Modelling water and nutrient dynamics in soil-crop systems

Modelling water and nutrient dynamics in soil–crop systems: a comparison of simulation models applied on common data sets.- The performance of the model AMBAV for evapotranspiration and soil moisture on Müncheberg data.- Performance of the model SIMWASER in two contrasting case studies on soil water movement.- Application and validation of the models Theseus and Opus with two field experimental data sets.- Integrating a spatial micrometeorological model into the risk assessment for arable crops in hilly terrain.- Modelling soil–crop interactions with AGROSIM model family.- Crop simulation model of the second and the third productivity levels.- The NDICEA model, a tool to improve nitrogen use efficiency in cropping systems.- Simulation of water and nitrogen flows on field scale; application of the SWAP–ANIMO model for the Müncheberg data set.- Evaluation of water and nutrient dynamics in soil–crop systems using the eco-hydrological catchment model SWIM.- Modelling nitrogen dynamics in soil–crop systems with HERMES.- Calibration and validation of CERES model for simulating.- The impact of crop growth model choice on the simulated water and nitrogen balances.- Simulating trends in crop yield and soil carbon in a long-term experiment – effects of rising CO2, N deposition and improved cultivation.- Comparison of methods for the estimation of inert carbon suitable for initialisation of the CANDY model.- Müncheberg field trial data set for agro-ecosystem model validation.- Dynamics of water, carbon and nitrogen in an agricultural used Chernozem soil in Central Germany.- The lysimeter station at Berlin-Dahlem.