Simulation of agronomic and nitrate pollution related parameters in vegetable cropping sequences in Mediterranean greenhouses using the EU-Rotate_N model

Abstract

The capacity of the EU-Rotate_N model to simulate agronomic parameters (dry matter production, yield, crop N uptake, evapotranspiration (ETc), soil water content dynamics) and parameters associated to nitrate (NO3−) pollution (drainage, NO3− leaching, accumulation of mineral N in soil) was evaluated in sequences of melon and pepper crops grown in plastic greenhouses. Simulated values of all output variables were compared to measured values. Two sequences with either conventional or improved management for water and N were examined during the 2005 and 2006 cropping seasons. Additionally, simulation of drainage and NO3− leaching was evaluated during the period between crops following irrigations associated with soil disinfection and leaching of accumulated salts. Calibration of parameters related to crop growth, the critical N curve and ETc considerably improved simulation of drainage, NO3− leaching and of soil water and soil mineral N dynamics. Following calibration, the EU-Rotate_N model accurately simulated dry matter production, crop N uptake and marketable fruit yield; the simulation errors being lower or similar to those reported elsewhere. ETc and drainage were accurately simulated in the 2006 melon and pepper crops and in the 2005 melon crop; they were respectively over- and under-estimated in the 2005 pepper crop probably on account of a virus infection. EU-Rotate_N accurately simulated soil water content for the 0−30 and 30−60 cm soil layers. Soil mineral N and NO3− leaching were generally underestimated by EU-Rotate_N, the error being larger in the 2005 sequences; however, the model effectively simulated seasonal trends.