绿豆品种(Vigna radiata (L.))的农业生理性能R. Wilczek)和布基纳法索绿豆下的氮平衡

IF 1.5 Q2 AGRONOMY
R. Nana, Maïga Oumar, N. Sawadogo, Mohamed Louré
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引用次数: 0

摘要

绿豆(Vigna radiata(L.)Wilczek)是一种种子豆类,在布基纳法索的种植制度和饮食习惯中并不为人所知。本研究的目的是评估来自马里世界蔬菜中心的15份绿豆材料在布基纳法索降雨条件下的生理和农艺性能。实验设计是一个有三个重复的Fischer块,测量不仅关注植物的生长、发育周期和产量参数,还关注收获时土壤中的总氮平衡。结果表明,开花初期的株高(HP)、茎颈直径(SCD)和单株分枝数(NBrP)等生长参数在经销商之间存在显著差异。所有的发育参数也是如此。冠径和分枝数较高的最高植株是A3号。早期开花周期从很早(29 天)至中等(41 天),平均约34 天。另一方面,收获时的周期从82 天至93 天数取决于材料,平均约88天 天。A3、A2和A12的产量表现最好,为850.50 kg·ha−1625.2 kg·ha−1和544.8 kg·ha−1。收获时,土壤氮平衡总体为正,增加了0.326 g·N·kg−1,这代表了绿豆的氮输入有助于改善土壤氮状况。由于氮是一种经常缺乏的基本营养素,限制了植物的生长,农民有义务以化肥的形式提供这种营养素;由于绿豆能够向土壤提供氮,因此可以在轮作中用作弥补氮缺乏的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Agrophysiological Performance of Mungbean Accessions (Vigna radiata (L.) R. Wilczek) and Nitrogen Balance under Mungbean in Burkina Faso
Mungbean (Vigna radiata (L.) Wilczek) is a seed legume that is not well known in the cropping systems and dietary habits of Burkina Faso. The objective of this study was to evaluate the physiological and agronomic performance of fifteen mungbean accessions from a collection of the World Vegetable Center in Mali under rainfed conditions in Burkina Faso. The experimental design was a Fischer block with three replications, and the measurements focused not only on the growth, development cycle, and yield parameters of the plants but also on the total nitrogen balance in the soil at harvest. The results show that growth parameters such as the plant height at the beginning of flowering (HP), stem neck diameter (SCD), and number of branches per plant (NBrP) significantly discriminate between dealerships. The same was true for all the developmental parameters. The tallest plants with a higher crown diameter and number of branches were those of accession A3. The early flowering cycle varied from very early (29 days) to medium (41 days), with an average of about 34 days. On the other hand, the cycle at harvest varied from 82 days to 93 days depending on the accessions, with an average of about 88 days. The best performances in terms of yield were expressed by the accessions A3, A2, and A12 with 850.50 kg·ha−1, 625.2 kg·ha−1, and 544.8 kg·ha−1, respectively. At harvest, the soil nitrogen balance was generally positive with an increase of 0.326 g·N·kg−1 of soil, which represents a nitrogen input from the mungbean contributing to the improvement of the soil nitrogen status. As nitrogen is an essential nutrient that is often lacking, limiting plant growth, farmers are obliged to supply this nutrient in the form of fertiliser; with mungbean’s ability to supply nitrogen to the soil, it could therefore be used in crop rotations as a solution to make up for the lack of nitrogen.
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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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