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Chinese Journal of Applied Ecology ›› 2011, Vol. 22 ›› Issue (10): 2517-2523.

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Effects of different irrigation modes on winter wheat grain yield and water- and nitrogen use efficiency. 

MEN Hong-wen, ZHANG Qiu, DAI Xing-long, CAO Qian, WANG Cheng-yu, ZHOU Xiao-hu, HE Ming-rong   

  1. State Key Laboratory of Crop Biology, College of Agronomy, Shandong Agricultural University, Tai’an 271018, Shandong, China
  • Online:2011-10-18 Published:2011-10-18

Abstract: Taking the widely planted winter wheat cultivar Tainong 18 as test material, a field experiment was conducted to study the effects of different irrigation modes on the winter wheat grain yield and water- and nitrogen use efficiency in drier year (2009-2010) in Tai’an City of Shandong Province, China. Five treatments were installed, i.e., irrigation before sowing (CK), irrigation before sowing and at jointing stage (W1), irrigation before sowing and at jointing stages and at over-wintering stage with alternative irrigation at milking stage (W2), irrigation before sowing and at jointing and flowering stages (optimized traditional irrigation mode, W3), and irrigation before sowing and at over-wintering, jointing, and milking stages (traditional irrigation mode, W4). The irrigation amount was 600 m3·hm-2 one time. Under the condition of 119.7 mm precipitation in the winter wheat growth season, no significant difference was observed in the grain yield between treatments W2 and W4, but the water use efficiency was significantly higher in W2 than in W4. Comparing with treatment W3, treatments W2 and W4 had obviously higher grain yield, but the water use efficiency had no significant difference. The partial factor productivity from N fertilization was the highest in W2 and W4, and the NO3--N accumulation amount in 0-100 cm soil layer at harvest was significantly higher in W2 than in W3 and W4, suggesting that W2 could reduce NO3--N leaching loss. Under the conditions of our experiment, irrigation before sowing and jointing stages  and at over-wintering stage with alternative irrigation at milking stage was the optimal irrigation mode in considering both the grain yield and the water- and nitrogen use efficiency.