EVAPOTRANSPIRATION AND CANOPY RESISTANCE OF GRASS IN A MEDITERRANEAN REGION

A simple method for estimating actual evapotranspiration (ET) could be come a suitable tool for irrigation scheduling. Resistance models can be useful if data on canopy resistance to water vapor flow (rc) and on aerodynamic resistance (ra) are available. These parameters are compl ex and hard to obtain. In this study rc is analysed for a reference cr op (grass meadow). Canopy resistance is dependent on climate, weather (radiation, atmospheric vapor pressure deficit, aerodynamic resistance ), agronomic practices (irrigation, grass cutting) and time scale (hou r, day). An rc model, proposed by Katerji and Perrier (KP model), usin g some meteorological parameters as inputs, is presented. Canopy resis tance calculated according to the KP model was used to estimate a refe rence ET(ref) on hourly and daily time scales. The ET(ref) estimated u sing the KP model on a daily time scale was compared with a model prop osed by Allen, Jensen, Wright and Burman (AJWB model) - in which rc de pends on leaf area index only - and with direct measurements from a we ighing lysimeter. The results show an underestimation of 18% for the A JWB model against an underestimation of 2% for the KP model. Since the hypotheses are the same for both models and aerodynamic resistance pl ays a secondary role, the better results obtained by the KP model are due to rc modelling.