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Abstract
The irrigation return-flow coefficient (IRFC) is based on rule of thumb estimations in most aquifers in Iran. The errors may be significant, and thus misleading for water resources management. We used lysimeters to more accurately predict IRFC. Five wheat and barley farms of different soil textures, which were irrigated using a border system, plus one with a sprinkler system, were selected for the installation of lysimeters. The practices at each farm were applied to the lysimeters. Irrigation return flows (IRF) were measured every other day over two growing seasons. The IRF time series displayed sharp peaks at the initial stages of the growing season and decreasing towards the end. IRFCs were classified into early and late stages. The average IRFC during the early stage was 29.9%, decreasing to 6.5% in the late stage. High IRFC values are due to the limitations of border irrigation to provide a small uniform amount of water, and over-irrigation due to low water demand during the early stage of growth. Variations in annual IRFCs of 0.4 to 38.7% are functions of total applied water, border length, management and soil texture. The early stage IRFC for the sprinkler system was small. Therefore, high early stage IRFCs can be reduced by changing from border irrigation to a sprinkler system.