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Determining optimal nitrogen input rate on the base of fallow season precipitation to achieve higher crop water productivity and yield

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Listed:
  • Yu, Shaobo
  • Khan, Shahbaz
  • Mo, Fei
  • Ren, Aixia
  • Lin, Wen
  • Feng, Yu
  • Dong, Shifeng
  • Ren, Jie
  • Wang, Wenxiang
  • Noor, Hafeez
  • Yang, Zhenping
  • Sun, Min
  • Gao, Zhiqiang

Abstract

Precipitation is the major cause of crop yield variation in rainfed agriculture production on the Loess Plateau. As overfertilization is economically and environmentally undesirable, and crop yield and the resulting returns for N input are uncertain when rainfall variability is high, optimizing N management according to the precipitation of fallow season is vital for efficient crop water use and high yield in dryland/rainfed farming systems. Thus, this study established a reference range describing wheat cultivation year types based on fallow season precipitation over 37 years. We conducted an 8-year field experiment using seven different N input rates, to focus on soil water content and its vertical distribution in the 0–300 cm soil layers and to assess the relationship between soil water utilization and yield formation. The final objective was to evaluate how the optimal N input affects crop water consumption, with the aim of maximizing yields. Eight experimental years (2009–2017) were classified as dry and normal years (four of each), with optimum N application rates of 150 and 180 kg Nha−1, respectively. Compared with that used by farmers (210 kg Nha−1), optimum N input saved 26.8% and 12.3% of N fertilizer, increased grain yield by 5.0% and 5.2%, and improved crop water productivity (CWP) by 6.1% and 8.5% in dry and normal years, respectively. Optimized N inputs reduced soil water consumption before the jointing stage and increased the soil water available for grain yield production. Soil water depletion occurred from deeper soil layers with crop development, and soil water storage (SWS) at 80–240 and 200–300 cm depth played an important role in increasing spike number and grain filling, respectively. Furthermore, soil water conservation treatment (increasing rainwater storage via deep plowing at start of the summer fallow season) was unable to eliminate the variability in soil water storage at sowing, and as “drought at sowing” effects on yield were more adverse than “drought in growing season” effects in dryland systems, our results indicate that adjusting N fertilizer inputs based on summer rainfall variation could enhance wheat yield and CWP in the rainfed farming system.

Suggested Citation

  • Yu, Shaobo & Khan, Shahbaz & Mo, Fei & Ren, Aixia & Lin, Wen & Feng, Yu & Dong, Shifeng & Ren, Jie & Wang, Wenxiang & Noor, Hafeez & Yang, Zhenping & Sun, Min & Gao, Zhiqiang, 2021. "Determining optimal nitrogen input rate on the base of fallow season precipitation to achieve higher crop water productivity and yield," Agricultural Water Management, Elsevier, vol. 246(C).
  • Handle: RePEc:eee:agiwat:v:246:y:2021:i:c:s0378377420322332
    DOI: 10.1016/j.agwat.2020.106689
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    References listed on IDEAS

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    1. Passioura, John, 2006. "Increasing crop productivity when water is scarce--from breeding to field management," Agricultural Water Management, Elsevier, vol. 80(1-3), pages 176-196, February.
    2. Lin, Wen & Liu, Wenzhao & Zhou, Shanshan & Liu, Chunfen, 2019. "Influence of plastic film mulch on maize water use efficiency in the Loess Plateau of China," Agricultural Water Management, Elsevier, vol. 224(C), pages 1-1.
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    4. Fan, Yanli & Liu, Junmei & Zhao, Jiatao & Ma, Yuzhao & Li, Quanqi, 2019. "Effects of delayed irrigation during the jointing stage on the photosynthetic characteristics and yield of winter wheat under different planting patterns," Agricultural Water Management, Elsevier, vol. 221(C), pages 371-376.
    5. Li, Quanqi & Dong, Baodi & Qiao, Yunzhou & Liu, Mengyu & Zhang, Jiwang, 2010. "Root growth, available soil water, and water-use efficiency of winter wheat under different irrigation regimes applied at different growth stages in North China," Agricultural Water Management, Elsevier, vol. 97(10), pages 1676-1682, October.
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    7. He, Gang & Wang, Zhaohui & Li, Fucui & Dai, Jian & Li, Qiang & Xue, Cheng & Cao, Hanbing & Wang, Sen & Malhi, Sukhdev S., 2016. "Soil water storage and winter wheat productivity affected by soil surface management and precipitation in dryland of the Loess Plateau, China," Agricultural Water Management, Elsevier, vol. 171(C), pages 1-9.
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    Cited by:

    1. Haoze Zhang & Mingliang Gao & Fuying Liu & Huabin Yuan & Zhendong Liu & Mingming Zhang & Quanqi Li & Rui Zong, 2024. "Characteristic of soil moisture utilisation with different water-sensitive cultivars of summer maize in the North China Plain," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 70(4), pages 210-219.
    2. Yang, Wenjie & Li, Yanhang & Jia, Bingli & Liu, Lei & Yuan, Aijing & Liu, Jinshan & Qiu, Weihong, 2024. "Optimized fertilization based on fallow season precipitation and the Nutrient Expert system for dryland wheat reduced environmental risks and increased economic benefits," Agricultural Water Management, Elsevier, vol. 291(C).
    3. Chai, Yuwei & Chai, Qiang & Yang, Changgang & Chen, Yuzhang & Li, Rui & Li, Yawei & Chang, Lei & Lan, Xuemei & Cheng, Hongbo & Chai, Shouxi, 2022. "Plastic film mulching increases yield, water productivity, and net income of rain-fed winter wheat compared with no mulching in semiarid Northwest China," Agricultural Water Management, Elsevier, vol. 262(C).
    4. repec:caa:jnlpse:v:preprint:id:401-2023-pse is not listed on IDEAS

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