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Responses of winter wheat (Triticum aestivum L.) evapotranspiration and yield to sprinkler irrigation regimes

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  • Liu, Haijun
  • Yu, Lipeng
  • Luo, Yu
  • Wang, Xiangping
  • Huang, Guanhua

Abstract

The North China Plain (NCP) is one of the main productive regions for winter wheat (Triticum aestivum L.) and summer maize (Zea mays L.) in China. However, water-saving irrigation technologies (WSITs), such as sprinkler irrigation technology and improved surface irrigation technology, and water management practices, such as irrigation scheduling have been adopted to improve field-level water use efficiency especially in winter wheat growing season, due to the water scarcity and continuous increase of water in industry and domestic life in the NCP. As one of the WSITs, sprinkler irrigation has been increasingly used in the NCP during the past 20 years. In this paper, a three-year field experiment was conducted to investigate the responses of volumetric soil water content (SWC), winter wheat yield, evapotranspiration (ET), water use efficiency (WUE) and irrigation water use efficiency (IWUE) to sprinkler irrigation regimes based on the evaporation from an uncovered, 20-cm diameter pan located 0-5Â cm above the crop canopy in order to develop an appropriate sprinkler irrigation scheduling for winter wheat in the NCP. Results indicated that the temporal variations in SWC for irrigation treatments in the 0-60-cm soil layer were considerably larger than what occurred at deeper depths, whereas temporal variations in SWC for non-irrigation treatments were large throughout the 0-120-cm soil layer. Crop leaf area index, dry biomass, 1000-grains weight and yield were negatively affected by water stress for those treatments with irrigation depth less than 0.50E, where E is the net evaporation (which includes rainfall) from the 20-cm diameter pan. While irrigation with a depth over 1.0E also had negative effect on 1000-grains weight and yield. The seasonal ET of winter wheat was in a range of 206-499Â mm during the three years experiments. Relatively high yield, WUE and IWUE were found for the irrigation depth of 0.63E. Therefore, for winter wheat in the NCP the recommended amount of irrigation to apply for each event is the total 0.63E that occurred after the previous irrigation provided total E is in a range of 30-40Â mm.

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  • Liu, Haijun & Yu, Lipeng & Luo, Yu & Wang, Xiangping & Huang, Guanhua, 2011. "Responses of winter wheat (Triticum aestivum L.) evapotranspiration and yield to sprinkler irrigation regimes," Agricultural Water Management, Elsevier, vol. 98(4), pages 483-492, February.
    • Handle: RePEc:eee:agiwat:v:98:y:2011:i:4:p:483-492
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    17. Fan, Yubing & Wang, Chenggang & Nan, Zhibiao, 2018. "Determining water use efficiency of wheat and cotton: A meta-regression analysis," Agricultural Water Management, Elsevier, vol. 199(C), pages 48-60.
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    19. Li, Jinpeng & Wang, Yunqi & Zhang, Meng & Liu, Yang & Xu, Xuexin & Lin, Gang & Wang, Zhimin & Yang, Youming & Zhang, Yinghua, 2019. "Optimized micro-sprinkling irrigation scheduling improves grain yield by increasing the uptake and utilization of water and nitrogen during grain filling in winter wheat," Agricultural Water Management, Elsevier, vol. 211(C), pages 59-69.
    20. Fan, Yubing & Wang, Chenggang & Nan, Zhibiao, 2014. "Comparative evaluation of crop water use efficiency, economic analysis and net household profit simulation in arid Northwest China," Agricultural Water Management, Elsevier, vol. 146(C), pages 335-345.
    21. Liu, Xiuwei & Shao, Liwei & Sun, Hongyong & Chen, Suying & Zhang, Xiying, 2013. "Responses of yield and water use efficiency to irrigation amount decided by pan evaporation for winter wheat," Agricultural Water Management, Elsevier, vol. 129(C), pages 173-180.
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