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Evaluation of Corn Yield & Nutrient Composition Response to P & K


Evaluation of Corn Yield & Nutrient Composition Response to P & K


  • Assess corn yield response to phosphorus (P) and potassium (K) fertilizer applications.
  • Assess the effect of P and K fertilizer applications on corn plant nutrient concentrations at V4, V10-12, VT-R1 and in the harvested grain.

Study Description

Plot Layout:    4-row randomized small plots
Replicates:    4
Location:    Arlington, Wis.
Tillage:    No-till
Rotation:    corn, soybean
Treatments:    Broadcast in spring of 2014  
  • 4 rates of P (0, 30, 60, 90 lbs P2O5) as 0-46-0 at each rate of K (0, 40, 80, 120, 160 lbs K2O/acre) as 0-0-60
  • The same treatments were applied to the same plots for 4 consecutive years.
Soil Tests:    
  • Prior to application in spring 2014
  • Soil test P: 8-21 ppm (v. low to high)
  • Soil test K: 51-94 ppm (v. low to low)
Hail Damage:  
  • A hail event took place on August 1.
  • Photo (see below) was taken on August 27.
Hail damage to corn plant leaves.


  • When P rates were ≥ 60 lb P2O5/acre, yield was significantly greater than where no P was applied (Table 1).
  • There was a significant yield response to K applied at rates up to 80 lb K2O/acre, which had an average soil test of 65 ppm K. Yield increases at rates ≥ 80 lb K2O/acre were greater where P was applied compared to where P was not applied (Table 1).
  • In previous years of the study there was no yield response to P application. These results suggest that at soil test K levels below 65 ppm, K is most limiting. When soil test K is greater than 65 ppm, P begins to limit yield.
  • Soil sampling in 2-inch increments demonstrated that soil test P and K are highly stratified in this long-term no-till field.
  • Tissue nutrient concentrations at V4, V10, and R1, as well as grain and silage nutrient composition, are not available at this time.

Table 1. Effect of no-till surface broadcast P2O5
and K2O rates applied in spring 2011, 2012, 2013,
and 2014 on 2014 corn grain yield at Arlington.
K2O rate, lb/acre
0 40 80 120 160 Mean†
lb/acre ——————— bu/acre ————————
0 40 156 194 192 190 155 b§
30 28 150 215 211 204 162 ab
60 27 152 230 235 210 171 a
90 36 157 205 243 208 170 a
Mean‡ 33 d 154 c 211 ab 220 a 203 b  

† P2O5 rate p = 0.02.
‡ K20 rate p < 0.01. P2O5 rate x K20 rate p = 0.08. CV = 11%.
§ Mean values followed by the same lowercase letter are not significantly different at the 0.10 probability level.

Research conducted by Carrie Laboski, Professor & Extension Nutrient Management Specialist, University of Wisconsin-Madison, as a part of the DuPont Pioneer Crop Management Research Awards (CMRA) Program. This program provides funds for agronomic and precision farming studies by university and USDA cooperators throughout North America. The awards extend for up to 4 years and address crop management information needs of DuPont Pioneer agronomists and customers, and Pioneer sales professionals.

2014 data are based on average of all comparisons made in one location through Dec 1, 2014. Multi-year and multi-location is a better predictor of future performance. Do not use these or any other data from a limited number of trials as a significant factor in product selection. The foregoing is provided for informational use only. Please contact your Pioneer sales professional for information and suggestions specific to your operation. Product performance is variable and depends on many factors such as moisture and heat stress, soil type, management practices and environmental stress as well as disease and pest pressures. Individual results may vary.

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