Effect of foliar application of nitrogen and zinc on the performance of soybean

M. Rashid, Shapla Akther, S. Paul, Nisha Afroz, Israt Jahan, Yeasin Arafat
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引用次数: 2

Abstract

An experiment was carried out at the Agronomy Field Laboratory, Bangladesh Agricultural University, Mymensingh during November 2021 through March 2022 to investigate the effects of foliar application of nitrogen (N) and zinc (Zn) on the performance of Binasoybean-1. The experiment comprised two factors, viz. (A) foliar supplementation of N, and (B) Zn fertilizer management. Factor A had two levels, viz. (i) no N application (control) (N0), and (ii) foliar application of 2% urea solution at pod formation stage (N1). Factor B had four levels, viz. (i) no Zn application (control) (Z0), (ii) basal application recommended dose (RD) of Zn (Z1), (iii) foliar application of 0.5% ZnSO4.7H2O at pod formation stage (Z2), and (iii) basal application of 50% RD of Zn + foliar application of 0.5% ZnSO4.7H2O at pod formation stage (Z3). All growth parameters (leaf area, branch production and plant height), yield contributing characters (total number of pods m-2, number of fertile pods m-2, number of seeds m-2 and weight of 1000-seeds), and seed and stover yields were significantly affected by N fertilization. The highest values were recorded with foliar application of urea (2%) at pod formation stage. Zn management and the interaction of N and Zn management significantly affected the yield contributing parameters and yields of soybean. However, plant characters were affected neither by Zn nor the interaction. Basal application of 50% RD of Zn + foliar application of 0.5% ZnSO4.7H2O at pod formation stage produced the highest values for all yield contributing characters. Interaction of these N and Zn treatments was also found to be the best combination in terms of these parameters (Table 1). However, foliar N (2% urea) application coupled with a single foilar spray of 0.5% ZnSO4.7H2O at pod formations stage was as good as the previous combination and produced the statistically similar results in all these yield contributing characters. Therefore, for higher seed yield of soybean, 2% urea solution coupled with a single foilar spray of 0.5% ZnSO4.7H2O at pod formations stage is recommended.
叶面施氮锌对大豆生产性能的影响
2021年11月至2022年3月,在孟加拉国农业大学Mymensingh农学田间实验室进行了一项试验,研究叶面施氮(N)和锌(Zn)对Binasoybean-1性能的影响。试验包括两个因素,即(A)叶面补氮和(B)锌肥管理。因子A有两个水平,即(i)不施氮(对照)(N0)和(ii)在荚果形成阶段叶面施用2%尿素溶液(N1)。因子B有4个水平,即(i)不施锌(对照)(Z0), (ii)锌基施推荐剂量(RD) (Z1), (iii)在荚果形成阶段叶面施0.5% ZnSO4.7H2O (Z2), (iii)在荚果形成阶段叶面施50% RD的Zn +叶面施0.5% ZnSO4.7H2O (Z3)。所有生长参数(叶面积、分枝产量和株高)、产量贡献性状(总荚果数m-2、可育荚果数m-2、种子数m-2和千粒重)以及种子和秸秆产量均受氮肥的显著影响。在荚果形成期叶面施用2%的尿素最高。锌管理及氮锌互作对大豆产量贡献参数和产量有显著影响。然而,锌和互作对植株性状没有影响。在荚果形成阶段,基施50% RD Zn +叶面施0.5% ZnSO4.7H2O对所有产量贡献性状均有最高的影响。在这些参数方面,这些氮和锌处理的互作也被发现是最好的组合(表1)。然而,叶面施氮(2%尿素)加上在荚果形成阶段单叶面喷0.5% ZnSO4.7H2O的组合与以前的组合一样好,并且在所有这些产量贡献性状上产生了统计上相似的结果。因此,为了提高大豆的种子产量,建议在豆荚形成阶段采用2%尿素溶液配以0.5% ZnSO4.7H2O单叶面喷雾。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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