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• 方法与技术 • 上一篇    

海藻接枝型肥料的保水控失及肥效

于晓莉,祁帅,黄素媛,沈宏**   

  1. (华南农业大学资源环境学院, 广州 510642)
  • 出版日期:2015-07-10 发布日期:2015-07-10

Water retaining and loss controlling effects of alginate-grafted fertilizer.

YU Xiao-li, QI Shuai, HUANG Su-yuan, SHEN Hong**   

  1. (College of Natural Resource and Environment, South China Agricultural University, Guangzhou 510642, China)
  • Online:2015-07-10 Published:2015-07-10

摘要: 本文将海藻接枝型保水剂与控失剂相结合,对复混肥进行多次包膜,制成海藻接枝型肥料A和B,并对其保水保肥性能以及肥料效果进行了研究。结果表明:施用海藻接枝型肥料A和B的土壤水分吸收率为89.00%和70.33%,普通复混肥为61.17%。与普通复混肥相比,海藻接枝型肥料A能分别减少氮、磷和钾22.49%、14.71%和15.51%的淋溶损失量,海藻接枝型肥料B则能分别减少氮、磷和钾21.22%、12.22%和13.13%的淋溶损失量。肥效实验表明,施用海藻接枝型肥料A和B的生菜鲜重分别比普通复混肥高出26.14%和20.06%,前者还明显促进了玉米根系生长。上述结果表明,海藻接枝型肥料的保水保肥效果和促生长作用比普通复混肥好,有一定的应用前景。

关键词: 显著水平, 水文序列, 环境变化, 跳跃, 水文变异

Abstract: A compound fertilizer was coated with an alginategrafted absorbant and a fertilizer loss control agent. Alginategrafted fertilizers A and B were prepared and used for investigation of their waterretaining, losscontrolling and growthpromoting effects. Results indicated that the rate of soil water retention was 89.00% and 70.33% when the soil was treated with alginategrafted fertilizers A and B, respectively, while the corresponding value for compound fertilizer was 61.17%. The results from leaching experiments indicated that, in comparison to compound fertilizer, losses of nitrogen, phosphate and potassium from alginategrafted fertilizers A and B were decreased by 22.49% and 21.22%, 14.71% and 12.22%, and 15.51% and 13.13%, respectively. Applications of alginategrafted fertilizers A and B respectively increased the fresh weight of lettuce by 26.14% and 20.06% in comparison to compound fertilizer. In addition, the alginategrafted fertilizers also showed an obvious promoting effect on root growth of maize. The above results suggest that alginategrafted fertilizers possess stronger abilities to retain water and fertilizer, and to promote plant growth than compound fertilizer, and can be widely used in agriculture production.

Key words: hydrological process, significance level, jump, hydrological variability, environmental change.