Effect of Activated Water Irrigation on the Yield and Water Use Efficiency of Winter Wheat under Irrigation Deficit

Activated water irrigation has been widely investigated as an effective production increasing measure. However, the response of activated water irrigation in plant growth and water use efficiency (WUE) with the irrigation amount is not well understood. Here, a pot experiment was conducted to determine the effects of activated water irrigation on winter wheat growth, yield, and WUE under irrigation amount. Twelve treatments included four irrigation water types, (i) tap water (TW), (ii) tap water with magnetization (MW), (iii) tap water with oxygenation (OW), (iv) tap water with magnetization and oxygenation (M&OW), and three irrigation amounts, (1) 80% of the field capacity (FC), (2) 65%FC, and (3) 50%FC. The results indicated that activated water irrigation improved the plant height, leaf area, aboveground biomass, and photosynthetic characteristics at each growth stage of winter wheat. However, the yield and WUE varied with water type and irrigation amount. With 80%FC, the yield and WUE of MW were significantly greater by 35.7% and 53.9% than TW. The yield and WUE of OW were greater by 11.4% and 23.1% than TW. With 65%FC, the yield of MW, OW, and M&OW were greater by 43.9%, 46.3%, and 14.6% than TW, respectively. WUE of MW, OW, and M&OW were greater by 37.0%, 37.0%, and 11.1% than TW, respectively. With 50%FC, the yield of OW and M&OW were significantly greater by 77.3% and 122.7% than TW. WUE of OW and M&OW were significantly greater by 41.4% and 75.9% than TW (p < 0.05). Overall, the research provides clear evidence that OW is an effective way to increase yield and WUE, MW and M&OW should be applied in suitable soil water conditions.