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Striped corn leaves are causing concerns among producers.

June 14, 2021

5 Min Read
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Iowa State University (ISU) Extension and Outreach field agronomists have been receiving phone calls and texts about striped corn leaves this past week. There are many reasons for striped corn, and the cause of light green, whitish, or yellowish stripes sometimes is not obvious. Here is a review of some of the reasons for striped corn and also methods to distinguish what might be causing the stripes. 

Genetic Striping

Some hybrids are prone to genetic striping and is the most likely cause of what people are seeing (Photo 1). This condition usually shows up on scattered plants in a field and tends to disappear over time. There is no cause for alarm, nor is there anything that can be done to mitigate this condition. 

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Nutrient Deficiencies

Zinc, sulfur, magnesium and manganese deficiencies can all lead to striping in corn, and with mild deficiency, it is often difficult to distinguish among them without soil and/or plant analysis and side by side comparisons. The following discussion is adapted from Extension publication IPM42, Nutrient Deficiencies and Application Injuries in Field Crops and other information is included in the nutrient topic section, Secondary and Micronutrients, of the Soil Fertility web site. Additional nutrient deficiency photos can be found in IPM42 and in the photo gallery of the Soil Fertility web page. 

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Zinc deficiency in corn is characterized by interveinal chlorosis and white bands that extend from the base of the leaf toward the tip. The leaf margins, midrib and leaf tip usually remain green (Photo 2). Plants will be stunted due to shortened internodes. Most plants will outgrow zinc deficiency. Zinc deficiency is not common in Iowa, but it can be found in soils that receive no manure, are calcareous (pH higher than 7.4), coarse textured, are very cool and wet, and with a very high phosphorus fertilizer application rate (around 200 lb P2O5/acre or higher) only with low or marginal zinc availability. ISU does provide micronutrient recommendations for zinc on corn and sorghum based on soil testing. See Table 15 of PM 1688, A General Guide for Crop Nutrient and Limestone Recommendations in Iowa.

 

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Sulfur deficiency is commonly seen in corn leaves during early and middle growth stages. Generally, the corn has a yellowish cast and interveinal chlorosis of the youngest leaves may occur because sulfur is not easily translocated in the plant. At early stages stripes sometimes do not develop and symptoms are confused with nitrogen deficiency. Plants may grow out sulfur deficiency as soil temperatures and moisture conditions improve, allowing for sulfur mineralization in the soil. Sulfur deficiency can occur on acid sandy, low organic matter and eroded soils as well as in cold and dry springs such as this year (Photo 3). Crop 3072, Sulfur Management for Iowa Crop Production, is a good reference for sulfur use in crops.

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Magnesium and manganese deficiencies in corn have not been well documented in Iowa. Deficiencies are commonly seen in states with soils having much higher calcium or potassium levels than in Iowa, with acidic, coarse-textured soils, and for manganese also in organic (muck and peat) soils. Striping by magnesium and manganese often show similar deficiency symptoms, which are generally characterized by yellow to white interveinal chlorosis. An important distinction is that since magnesium is highly mobile in the plant, symptoms show mainly in older leaves (Photo 4). However, manganese is immobile so symptoms tend to show in young and upper leaves. With extreme deficiency of magnesium older leaves may appear “beaded” due to round dead spots and may become reddish-purple with necrotic leaf tips and margins.

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Boron deficiency in corn has not been verified in Iowa.  We include this note because there have been many phone calls this spring pointing at boron deficiency as a cause of striping in corn.  Boron deficiency is characterized by brittle leaves, small dead spots in leaves that sometimes merge into stripes, and upper stalk internodes that do not elongate normally. In other states, boron deficiency is found in dry soils, sandy soils low in organic matter and calcareous high-pH soils. 

Herbicide damage

We often see herbicide carryover issues in dry years that can impact corn and cause striping.  Late applications of fomesafen can cause veinal chlorosis (actually whitening of the veins) not interveinal chlorosis as mentioned above, plus the midrib will exhibit a pinkish-red color.  The leaves may become floppy due to loss of integrity of the midrib.  Plants can recover from this injury, but at times there can be stand loss depending on the severity of the carryover. See Photo 5.  A good discussion of factors that lead to this type of injury can be found in a recent ICM article, Fomesafen Carryover to Corn, by Meaghan Anderson. 

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Summary

When crop foliage shows abnormal symptoms, often it is difficult to distinguish the cause with certainty because deficiency (or toxicity) of several nutrients, diseases, or herbicide damage sometimes produce similar effects. Nutrient deficiency or toxicity may be identified by sampling and testing soil and plant tissue (ideally both) from normal and abnormal field areas and comparing test results. There will always be some degree of uncertainty, however, because for some nutrients there are no reliable calibrations to interpret the test results.

Source: Iowa State University which is solely responsible for the information provided and is wholly owned by the source. Informa Business Media and all its subsidiaries are not responsible for any of the content contained in this information asset. 

 

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