Abstract
The rationale of this research is to investigate approaches based on modelling and remote sensing data for estimating the spatial distribution of yield and irrigation of wheat in semi‐arid areas. The specific objective is to compare the performances of two approaches to test the STICS crop model using remotely sensed estimates of leaf area index (LAI). An experimental study of phenology, yield and water balance of irrigated wheat was made in the Marrakech‐Haouz plain during year 2003. Experimental data was allowed to run STICS using two approaches: (1) Calibration of the parameters that control the time course of LAI; (2) driving from LAI time series interpolated with a simple model. The results show the accuracy of STICS to simulate actual evapotranspiration and yield for both approaches. Finally, the two approaches were compared using remotely sensed estimates of LAI upon four scenarios of satellite time revisit frequency. The simulations we obtained always show acceptable results. However, differences appear between the variables, between the approaches and between the frequencies.
Acknowledgments
This study was conducted within the framework of the IRD/Sud‐Med project, with support from the European Union 5th Framework through two INCO‐MED Programmes : WATERMED (http://www.uv.es/ucg/watermed) and IRRIMED (http://www.irrimed.org/). The authors would like to acknowledge the Sud‐Med technical partners, and especially ORMVAH (Office Regional de Mise en Valeur Agricole du Haouz). We are greatly indebted to the PNTS (Programme National de Télédétection Spatiale). The authors especially thank F. Ruget and N. Brisson (INRA, Avignon, France) for their kind and helpful discussions on the STICS model.