Spring rain in cornfield
RISK OF N LOSS: With rains and extra moisture moving through the soil after nitrogen fertilizer was applied either last fall or earlier this spring, there’s reason for concern. The potential for loss of N is increased.

Apply all your N in spring?

Spring application of nitrogen, instead of fall, is now the norm for most farmers, but precautions are still needed to reduce losses.

Editor’s note: Nitrogen management is a complex issue because many factors affect the overall nitrogen availability to crops. A number of farmers the past few years have quit applying nitrogen fertilizer in the fall, opting instead to apply it in spring. Is developing a spring nitrogen management strategy the best way to go for your farming operation? Tyler Steinkamp, agronomist for WinField United, relates some key agronomic principles behind nitrogen management and suggests ways to reduce losses.

Nitrogen absorbed in 1 of 2 forms
Part of the reason nitrogen management can be so complex is because it can appear in different forms in the soil. Nitrogen can only be taken up by the plant in either the nitrate or ammonium forms. Most soils in the U.S. are naturally negatively charged and therefore can only hold positively charged nutrients. Nitrogen in the ammonium form is positively charged, meaning it can be held by the soil.

Over time, through a process called nitrification, ammonium in the soil will be converted to nitrate, which is negatively charged in the soil. The nitrification process occurs quickly in warm soils, and you can convert almost all of the ammonium nitrogen to nitrate within a matter of three weeks with 60-degree-F soil temperatures. Nitrate, being negatively charged, can be a problem, because it isn’t held by the soil. It can easily leach with water through the soil profile and out the drainage tile.

Timing is critical for conversion to nitrate form
Because of this leaching possibility, nitrate is generally talked about in negative terms. However, almost 98% of nitrogen is taken up by mass flow in the nitrate form. The key to nitrogen management is to get it in the right form when the plant actually needs it.

Nearly 75% of a corn plant’s nitrogen uptake takes place before tassel, and almost 80% of that is taken up during the grand growth stage of corn (V10 to VT). This means that if we are truly trying to manage nitrogen, we need to convert as much nitrogen as possible to the nitrate form during the grand growth stage of corn.

Methods for converting nitrogen at optimal stage
Making enough nitrogen available for the corn plant during the grand growth stage can be a challenge, but there are several different methods that can increase the amount of nitrogen available during this time.

Sidedress or top-dress nitrogen. The goal with this method is to apply nitrogen closer to when it is actually needed by the plant. The key with sidedressing or top-dressing is we need to provide enough time for the nitrogen to convert in order for it to be efficiently taken up by the plant. I recommend these operations be done between V4 and V6 in corn so the nitrogen has time to move with rain into the ground, and then convert to nitrate to be taken up.

• Stabilize the nitrogen. We often talk about stabilizing fall nitrogen to limit the amount lost over winter, but we can lose just as much with spring applications if the weather doesn’t cooperate. The majority of the nitrogen that is being placed on the field at planting isn’t going to be taken up until about 60 days later, but the conversion process can take place within a matter of weeks. If the nitrogen converts to the nitrate before the crop is able to use it, it can very easily be lost, and it often becomes a race between the nitrate leaching and the growth rate of the plant’s roots.

In a wet year, the nitrate generally wins, and ends up reaching the tile lines before the plant has a chance to take it up. Stabilizing nitrogen can help keep it in the ammonium form longer, which greatly reduces leaching. Instead of the roots chasing the nitrogen down to the tile lines, stabilizers can help keep the nitrogen in the root zone longer and increase the chances of seeing a return on the nitrogen that was placed in the field.

Nitrogen management can be complex, but if you try to get as much nitrogen to the plant when it actually needs it, you have the potential to see better returns on your investment.

Source: Winfield United




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