小豆对亏缺灌溉和氮肥的响应及产量、产量组成和蛋白质含量的关系

IF 1.5 Q2 AGRONOMY
Melaku Fisseha Teferi, B. Tesfaye, Abraham Woldemichael, Adugna Debella
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引用次数: 2

摘要

在埃塞俄比亚Adami Tulu进行了连续两个旱季的田间试验,研究氮素水平和亏缺灌溉对速食豆产量及其相关成分和蛋白质含量的影响。处理为3个水平(50、75和100% ETc)亏缺灌溉和4个水平(0、46、92和138 kg·N·ha - 1)施氮,采用分畦布置,以灌溉为主,施氮为次,重复3次。结果表明:两因子交互作用对豆荚产量有显著影响(p < 0.01);例如,100% ETc和每公顷92 kg施氮水平的交互作用,豆荚产量最高(22.69 t·ha - 1),但50% ETc和不施氮的处理组合产生的总豆荚产量最低(6.922 t /公顷)。结果表明,在相同亏缺灌溉水平下,75% ETc配施92 kg氮/公顷蛋白质浓度最高(17.718%),但统计上相当于138 kg氮/公顷,而50 ETc配施不施肥时蛋白质浓度最低(12.24%)。因此,在阿达米图鲁及周边地区,使用75%的ETc和每公顷92公斤的氮肥水平可以达到平衡青豆质量和荚果产量的最佳水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Snap Bean (Phaseolus vulgaris) Response to Deficit Irrigation and Nitrogen Fertilizer and Relationships between Yield, Yield Component, and Protein Content
Field experiments were conducted at Adami Tulu, Ethiopia, for two successive dry seasons to investigate how nitrogen levels and deficit irrigation affect the yield and its related components, and the protein content of snap beans. The treatments were deficit irrigation with three levels (50, 75, and 100% ETc) and application of nitrogen with four levels (0, 46, 92, and 138 kg·N·ha−1), which were set up as split-plot arrangement, with irrigation being as the main plot and nitrogen levels as subplot, replicated thrice. Results showed that the pod yield had a substantial impact ( p < 0.01 ) on the interaction between the two factors; i.e., interaction of 100% ETc and 92 kg nitrogen levels per hectare recorded the highest pod yield (22.69 t·ha−1), but treatment combinations of 50% ETc and no nitrogen application produced the lowest amount of overall pod yield (6.922 tons per hectare). However, the results showed that the application of 75% ETc in combination with 92 kg nitrogen per hectare recorded the highest protein concentration (17.718%) but statistically equivalent to 138 kg nitrogen per hectare combined with the same deficit irrigation level, while the lowest protein concentration (12.24%) was recorded at 50 ETc combined with no fertilizer. Hence, the use of 75% ETc along with 92 kg nitrogen levels per hectare could be optimal in balancing quality and pod output of green beans at Adami Tulu and surrounding areas.
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来源期刊
CiteScore
3.60
自引率
5.30%
发文量
66
审稿时长
16 weeks
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