More corn in 2013?

decrease font size  Resize text   increase font size       Printer-friendly version of this article Printer-friendly version of this article

Corn Production In the next several months, planting decisions will be finalized, with one of the central question being how much corn will be planted. Herein, the corn versus soybean planting decision for 2013 is examined for high-productivity farmland.

If more corn acres are to be planted in 2013, more corn likely needs to be planted on high-productivity farmland. In most cases, switching to more corn on high productivity farmland means a reduction in 2013 soybean acres. While planting corn is projected more profitable in 2013, a longer run perspective indicates that planting more corn in 2013 may reduce profits in future years.

Single Year Budgets

Budgets for central Illinois farmland with high-productivity are shown in Table 1. These budgets are for the following crop--previous crop combinations having the following yields: corn-after-soybeans with yield of 198 bushels per acre, corn-after-corn with 188 bushels per acre, continuous corn with 180 bushels per acre, soybeans-after-corn with 57 bushels per acre, and soybeans-after-two-years of corn with 59 bushels per acre. Commodity prices represent current bids for fall 2013 delivery: $5.70 per bushel for corn and $12.80 per bushel for soybeans. Non-land costs total $510 per acre for corn-after-soybeans, $525 per acre for corn-after-corn and continuous corn, and $308 per acre for soybeans-after-corn, and soybeans-after-two-years-corn.

More Corn

Note that corn is more profitable than soybeans in all cases shown in Table 1. Operator and farmland returns are $643 per acre for corn-after-soybeans, $571 for corn-after-corn, and $525 for continuous corn while returns for soybeans are $446 for soybeans-after-corn and $471 for corn-after-two-years-corn (see Table 1). The lowest corn return - $525 for continuous corn - is $54 per acre higher than the highest soybean return - $471 for soybeans-after-two-years-corn. Evaluating corn versus soybeans in a one year context suggests planting corn.

Crop in Rotations

Evaluating cropping decisions in a single year context does not consider the impacts of current planting decisions on returns in future years. If, for example, all farmland in 2013 is planted to corn, there will be no possibility of planting corn-after-soybeans in 2014 as there were no soybeans in 2013. Planting soybeans in 2013 allows for a 2014 planting of the most profitable corn crop, corn-following-soybeans.

These sorts of decisions can be evaluated by calculating the profitability of rotations. Profits are calculated for three rotations:

  1. Corn-soybeans rotation. Half the acres are corn and half are in soybeans. Corn follows soybeans and soybeans follow corn.
  2. Corn-corn-soybeans rotation. Two-thirds of the acres are in corn and one-third is in soybeans. Corn follows soybeans on half the corn acre and corn follows corn on the other half of corn acres. Soybeans follow corn.
  3. Continuous corn.

In calculating rotation returns, I assume that a constant rotation has been obtained. This means that all continuous corn acres are in continuous corn and continuous corn returns will be used in calculating continuous corn rotation return. It is possible to have higher returns for all corn if a switch is being made away from soybeans in the previous year (moving from a corn-soybeans rotation to continuous corn).

Rotations returns are:

  • $545 per acre for corn-soybeans rotation (average of $643 return for corn-after-soybeans and $446 return for soybeans-after-corn).
  • $562 per acre for corn-corn-soybeans (average of $643 return for corn, $571 for corn-after-corn, and $471 for corn-after-two-years-corn).
  • $525 per acre for continuous corn.

These rotation returns suggest that the corn-corn-soybeans rotation is the most profitable rotation.

For the corn-corn-soybeans rotation to be more profitable than corn-soybeans rotation, corn-after-corn yields cannot be too far below corn-after-soybeans yields. The above budgets assume that the188 bushel corn-after-corn yield is 10 bushels less than the 198 bushel corn-after-soybeans yield. The corn-soybeans rotation has higher returns than the corn-corn-soybeans rotation if the corn-after-corn yield is below180 bushels per acre. This implies that the corn-soybeans rotation is more profitable if there is an 18 bushel yield drag for corn-after-corn (198 bushel corn-after-soybean yield minus 180 break-even corn-after-corn yield). In this case, this works out to be a 10 percent yield drag.

Continuous corn is not as profitable as corn-corn-soybeans. For continuous corn to have the same profitability as the corn-corn-soybeans rotation, the continuous corn yield has to be 186.5 bushels. This 186.5 bushel yield compares to the budgeted yield of 188 bushels for corn-after-soybeans. Essentially, continuous corn cannot have a yield drag compared to corn-after-corn given the prices, yields, and costs shown in Table 1.

The Choice in 2013

Planting corn in 2013 is projected to be more profitable than soybeans. For example, the corn-after-corn return of $571 per acre is $125 per acre higher than soybeans-after-corn. This $125 difference is large compared to historical differences in returns. Between 2006 through 2011, corn has average $58 per acre more profitable than soybeans on central Illinois high-productivity farmland.

While planting my corn in 2013 may be more profitable, it may require giving up returns in future years, as fewer acres of corn-after-soybeans can be planted in 2014. Which way farmers will go is an open question. In recent years, many farmers have had much worse yield drags for corn-after-corn than those implied by budgets in Table 1. Reports of corn-after-corn having more than 40 bushels lower than corn-after-soybeans are not uncommon. These poorer corn-after-corn yields may cause some farmer to planting more soybeans.


Corn is projected more profitable than soybeans in 2013. Planting more corn in 2013 can result in lower returns in 2014 because fewer acres of corn-after-soybeans can be planted.

Rotation projections in this article are based on budgets in Table 1. Results are sensitive to yield drags for corn-after-corn and continuous corn. Also, farmland of lower productivity generally has less of an advantage in planting more corn. Historically, corn yields rare higher relative to soybean yields on higher productivity farmland. Hence, planting more soybeans on lower productivity farmland than suggested herein may be warranted.

Source: FarmDocDaily

Buyers Guide

Doyle Equipment Manufacturing Co.
Doyle Equipment Manufacturing prides themselves as being “The King of the Rotary’s” with their Direct Drive Rotary Blend Systems. With numerous setup possibilities and sizes, ranging from a  more...
A.J. Sackett Sons & Company
Sackett Blend Towers feature the H.I.M, High Intensity Mixer, the next generation of blending and coating technology which supports Precision Fertilizer Blending®. Its unique design allows  more...
R&R Manufacturing Inc.
The R&R Minuteman Blend System is the original proven performer. Fast, precise blending with a compact foot print. Significantly lower horsepower requirement. Low inload height with large  more...
Junge Control Inc.
Junge Control Inc. creates state-of-the-art product blending and measuring solutions that allow you to totally maximize operating efficiency with amazing accuracy and repeatability, superior  more...
Yargus Manufacturing
The flagship blending system for the Layco product line is the fully automated Layco DW System™. The advanced technology of the Layco DW (Declining Weight) system results in a blending  more...
Yargus Manufacturing
The LAYCOTE™ Automated Coating System provides a new level of coating accuracy for a stand-alone coating system or for coating (impregnating) in an automated blending system. The unique  more...
John Deere
The DN345 Drawn Dry Spreader can carry more than 12 tons of fertilizer and 17.5 tons of lime. Designed to operate at field speeds up to 20 MPH with full loads and the G4 spreader uniformly  more...
Force Unlimited
The Pro-Force is a multi-purpose spreader with a wider apron and steeper sides. Our Pro-Force has the most aggressive 30” spinner on the market, and is capable of spreading higher rates of  more...
BBI Spreaders
MagnaSpread 2 & MagnaSpread 3 — With BBI’s patented multi-bin technology, these spreaders operate multiple hoppers guided by independent, variable-rate technology. These models are built on  more...

Comments (0) Leave a comment 

e-Mail (required)


characters left

Kinze 1500 Grain Cart

The Kinze 1500 Grain Cart is engineered for speed and reliability required of custom harvesters. Load up to 1500 bushels ... Read More

View all Products in this segment

View All Buyers Guides

Feedback Form
Feedback Form