Adaptation and assessment of the Azodyn model for managing the nitrogen fertilization of organic winter wheat

Abstract

In agriculture, differences between the kinetics of crop requirements and the rate of soil mineralization are known to affect wheat yield and quality. The high cost of organic nitrogen fertilizer may result in nitrogen availability being a limiting factor during the crop cycle. It is therefore necessary to improve fertilizer application conditions, to limit losses, to ensure that grain quality exceeds a certain threshold, and to optimize economic efficiency. The aim of this study was to improve nitrogen management in organic winter wheat crops by optimizing spring fertilization. We validated and used the Azodyn model [Eur. J. Agron. 10 (1999) 129] to determine the effect of various fertilization strategies on winter wheat production under N constraints. We first adapted the Azodyn model by constructing an organic fertilizer submodel. The resulting Azodyn–Org model was tested under several sets of conditions for the rate and timing of organic fertilizer applications, in three experiments. Preliminary results confirmed that the Azodyn model accurately predicted N soil availability in a wide range of conditions. We assessed the performance of the Azodyn–Org model for predicting grain yield, grain protein content and mineral N in the soil. We found that grain yield was correctly predicted whereas grain protein content was slightly overestimated. Thus, the Azodyn–Org model has potential for use as a decision-making tool for managing spring N fertilization in organic wheat crops.