Posts Tagged ‘row crops’

Anatomy of a Corn Plant

Hard to believe these huge corn plants were just tiny seeds only a few months ago.

If you’re like me, and you live in Iowa, chances are you take for granted all the corn fields around you.  Have you ever really considered what goes on from the time the seed corn is planted until it is harvested?  I know I never did, until recent years.  I mean, really, is it not absolutely amazing that one tiny little seed planted just three months ago is now around 8 feet tall and nearly mature?

Little baby corn plants just popping out of the soil.

Have you ever wondered how that happens?  I mean, it is simple biology, so here is your lesson for the day:

Corn seeds are planted in a row no more than 2 inches deep and spaced about 6 inches apart.  The rows are 30 inches away from each other.  Depending on the soil temperature, the corn sprout will emerge anywhere from 3 days to 2 weeks.  As the plant grows over the next several weeks, it will add leaves and begin to develop an ear until it puts out a tassel. The tassel is the bushy top of the corn plant.  At this same time the ear will put out its silk. Both the silk and the tassel are considered part of the flower.

Russell is pointing to the silk. It is called silk because it consists of silky strands that stick out of the top of the ear.

The tassel on top of the plant contains pollen to fertilize the silk, which forms kernels on the ear.

Tasseling and pollination are critical times in corn development.  The tassel contains pollen that must make it to the silk in order to fertilize the plant. Each strand of silk must “catch” a pollen grain from the tassel to form a kernel. So, the number of  pollen grains caught by the silk, equals the number of  kernels formed on an ear.  This determines the yield. Corn plants usually fertilize other corn plants in a field (the silk catches pollen from a different plant).

Russell helping me show a close-up of the tassel.

A corn plant will only release pollen under ideal conditions.  Usually only during a few hours of a day, for a few days.  It can’t be too wet or dry or too hot or cold.  That’s why farmers can be so nervous during the growing season.  So much of their income depends on circumstances out of their control!

After pollination, it is now time for the corn plant to begin forming kernels over the next couple months, called the grain fill period. The kernel goes through a few stages.  These stages are basically based on the moisture content, size, and starch content of the kernel.  Once the kernel is fully formed, and contains about 30 percent moisture, it is considered physiologically mature, or black-tipped.

After the corn is mature, it is essentially dead, and farmers now begin the waiting game for it to dry down.  Ideally, we like to harvest our corn once the kernels are below 20% moisture.  How long it takes for corn to dry varies wildly, but dry corn harvest will usually begin around the second week of October here in Iowa.

Tall green corn and a bright blue sky... a sight to behold for a country girl!

See, fascinating, huh?  This was a hard post to write, as it would be very easy for me to get way too technical.  There is a lot of research and science that goes into field corn production.  Thanks to genetic technology and other advances, today’s farmer feeds 155 people.  That number is double what it was in the 1970’s.  I wonder what farming will be like in another 40 years?


Low Flying Aircraft

An increasing phenomena in Iowa during August has been aerial applied fungicide.  Which means super low flying airplanes and helicopters spraying fungicide on farm fields.  Just yesterday an airplane flew right over us as we were driving.  We used to rush outside when we heard the telltale rumble of a low flying plane to see what in the heck was going on, now it’s old news.  Although it is still fascinating to watch when they are nearby.

Flying unbelievably fast and low!

Fungicide has become more common in recent years for a few reasons.  Planting corn in the same field year after year increases the chances of corn developing a fungal disease.  Some hybrids (or varieties) of corn are also more susceptible.    The weather plays a big role in our decision making process as well.  This year has been incredibly wet and hot…perfect conditions for the corn to develop fungus.  Finally, of course, the checkbook has to allow for it, and this year we had a little bit of credit left over at the co-op so we decided to use it on our fields that were being the most affected by fungal disease.

This was the coolest part. The helicopter actually lands on the truck to refill with fungicide and water.

Since the corn is now way too tall to drive a sprayer through, the only option left to apply the fungicide is by plane or helicopter.  Last week, we had a few of our fields treated with a helicopter.  It is pretty cool to watch, they fly along at about 85 mph, just above the corn, lifting up just in time at the end of the field to avoid power lines.  Here are a couple links to the videos I shot of the helicopter that sprayed our fields :

Helicopter Spraying Fungicide on Corn

Helicopter Taking Off

%d bloggers like this: