灌溉方式与秸秆覆盖优化施氮模式对秸秆腐熟特征及水稻氮素利用的影响

Effects of irrigation method and straw mulch-nitrogen management pattern on straw decomposition characteristics and nitrogen utilization of hybrid rice

  • 摘要: 以杂交籼稻‘F 优498’为试验材料, 研究不同灌溉方式淹水灌溉(CK)、干湿交替灌溉、旱作下氮肥运筹与秸秆覆盖优化管理模式(麦秆覆盖优化施氮模式、油菜秆覆盖优化施氮模式以及无秸秆覆盖优化施氮模式)对水稻根系生长、各时期氮素积累以及产量的影响, 探讨各灌溉方式下秸秆腐熟及氮素释放规律, 明确秸秆腐熟与氮素释放规律对水稻生长的影响及其相关关系。结果表明, 淹水灌溉和干湿交替灌溉均较旱作有效地协调各时期水稻地上部、地下部生长, 促进各时期氮素吸收利用, 提高稻谷产量; 而水分生产效率则以旱作为最优, 干湿交替灌溉次之, 但差异不显著。麦秆、油菜秆的腐熟与氮素释放效率最高峰均出现在移栽后30 d,但腐熟量与氮素释放量受灌溉方式与秸秆种类的影响; 油菜秆腐熟量显著高于麦秆, 旱作明显高于干湿交替与淹水灌溉; 氮素释放量则以麦秆为最优。秸秆覆盖优化管理模式也对水稻各生长指标具有显著影响; 淹水及干湿交替灌溉下, 麦秆覆盖氮肥运筹优化管理模式有效协调水稻植株各时期的生长, 促进氮素吸收利用, 最终实现产量的增加; 油菜秆覆盖氮肥运筹优化管理模式则在整个生育期均对水稻生长表现轻微抑制效应; 而旱作模式下麦秆、油菜秆优化施氮模式覆盖均呈现显著的促进作用, 其中油菜秆覆盖优势明显, 可作为生产中水资源不足的情况下参考。秸秆腐熟量及氮素释放量与水稻根干重、氮素吸收利用以及产量的相关性分析表明, 移栽后30 d 秸秆腐熟量与稻谷产量、氮素吸收均呈显著的负相关关系(r=0.27*~-0.29*), 而齐穗期、成熟期氮素释放量与产量及氮素吸收均呈显著的正相关关系(r=0.31*~0.59**); 同时, 秸秆的腐熟量与氮素释放对水稻根冠比影响较大, 其中以齐穗期最为显著(r=-0.27*~0.42**)。协调水稻各时期秸秆腐熟量及氮素释放, 特别是移栽后30 d 氮素释放量是保证实现水稻高产、高效的重要措施之一。

     

    Abstract: Irrigation methods have both direct effect and remote effect (through straw decomposition and nitrogen release especially when integrated with nitrogen management) on rice growth. A field experiment was conducted to evaluate the effect of irrigation methods and optimal straw mulch-nitrogen management pattern on root growth, nitrogen accumulation at main growth stages and grain yield of hybrid rice. Also straw decomposition and nitrogen release mechanisms were probed to clarify the effects of the interaction of straw decomposition and nitrogen release on rice growth. The results showed that flooding irrigation (W0) and alternate wetting and drying irrigation (W1) methods generally coordinated aboveground growth with underground growth, promoted nitrogen accumulation and increased grain yield compared with drought farming (W2).However, the water productivity in W2 treatment was the highest among all treatments, ollowed by W1. For wheat and rape straw decomposition and nitrogen release, the peak values occurred 30 days after transplanting (30 DAT). However, the degree of decomposition and nitrogen release were influenced by both irrigation methods and straw types. The rape straw under W2 treatment had larger degree of decomposition, while wheat straw under W1 led to more nitrogen release. For straw mulch-nitrogen management patterns, wheat straw combined with optimal nitrogen management (S1N1) under W0 and W1 treatments efficiently coordinated the growth, promoted nitrogen absorption and eventually increased grain yield. However,rape straw combined with optimal nitrogen management (S2N1) had a slight inhibitory effect on the whole growth. Under drought irrigation, S1N1 and S2N1 had positive and remarkable effects on growth. Correlation coefficients showed that the effect of the degree of straw decomposition on the 30DAT was significantly negatively correlated with yield and nitrogen accumulation (r=-0.27*to -0.29*). Also the effect of the degree of nitrogen release at heading and ripening stages was strongly positively correlated with yield and nitrogen absorption (r=0.31*to -0.59**). Also the effects of the degrees of straw decomposition and nitrogen release on root and shoot growth was strong, especially for the heading stage (r=-0.27*to -0.42**). The results suggested that it was important for high grain yield and high efficiency of rice production to coordinate the straw decomposition and nitrogen release at different growth stages of rice, especially at 30 days after transplanting.

     

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