Wednesday, November 15, 2006
287-7

Correlation Between Mehlich-3 Phosphorus and Wheat Response to Phosphorus Fertilization in Arkansas.

Russell Delong1, Nathan A. Slaton1, and Morteza Mozaffari2. (1) University of Arkansas, Univ. of Arkansas, 1366 W. Altheimer Drive, Fayetteville, AR 72704-6898, (2) "Univ. of AR, Soil Test Laboratory", "PO Drawer 767, Hwy. 1 South", "PO Drawer 767, Hwy. 1 South", Marianna, AR 72360, United States of America

Accurate soil-test based fertilizer recommendations depend on the correlation between soil test nutrient concentrations and crop response to fertilization. The overall objective of these fertilization trials was to correlate Mehlich-3 P (M3P) with relative winter wheat (Triticum aestivum L.) grain yield to define the critical M3P threshold range and P-fertilizer rates needed to optimize wheat grain yield. Nineteen trials were conducted on silt loams between 2002-2006 with wheat following various summer crops. Phosphorus fertilizer (0-96 kg P/ha) was applied shortly before or after seeding. Grain yield was determined at maturity and adjusted to 130 g/kg moisture content. In the 0- to 10-cm soil depth, the mean M3P among sites ranged from 9-71 mg/kg. Eight site-years had M3P >28 mg/kg, produced relative grain yields >92% when no P was applied, and showed no significant (P>0.10) grain yield differences among P rates. When M3P was <28 mg/kg, significant, positive responses to P fertilization occurred at 8 of 11 sites. The unfertilized control at the eight responsive sites produced relative grain yields ranging from 73 to 91%. Relative wheat grain yield was significantly and linearly related to M3P (r2 = 0.40). Omitting three outliers having M3P values from 23-26 mg/kg resulted in a significant non-linear relationship and improved the r2 to 0.64. The predicted critical ranges of M3P to produce 90-95% relative winter wheat grain yields were 35-50 mg/kg for the linear relationship and 24-36 mg/kg for the nonlinear relationship. Wheat grain yields will respond positively to P fertilization in most soils having M3P <20 mg/kg. Consideration of previous crop and/or other soil properties that may influence wheat response to P fertilization may enhance the accuracy of soil-test based fertilizer recommendations. Phosphorus fertilization trials will be continued to improve our understanding of the soil properties that influence wheat response to P fertilization.

Handout (.pdf format, 126.0 kb)