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This article in AJ

  1. Vol. 98 No. 2, p. 255-264
     
    Received: Jan 28, 2005
    Published: Mar, 2006


    * Corresponding author(s): bkay@lrs.uoguelph.ca
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doi:10.2134/agronj2005.0028

Spatial Variability of In-Season Nitrogen Uptake by Corn Across a Variable Landscape as Affected by Management

  1. R. S. Dharmakeerthia,
  2. B. D. Kay *b and
  3. E. G. Beauchampb
  1. a Dep. of Soils and Plant Nutrition, Rubber Research Inst. of Sri Lanka, Dartonfield, Agalawatta, Sri Lanka
    b Dep. of Land Resource Science, Univ. of Guelph, Guelph, ON, N1G 2W1, Canada

Abstract

An understanding of the spatial and temporal variability of N uptake at a landscape scale is required to implement site-specific N management. We determined the spatial variation of in-season N uptake and N nutritional status of corn (Zea mays L.) in a variable landscape in southern Ontario from 1997 to 2001 under three management conditions involving corn under no-tillage or conventional tillage using barley (Hordeum vulgare L.) or barley under-seeded with red clover (Trifolium pratense L.) as the preceding crop and with or without fertilizer N. The aerial dry matter content (DM) of corn and N concentrations in the DM (Ni) were determined at 2-wk intervals. Organic C (OC) content (0–0.3 m) was used as the landscape-based variable to account for the spatial variability of N uptake. Fertilizer N addition, legume incorporation, and tillage had significant positive effects on N uptake, but the magnitude of these effects varied within and among growing seasons. Nitrogen uptake increased with OC content in a quadratic relationship, reaching a maximum at OC content of about 26 g kg−1 The N nutritional status in the DM, estimated using previously established critical dilution curves, also increased with OC content. However, the nutritional status decreased as the growing season progressed under all management treatments; this decrease was largest at the smallest OC contents. These trends suggest that measurements of plant N early in the season cannot be used in site-specific N management to accurately identify areas of adequate or excess N later in the growing season.

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