4.5 Article

No-Till and Strip-Till Corn Production with Broadcast and Subsurface-Band Phosphorus and Potassium

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AGRONOMY JOURNAL
卷 104, 期 4, 页码 996-1005

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AMER SOC AGRONOMY
DOI: 10.2134/agronj2012.0064

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  1. Illinois Fertilizer Research and Education Council

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Fertilizer placement is oft en designed to improve nutrient availability. Our objective was to determine the effect of P and K rate and placement in no-till and strip-till on grain yield; water, P, and K values in the soil; and the distribution of corn (Zea mays L.) roots. A 4-yr field experiment was setup near Urbana, IL, with a corn-soybean [Glycine max (L.) Merr.] rotation. Tillage/fertilizer placement was the main plot [no-till/broadcast (NTBC), no-till/deep band (NTDB), and strip-till/deep band (STDB)]; deep band was 15-cm beneath the crop row. Phosphorus fertilizer rate (0, 12, 24, and 36 kg P ha(-1) yr(-1)) was the subplot, and K-fertilizer rate (0, 42, 84, and 168 kg Kha(-1) yr(-1)) was the sub-subplot. Measurements included grain yield and yield components, grain and shoot P and K concentrations, root parameters, and soil-water, P, and K values. Strip-till/deep band produced greater kernels row(-1) and 9.43 Mg ha(-1) yield that was 7.8% greater than NTBC and 7.9% greater than NTDB. Deep banding increased soil P and K test values beneath the crop row and lowered soil surface test values compared with broadcast applications, but had no effect on root distribution. Across treatments, greatest apparent P and K uptake occurred in the surface layer where most roots were present and where precipitation replenished water to a greater extent than deeper layers. Relative to NTBC, STDB had 24% greater apparent-P and 23% greater apparent-K uptake rates. The results indicate that improved conditions for nutrient uptake provide a competitive advantage for production with STDB relative to no-till treatments.

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