Improve fertilizer efficiency to reduce costs

When it comes to typical commodity markets like corn, being the low cost producer is often the name of the game. Finding efficiencies is critical to maintaining production while reducing costs. Nowhere is that more applicable than with fertilizer. In most corn production budgets, fertilizer represents around half of all input costs. Nitrogen fertilizer alone often accounts for 25% of all input costs. Combined with the fact that almost half of all nitrogen applied is lost or wasted presents a significant opportunity for finding gains to reduce that fertilizer cost while maintaining productivity. Understanding nitrogen loss pathways and their causes only reinforces the value and return of building healthy soil through carbon farming practices.

• Volatilization is the loss of nitrogen fertilizer when it converts from a solid or liquid to a gas before it can get absorbed into the soil and taken up by plants. This occurs when nitrogen fertilizer is placed on the soil surface and is exposed to sunshine before the fertilizer is incorporated into the soil. If topdressed nitrogen fertilizer is not incorporated into the soil by tillage or rain, and air temperatures remain above 70 degrees, up to 60% of applied nitrogen can be lost.
• Denitrification is the conversion of nitrate and water into nitrous oxide, often occurring under saturated soil conditions. This often occurs in heavy clay soils that experience ponding. Saturated soils lose around 5% of applied nitrogen per day, but can lose 20% per day when soil temperature is above 75 degrees.
• Leaching occurs when nitrogen attaches to water and then travels down and out of the root zone, often occurring in sandy soils. This can occur especially over an extended period of rain. In one study in Nebraska, an 8-day period of wet weather caused almost all applied nitrogen to leach out of the root zone.

• Application Type: Growers can reduce risk of volatilization by injecting or side-dressing nitrogen, or by applying nitrogen to soil that is covered by growing plants. Cover crops create more opportunity to capture nitrogen from both fertilizers and manure. They also provide valuable benefits to soil health and soil structure. 
• Soil Management: While we often like to blame extended rain for saturated soils, how we manage our soils can impact just how long our soils remain saturated. Improving soil structure through reduced tillage, adding cover crops, or adding perennial crops to the rotation can dramatically improve infiltration and structurally reduce the risk of denitrification. 
• Applying into Vegetation: Solving leaching in the short term requires having growing plants in the soil to take up nitrogen. This can mean shifting more nitrogen applications to in-season, but particularly adding cover crops. In the long term, improving soil organic matter will increase the soil’s ability to absorb nitrogen. Here again cover crops, no till, and perennial crops are essential tools.