Maximize your economic returns from phosphorus and potassium fertilizer applications to soybeans.
Posted on March 17, 2014 by Mike Staton, Michigan State University Extension
The keys to maximizing the economic returns from phosphorus (P) and potassium (K) fertilizer applications are a comprehensive soil testing program and maintaining P and K soil test levels above their respective critical levels. The critical level for a given nutrient is the soil test level at which 95 to 97 percent of the crop’s yield potential will be reached with no additional inputs of the nutrient.
The Michigan State University Extension nutrient recommendation scheme for P and K is shown in Figure 1. When soil test levels are less than the critical level, P and K fertilizer recommendations are higher than crop removal to build up the nutrient levels in the soil. At soil test levels between the critical level and the maintenance limit, P and K fertilizer recommendations are equal to crop removal. At soil test levels higher than the maintenance limit, P and K fertilizer recommendations are less than crop removal.
Figure 1. Michigan State University Extension’s phosphorus and potassium recommendation scheme.
Phosphorus
The critical level for phosphorus is 15 ppm and the maintenance range for soybeans is 15 ppm, so P soil test levels should be maintained between 15 and 30 ppm. Because soybeans remove 0.8 pounds per bushel of P2O5, maintenance levels of P fertilizer are required to keep P soil test levels in this range. For a 60-bushel per acre soybean crop, this is 48 pounds per acre of actual P2O5 or 90 pounds per acre of monoammonium phosphate (MAP) or 100 pounds per acre of diammonium phosphate (DAP). Spring application of P fertilizers is recommended over fall application when soil pH levels exceed 7.4. This practice increases P fertilizer availability by reducing the amount of P tied up in the soil.
Potassium
The critical K level is calculated by multiplying the cation exchange capacity (CEC) by 2.5 and adding 75. For example, the critical K level for a soil having a CEC of 12 meq per 100 g is 105 ppm [(12 x 2.5) + 75]. The maintenance range for soybeans is 30 ppm, so the K soil test level for this soil should be maintained between 105 ppm and 135 ppm. Because soybeans remove 1.4 pounds of K2O per bushel, the maintenance application rate for a 60-bushel per acre soybean crop is 84 pounds of actual K2O or 140 pounds of Muriate of potash (0-0-60) per acre. When applying K fertilizer prior to planting soybeans, spring applications are recommended over fall applications on coarse-textured soils having CECs less than 6 meq per 100 g and organic soils to avoid leaching losses.
Maintenance P and K fertilizer applications can be applied biannually in corn-soybean rotations under the following conditions:
- Soil is a mineral soil.
- Soil pH is less than 7.4 to reduce P tie up.
- Fertilizer is applied prior to planting corn.
- Application rate accounts for the P and K removed by both crops.
- CEC is 6 meq per 100 g or higher to reduce K leaching.
The effect of various P and K fertilizer application methods (broadcast, deep banding, 2x2 starter and foliar) on soybean yields has been evaluated in university research trials. Broadcast applications have performed equal to or better than the other application methods when soil test levels are above the critical levels. When P and K soil test levels are below the critical levels, band applications are more efficient than broadcast applications.
This article was produced by the SMaRT project (Soybean Management and Research Technology). The SMaRT project was developed to help Michigan producers increase soybean yields and farm profitability. The SMaRT project is a partnership between MSU Extension and the Michigan Soybean Checkoff program.
This article was published by Michigan State University Extension. For more information, visit http://www.cnchemicals.com/. To contact an expert in your area, visit http://www.cnchemicals.com/, or call 888-MSUE4MI (888-678-3464).