Plan to assess corn fields for ear rot and mycotoxin risk

The Ontario Ministry of Agriculture, Food and Rural Affairs has begun sampling grower corn fields to determine ear mould incidence and occurrence of mycotoxins in the grain.

The mycotoxins, particularly vomitoxin (DON) produced primarily by Gibberella earmoulds, can be disruptive when fed to livestock, especially hogs.

Why it matters: The annual survey is designed to assess grower and industry risk.


The survey is supported by the Ontario Agri-Business Association and Grain Farmers of Ontario.

As corn producers plan for harvest they should be scouting their fields for stalk rot and earmould. The distribution and prevalence of these diseases vary from year to year, but they are present every year, especially when the crop is planted late, under stress or if a very susceptible hybrid is planted.

A pre-harvest assessment can alert producers to potential problems and provide time for livestock producers to segregate, obtain alternative grain, or hold onto stored corn from the previous year.

Scouting practices are similar for all corn ear rots. Begin scouting fields at late dent stage to determine the presence and severity of ear rots. A quick method is to select 100 plants across the field (20 ears each from five different areas).

For each ear, peel back the husks and examine the entire ear. Fields with 10per cent of ears having significant mould growth should be harvested sooner.

Leaving diseased grain in the field allows the ear rot fungi to keep growing, which will increase the risk ofmouldy grain and mycotoxin contamination.

Most ear rot fungi continue to grow until the grain has less than 15per cent moisture. In severely infected fields, it may be worthwhile to harvest grain at higher moisture and then dry it to less than 15 per cent to minimize further mycotoxin accumulation. If a field contains a significant level of ear mould, collect a representative sample at harvest and have it tested for mycotoxins before storing the grain or feeding it to livestock. A lab test is often the only reliable way to definitively diagnose an ear rot or mycotoxin.

When ear rot is present, the following storage and feeding precautions are advisable:

• harvest as early as possible;
• if insect or bird damage is evident, harvest outside damaged rows separately. Keep and handle the grain from these rows separately;
• adjust harvest equipment to minimize damage to corn. Clean corn thoroughly to remove pieces of cob, small kernels and red dog;
• cool the grain after drying;
• clean bins before storing new grain;
• check stored grain often for temperature, wet spots, insects and mould growth;
• control storage insects;
• exercise caution in feeding mouldy corn to livestock, especially to hogs. Pink or reddish moulds are particularly harmful. Suspect samples should be tested for toxins.

Gibberella ear rot: The most common and important ear mould in Ontario is caused by Gibberella zeae, which is the sexual reproductive stage of Fusarium graminearium. This fungus also causes FHB in small grains like wheat and can survive on soybean roots. Although the fungus can produce a white-coloured mould that makes it difficult to tell apart from Fusarium Kernel Rot, the two can be distinguished easily when Gibberella produces its characteristic red or pink colour mould.

Infection begins through the silk channel and thus, in most cases starts at the ear tip and works its way down the ear. In severe cases, most of the ear may be covered withmould growth. Corn silks are most susceptible two to 10 days after emerging. Warm and wet weather during this period is ideal for infection.(Figure 1 below).

Fusarium kernel rot: Unlike Gibberella, Fusarium infected kernels are often scattered around the cob among healthy-looking kernels or on kernels that have been damaged, for example, by insects or birds. Fusarium infection produces a white-to pink- or salmon-coloured mould.

A white streaking or star-bursting can be seen on the infected kernel surface. Although many Fusarium species may be responsible for these symptoms, the primary species we are concerned about in Ontario is Fusariumverticillioides. Fusarium survives in corn debris. The significance of this fungus is that it produces a toxin called fumonisin that has been shown to cause cancer (carcinogen) in humans. The environmental conditions that favour disease development are warm, wet weather two to three weeks after silking.(Figure 2 below).

Diplodia ear rot: The characteristic ear symptom of Stenocarpella maydis and S. macrospora infection is a white mould that begins at the base of the ear that can cover and rot the entire ear (Figure 3 below).

Mould growth can also occur on the outer husk, which has small black bumps (pycnidia) embedded in the mould. These reproductive structures are where new spores are produced.

Pycnidia (the small, black, spore-producing structures of the fungus) overwinter on corn residue and are the source of infection for the subsequent corn crop. Dry weather before silking, immediately followed by wet conditions, favor Diplodia infection.