Editor’s Note: This is an excerpt from Acres U.S.A. original book, How to Grow Top Quality Corn, written by Dr. Harold Willis. Copyright 1984, 2009, softcover, 58 pages. BOTW price: $8.00 ($12.00 regularly priced.)
By Dr. Harold Willis
So you want to grow top quality corn. Where do you begin?
Soil. The very most basic thing for growing really good crops is good soil. Soil that is not only high in fertility, but is alive with beneficial organisms. The ideal soil for growing corn is deep (six or more feet), medium-textured and loose, well-drained, high in water-holding capacity and organic matter, and able to supply all the nutrients the plant needs. Of course, not everyone has the perfect soil, and corn isn’t so fussy that it can’t do well on less than ideal soil. But I will show you how to build up your soil so that you can grow much better corn.
Climate. Corn does best with warm, sunny growing weather (75–86° F), well-distributed intermittent moderate rains, or irrigation (15 or more inches during the growing season), and 130 or more frost-free days. The U.S. corn belt has these soil and climatic conditions.
Humus. Even if the weather isn’t ideal, a good, living soil with high humus content will often make the difference between a good crop and disaster, for humus allows soil to soak up considerable moisture and hold it for dry periods. It is often the case that one farmer who has been building up his soil will have lush, green crops in a drought year, while his neighbor’s crops have burned up.
Soil parts. An average, good soil should contain nearly one-half mineral particles, one-fourth water, one-fourth air, and a few percent organic matter. The minerals supply and hold some nutrients and give bulk to the soil. Water is necessary for plant growth and for the soil organisms, but not too much or too little. Air (oxygen) is needed by roots and beneficial soil organisms. Organic matter (humus and the living organisms that produce it) is a storehouse of certain nutrients, holds water, gives soil a loose crumbly texture, reduces erosion, buffers and detoxifies soil, and even helps protect plants from diseases and pests because of antibiotics and inhibitors produced by beneficial bacteria and fungi. Some of these friendly microbes also produce plant growth stimulators, others help feed nutrients directly to roots, and others trap (fix) nitrogen from the air—free fertilizer. Continue Reading →