Avaliação do modelo CROPGRO para detectar efeito da compactação do solo no crescimento e na produtividade da soja ; Evaluation of the CROPGRO model for detecting soil compaction effect in soybean growth and yield

Soil compaction is an inherent phenomenon of the management of large-scale crops and can be associated to reduction on plant growth and yield. To know the effect of compaction on soil physical properties is insufficient to predict this association, because its occurrence depends on soil-plantatmosphere system interactions. The modelling of process is a strategy that allows to evaluate such interactions. The success of the models depends of the ability to integrate meteorological, phenological and soil elements to estimate stresses associated to poor supplying of plant demands. Stresses related to water deficit (water stress), oxygen deficit (oxygen stress) and excessive soil mechanical resistance (mechanical stress) suffer interference of soil physical properties affected by compaction. However, models that simulate plant growth and yield and that estimate mechanical stress are scarce. CROPGRO, a plant growth model of the DSSAT crop system model, addresses these requirements. Therefore, the objective of this study was to evaluate the performance of CROPGRO in detecting the association between soil compaction and soybean growth and yield. CROPGRO was evaluated in two studies. In the first one (manuscript 1), the sensitivity of the model to the effect of compaction on soybean performance was characterized. For this purpose, seven water deficit (WD) scenarios were combined with 12 soil compaction states (CS) scenarios in numerical experiments. The CROPGRO simulated soybean growth and yield without damage caused by an increase in EC when the DH occurred in the stages where the plant has low sensitivity to water restriction (beginning of the vegetative period and end of the reproductive period). Under water stress, CROPGRO indicates that the effect of EC is greater on yield than on leaf and root growth. In the second study (manuscript 2), the ability of CROPGRO to predict the effect of compaction on soybean growth and yield observed in a field experiment was evaluated. For this purpose, two soybean season crops ...