![]() In conclusion, the models differ meaningfully in their simulation of water uptake and careful consideration of these differences is needed to properly use and interpret the outcome of model simulations.Ībstract = "Root water uptake is an essential component of crop models since it affects plant growth and, through its effect on the soil water balance, multiple soil and nutrient cycling processes. CropSyst, DSSAT, EPIC and SWAP developed a drying front, as usually observed in field conditions, while APSIM and WOFOST showed relatively uniform water depletion with depth in the soil profile. All methods, except CropSyst, increased transpiration as the evaporative demand rose to relatively high rates (10mmd -1) because they lack a feedback mechanism that reduces transpiration when the demand exceeds the plant's ability to conduct water. ![]() When methods were compared with initially dry bottom soil layers, cumulative transpiration became similar for all methods, while the opposite initial condition exacerbated differences. ![]() In a rooted, 1-m deep silt loam soil in which the root density decreased geometrically with depth and which was subjected to an evaporative demand of 5mmd -1 for 60 days, APSIM, EPIC, DSSAT and SWAP transpired about 83% of the total plant available water while SWAP and CropSyst transpired about 65% of it. The main difference among methods derived from the degree to which each model enabled the use of water in the subsoil (below 0.5m). We compared the six models' water uptake algorithms in scenarios with different evaporative demand, soil texture, and water distribution with depth. These methods range from simple empiric approaches (WOFOST) to mechanistic approaches based on the water potential gradient and root distribution in the soil-plant system (CropSyst). ![]() We compared the water uptake methods implemented in six crop models: APSIM, CropSyst, DSSAT, EPIC, SWAP and WOFOST. Several methods to simulate water uptake exist however, the differences among them have not been evaluated. Root water uptake is an essential component of crop models since it affects plant growth and, through its effect on the soil water balance, multiple soil and nutrient cycling processes. ![]()
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