Use of soil nitrogen parameters and texture for spatially-variable nitrogen fertilization

Recent studies have demonstrated the potential importance of using soil texture to modify fertilizer N recommendations. The objective of this study was to determine (i) if surface clay content can be used as an auxiliary variable for estimating spatial variability of soil NO₃-N, and (ii) if this inf...

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Bibliographic Details
Published in:Precision agriculture 2011-02, Vol.12 (1), p.146-163
Main Authors: Shahandeh, H, Wright, A. L, Hons, F. M
Format: Article
Language:English
Subjects:
Agricultural production
Agriculture
Analysis
Atmospheric Sciences
Biomedical and Life Sciences
Chemistry and Earth Sciences
Clay
Computer Science
Corn
Corn grain yield
Crop yield
Fertility
Fertilizers
Growing season
Life Sciences
Mineralization
Nitrogen
Physics
Remote Sensing/Photogrammetry
Residual NO₃-N
Soil Science & Conservation
Soil surfaces
Soil texture
Soil types
Soils
Spatial soil N variability
Statistics for Engineering
Studies
Variable and uniform N rates
Vegetables
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Summary:Recent studies have demonstrated the potential importance of using soil texture to modify fertilizer N recommendations. The objective of this study was to determine (i) if surface clay content can be used as an auxiliary variable for estimating spatial variability of soil NO₃-N, and (ii) if this information is useful for variable rate N fertilization of non-irrigated corn [Zea mays (L.)] in south central Texas, USA across years. A 64 ha corn field with variable soil type and N fertility level was used for this study during 2004-2007. Plant and surface and sub-surface soil samples were collected at different grid points and analyzed for yield, soil N parameters and texture. A uniform rate (UR) of 120 kg N ha⁻¹ in 2004 and variable rates (VAR) of 0, 60, 120, and 180 kg N ha⁻¹ in 2005 through 2007 were applied to different sites in the field. Distinct yield variation was observed over this time period. Yield and soil surface clay content and soil N parameters were strongly spatially structured. Corn grain yield was positively related to residual NO₃-N with depth and either negatively or positively related to clay content depending on precipitation. Residual NO₃-N to 0.60 and 0.90 m depths was more related to corn yield than from shallower depths. The relationship of clay content with soil NO₃-N was weak and not temporally stable. Yield response to N rate also varied temporally. Supply of available N with depth, soil texture and growing season precipitation determined proper N management for this field.
ISSN:1385-2256
1573-1618
DOI:10.1007/s11119-010-9163-8