Li-Juan LI , Mei-Yun WANG , Qing-Lin XUE , Yan-Hong CUI , Hai-Peng HOU , Jun-Zhu GE , Ming ZHAO
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引用次数: 8
摘要
冬小麦(Triticum aestivum L.)-夏玉米(Zea mays L.)接力系统(W-M系统)是中国黄淮海流域地区的主要种植模式。近年来,该地区冬季冻害和干旱胁迫频发,造成了较大的小麦产量损失。本研究于2009年和2010年两季在河南新乡对双季制玉米(M-M制)进行试验,比较M-M和W-M两种制度的粮食产量和资源效率。与W-M系统相比,M-M系统的年产量提高2.3%,年光能效率提高26.1%,年温度生产效率提高6.5%。此外,M-M体系的经济效益比W-M体系高1628 RMB ha - 1,总生长期在M-M体系中缩短140 d。这说明M-M系统不仅有利于土地休耕,避免了冬季冻旱胁迫,而且具有较高的光温效率和经济效益。
Yield Performance and Resource Efficiency of Double-Cropping Maize in Yellow-Huai-Hai River Valleys Region
The winter wheat (Triticum aestivum L.)-summer maize (Zea mays L.) relay system (W-M system) is the main cropping pattern in the Yellow-Huai-Hai River Valleys region of China. In recent years, winter freezing and drought stress occur frequently in this area, which causes great loss of wheat yield. In this study, the double-cropping maize system (M-M system) was tested in Xinxiang, Henan Province in 2009 and 2010 growing seasons to compare grain yield and resource efficiency between M-M and W-M systems. Compared to the W-M system, the M-M system produced 2.3% higher annual yield and increased 26.1% annual light energy efficiency and 6.5% annual temperature production efficiency. Besides, the economic benefit in the M-M system was 1628 RMB ha−1 higher than that in the W-M system, and the total growth duration was reduced 140 d in the M-M system. This result suggests that the M-M system not only facilitates land fallow and avoids winter freezing and drought stress, but also obtains high light and temperature efficiencies and economic benefit.
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