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This article in AJ

  1. Vol. 90 No. 4, p. 523-528
     
    Received: Sept 15, 1997
    Published: July, 1998


    * Corresponding author(s): wtes2@aeneas.net
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doi:10.2134/agronj1998.00021962009000040014x

Effects of Surface-Applied Limestone on the Efficiency of Urea-Containing Nitrogen Sources for No-Till Corn

  1. Donald D. Howard  and
  2. Michael E. Essington
  1. D ep. of Plant and Soil Sci., The Univ. of Tennessee, West Tennessee Exp. Stn., 605 Airways Blvd., Jackson, TN 38301
    D ep. of Plant and Soil Sci., Univ. of Tennessee, P.O. Box 1071, Knoxville, TN 37901-1071

Abstract

Abstract

Fertilizer N and lime amendments are commonly surface-applied to no-till (NT) production systems, but research on these practices under NT is limited. We examined the effect of surface-applied limestone on the efficiency of urea, urea-NH4NO3 (UAN), and NH4NO3 applied broadcast or injected for NT corn (Zea mays L.) production on loessal soils. No-till field studies were established on two loessal soils in western Tennessee: a Memphis silt loam (fine-silty, mixed, active, thermic Typic Hapludalt) that had been in NT for 7 yr and a Collins silt (coarse-silty, mixed, acid, thermic Aquic Udifluvent) that had been under conventional tillage. Corn, with a wheat (Triticum aestivum L.) cover, was established on the Memphis soil in 1990. In 1994, corn was established on the Collins soil. The experimental design was a randomized complete block with a split-plot arrangement of treatments. Agricultural limestone was surface-applied at rates of 0 and 1.12 Mg ha−1, 1 to 3 wk before N treatment. The N treatments were UAN broadcast (UAN-B), UAN injected (UAN-I), urea broadcast or split-applied (Urea-B and Urea-S), and NH4NO3 broadcast (AN-B). Nitrogen treatments were applied at 168 kg ha−1 within 5 d after planting. For the split urea treatment, 84 kg ha−1 N was broadcast at planting and 84 kg ha−1 N was surface-banded at the 8-leaf growth stage. Applications of AN-B, UAN-B, and Urea-B resulted in lower grain yields and leaf N concentrations than UAN-I. These reductions were attributed to N immobilization and NH3 volatilization. Average yield reductions attributed to N immobilization were 8% on the Memphis soil and none on the Collins soil. Volatilization losses attributed to UAN-B were 8 and 12% for the Memphis and Collins soils, respectively. Yield reductions attributed to NH3 volatilization from Urea-B were 22 and 19% for the Memphis and Collins soils. Splitting the urea application increased yields relative to the Urea-B treatment only on the Memphis soil. Surface application of limestone decreased Urea-B yields.

Contribution of the Dep. of Plant and Soil Sci., Univ. of Tennesse.

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