Simulating maize (Zea mays L.) growth and yield, soil nitrogen concentration, and soil water content for a long-term cropping experiment in Ontario, Canada
Liu, S., Yang, J.Y., Drury, C.F., Liu, H.L., Reynolds, W.D. (2014). Simulating maize (Zea mays L.) growth and yield, soil nitrogen concentration, and soil water content for a long-term cropping experiment in Ontario, Canada, 94(3), 435-452. http://dx.doi.org/10.4141/CJSS2013-096
A performance assessment of the Decision Support Systems for Agrotechnology Transfer (DSSAT) model (v4.5) including the CERES-Maize and CENTURY modules was conducted for continuous maize production under annual synthetic fertilization (CC-F) and no fertilization (CC-NF) using field data from a long-term (53-yr) cropping experiment in Ontario, Canada. The assessment was based on the accuracy with which DSSAT could simulate measured grain yield, above-ground biomass, leaf area index (LAI), soil inorganic nitrogen concentration, and soil water content. Model calibration for maize cultivar was achieved using grain yield measurements from CC-F between 2007 and 2012, and model evaluation was achieved using soil and crop measurements from both CC-F and CC-NF for the same 6-yr period. Good model-data agreement for CC-F grain yields was achieved for calibration (index of agreement, d=0.99), while moderate agreement for CC-NF grain yields was achieved for evaluation (d=0.79). Model-data agreement for above-ground biomass was good (d =0.83-1.00), but the model consistently underestimated for CC-F and overestimated for CC-NF. DSSAT achieved good model-data agreement for LAI in CC-F (d =0.82-0.99), but moderate to poor agreement in CC-NF (d =0.46-0.64). The CENTURY module of DSSAT simulated soil inorganic nitrogen concentrations with moderate to good model-data agreement in CC-F (d =0.74-0.88), but poor agreement in CC-NF (d =0.40-0.50). The model-data agreement for soil water content was moderate in 2007 and 2008 for both treatments (d =0.60-0.76), but poor in 2009 (d =0.46-0.53). It was concluded that the DSSAT cropping system model provided generally good to moderate simulations of continuous maize production (yield, biomass, LAI) for a long-term cropping experiment in Ontario, Canada, but generally moderate to poor simulations of soil inorganic nitrogen concentration and soil water content.
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