Corn pollination is well underway and is one of the most critical times in corn development. Pollination is the biggest factor on the size of yield.
Corn plants have both male and female flowers. The tassel represents the male flower. When tassels emerge, they produce a spikelet, which then grows anthers that contain pollen. A single corn plant can produce 2 to 5 million pollen grains. Natural field variability causes pollen shedding to occur over a 10 to 14-day period. Peak pollen shed is usually mid-morning, but a wet anther will not shed its pollen. Weather that is cooler, cloudy or humid will delay pollen shed, and shedding will not occur during rainy conditions. Pollen can travel more than 500 feet but the majority of pollen shed only moves 20 to 50 feet.
The silks that emerge from an ear shoot are the functional stigmas of the female flower. Once the pollen is released from the anthers, it is transferred by wind or insects to the silks. Every potential kernel (ovule) on an ear develops its own silk. Once a grain of pollen lands on a silk, fertilization of the ovule occurs within 24 hours. Silks are receptive to pollen grains anywhere along the length of the silk. Each silk needs to be pollinated to actually develop a kernel. Silks have a high-water content and are sensitive to drought stress for 10 to 14 days before silk emergence. Drought stress can delay silk emergence. Silks are viable for approximately 10 days.
Checking for pollination success
It is a pregnancy test of sorts. Visible signs of kernel fertilization can take several days to detect. One of the earliest detection methods is to determine if the silks are still attached to the kernels. Silks attached to the ovule have not been fertilized. Carefully cutting and removing the ear husks followed by a gentle shaking will allow you to see if a silk is attached to its ovule. This method can be used to give a general idea of how far along pollination is.
Once the corn reproduction staging has reached the blister (R2) stage, you can cut or peel back the ear husks to see how many kernels are expanding as they fill with water and carbohydrates. This is really the earliest time that the number of kernels per ear can be visually determined. Are we having sextuplets times 100?
The number of kernel rows (ear circumference) is one good estimate of yield. Ears that have 16, 18 or 20 kernel rows are would be considered high yielding for the given environment at approximately V5 to V7. For each 2-row reduction in kernel rows it equates to an approximate loss of 25 bu/acre. The length of the ear (number of kernels per row is also an indicator of environmental conditions from V7 to blister stage. Typically, it is desirable to see 35 to 40 kernels per row. For every reduction of 5 kernels per row there is an approximate reduction of 30 bu/acre. If the number of kernel rows or kernels per row equal more than 550 kernels per ear, this typically results in greater than 200 bu/acre yields.
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