Corn yield growth depends on new production practices
Increasing plant population density will be critical to growing yields in U.S. corn production, but increasing this density will be dependent on the economics farmers face as they seek to increase yields, according to a new report released by researchers at the Rabobank International Food & Agribusiness Research and Advisory (FAR) group. The report, titled “Crowding The Fields,” finds it likely we’ll see one to two years of stagnant plant population growth due to high input costs and dry soils in the U.S.
“Corn Yield growth in U.S. is reaching a key milestone as the trend of increasing plant population per acre is challenged by limitations of the current production processes,” notes Sterling Liddell, Vice President with the Rabobank Food & Agribusiness Research and Advisory group. “We know the confines of current equipment and production techniques will eventually challenge the ability of U.S. farmers to sustain historic yield growth trends. Trends our global population is demanding. ”
The report finds the key areas where future problems are becoming measurable in more dense plant populations include: A lack of adequate precision in planting equipment, fertilization practices which can encourage non-uniform plant growth, and insufficient spacing for root systems to develop. Each of these factors alone present serious challenges to long term growth in the corn yield curve. However, taken together, these obstacles are capable of severely restricting yield growth potential over the long term.
“Changes in production methods take place gradually,” says Liddell. “As these changes are being implemented, growers continue to be keenly aware of increasing input costs and land values, making each decision more and more critical to maintaining a profitable operation.”
Much of the equipment needed to drive the industry toward structural change exits. The bottle neck for increasing corn yields rests more on farm economics driving change rather than the technology requirement to produce at more dense population levels.
In addition, the report finds a shift toward spring nitrogen application will create additional demand for urea. Specialty fertilizers, particularly nitrogen extenders, are likely to see increased demand as farmers attempt to make nutrients more available throughout the growing season. In addition, decreased plant-to-plant spacing will necessitate increased precision in planting equipment