秦耀东, 薛绪掌, 王济. 节水高产技术体系土壤物理学机理[J]. 中国生态农业学报(中英文), 2000, 8(2): 24-27.
引用本文: 秦耀东, 薛绪掌, 王济. 节水高产技术体系土壤物理学机理[J]. 中国生态农业学报(中英文), 2000, 8(2): 24-27.
Qin Yao-Dong, Xue Xu-zhang, Wang Ji. Soil physics mechanics of the processes of water saving[J]. Chinese Journal of Eco-Agriculture, 2000, 8(2): 24-27.
Citation: Qin Yao-Dong, Xue Xu-zhang, Wang Ji. Soil physics mechanics of the processes of water saving[J]. Chinese Journal of Eco-Agriculture, 2000, 8(2): 24-27.

节水高产技术体系土壤物理学机理

Soil physics mechanics of the processes of water saving

  • 摘要: 从土壤物理学角度分析黄淮海试区中下水平土壤肥力条件下一种节水高产体系的管理策略。采取推迟播种15~21d控制冬前分蘖减少水分消耗,保持表土干燥减少土面蒸发,播前灌底墒水在土壤深层储存水分。集中施用P肥促进小根系下扎等。措施充分利用了植物根系的向水性,引导根系下扎,并扩大土壤深层吸水体积,达到播种后不灌水6000kg/hm2,灌1水产量约7500kg/hm2,水分利用率>15.0kg/hm2·mm。

     

    Abstract: This paper interprets a management strategy based on soil physics principle to achieve a high-yield and water-saving agricultural production system in middle-low fertility soils in Huanghuaihai plain in north of China.The management atrategy included several the following main approaches.Delaying seeding date two or three weeks to control the wheat tillering before winter thereby reducing water consumption;keeping soil surface dry during the growing season to reduce evaporation from soil surface;sufficiently irrigating soil before seeding to restore enough water in deep soil profile;applying phosphorus fertiliaers together in a band to promote plant roots growth.All those approaches sufficiently utilized the hydrotropic characeristic of plant roots and in duced the roots to grow deeper,and expanded their water uptake volume to enable them using water from deep soil profile.Using this management strategy the grain yield of winter wheat has been reached 6000kg/hm2 without any irrigation after seeding and up to 7500kg/hm2 with one irrigation event after seeding.The water use efficiency is more than 15.0kg/hm2·mm.

     

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