harvested for silage may also contain aflatoxin. Producers wishing to have silage tested for aflatoxin can do so through the Veterinary Medicine Diagnostic Lab at the University of Missouri. See their website at http://www.vmdl.missouri.edu/services.html for information on pricing and sample submission.

Once the fungus is detected in grain, the affected corn should be separated from “sound” corn and extra care used in cleaning bins that held contaminated corn.

Producers can reduce the incidence of aflatoxin and other mycotoxins after harvest by taking the following precautions: 

  • Harvest when moisture content allows minimum kernel damage (24 to 26 percent).
  • Adjust equipment for minimum kernel damage and maximum cleaning.
  • Dry shelled grain to at least 15 percent moisture, 24 to 48 hours after harvest.
  • Dry grain to below 13 percent moisture for long-term storage.
  • Cool the grain as quickly as possible after drying to 35 to 40 °F, realizing that with current weather conditions, this is not feasible.
  • Aerate and test for "hot spots" at one- to four-week intervals during the storage period.

 

Doug Jardine, Extension Plant Pathologist, K-State Research and Extension.
jardine@ksu.edu