Corn Silage Response to Seeding Rate


  • Corn silage is a popular forage for ruminant animals because it is high in energy and digestibility. Maximizing tonnage is a key factor when farmers grow corn for silage.

  • Using higher corn populations for silage may help manage phosphorus (P) in heavily manured areas.

  • The objective of this study was to determine the effect of seeding rate on irrigated corn silage yield and P uptake.



Location Gothenburg, NE Planting Date  6/16/19
Soil Type Hord silt loam Harvest Date 10/11/19
Previous Crop Grain sorghum Potential Yield (bu/acre) 250
Tillage Type Strip tillage Seeding Rate (seeds/acre) 24K, 28K, 32K, 36K, 40K, 44K, 48K
  • The study was set up as a randomized complete block with three replications.  
  • A 108-day relative maturity corn product was planted in 30-inch row spacing at 24,000, 28,000, 32,000, 36,000, 40,000, 44,000, and 48,000 seeds/acre.   

  • Corn was sprinkler irrigated and weeds were controlled as needed. No fungicides or insecticides were applied.  

  • Silage was hand-harvested one inch above the soil surface to provide a representative sample (Figures 1 and 2) and chopped with a silage chopper.   

  • Total biomass was collected and weighed, a subsample was dried, and dry matter weight was calculated for each seeding rate. 

  • Pounds of total P removed was then calculated.


  • Average silage dry matter yield increased significantly with increased seeding rates (Figure 3) with the highest tonnage recorded with the 48,000 seeds/acre population.

  • Increased seeding rates also increased the lb/acre of P removed with the lowest amount recorded with the lowest population of 24,000 seeds/acre (Figure 4).



  • Using higher corn populations can be beneficial for increasing tonnage as well as removing P from the soil.

  • Producers can utilize high corn silage populations to increase P removal and help manage soil P levels on fields where manure is applied. 

  • Monitoring crop P concentrations is essential for balancing feed rations and accurately estimating crop P removal, estimates that are in turn necessary for optimizing manure management and avoiding or mitigating soil P enrichment for protection of water resources. Increasing the amount of P removal in harvested crops can help slow the rate at which soil test P increases and help reduce the soil P over time. 



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