不同水分条件下芝麻对氮素管理的响应

Q3 Agricultural and Biological Sciences
Elnatan Golan , Zvi Peleg , Zipora Tietel , Ran Erel
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引用次数: 4

摘要

芝麻主要在传统的低投入农业系统下种植。最近的育种发展促进了芝麻种植的现代化和机械化。然而,关于现代和传统农业系统施肥需求的文章很少。在两个地点的田间试验中,我们确定了灌水芝麻对氮(N)的响应。3个有前途的芝麻品系进行了2个灌溉水平和4个氮水平的组合试验。在高灌溉水平下,氮素对种子的生长和分枝有显著影响,籽粒产量超过2吨ha - 1。高氮胁迫导致光合速率和叶片水势下降。δ13C证实高氮处理下气孔导度较低。亏缺灌溉条件下,氮素水平对监测参数影响较小,说明施氮效率不高。籽粒含油量与籽粒氮浓度呈负相关。我们的研究结果对水分有限时施氮的必要性提出了质疑,因为施氮促进了旺盛的生长,迅速耗尽了土壤水分。因此,在制定氮素管理战略时应考虑水资源的可用性。在高产农业系统中,要获得最佳产量,需要约80-120 kg公顷- 1氮肥,牢记种子氮素与含油量之间的负相关关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sesame response to nitrogen management under contrasting water availabilities

Sesame is mainly cultivated under traditional, low-input agro-systems. Recent breeding developments promoted the modernization and mechanization of sesame cultivation. However, only a few articles have been published concerning fertilization requirements for both modern and traditional agro-systems. In field trials at two locations, we determined the response of irrigated sesame to nitrogen (N). Three promising sesame lines were tested combining two irrigation levels with four N levels. At a high irrigation level, N had a significant effect on growth, branching, and consequently, seed yield exceeding two-ton ha−1. A high N doze was accompanied by a decrease in the photosynthetic rate and leaf water potential. The δ13C confirmed lower stomatal conductance under high N treatments. Under deficit irrigation, the N level had a minor effect on the monitored parameters, indicating N fertilization was not efficient. Seed oil content was negatively correlated with seed N concentration. Our results question the necessity of N application when water is limited, as N fertilization promotes vigorous development that rapidly depletes soil water. Thus, water availability should be considered when developing an N management strategy. For high-yielding agro-systems, roughly 80–120 ​kg ​ha−1 N is required for optimal yield, bearing in mind the negative association between seed-N and oil content.

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来源期刊
Oil Crop Science
Oil Crop Science Food Science, Plant Science, Agronomy and Crop Science
CiteScore
3.40
自引率
0.00%
发文量
20
审稿时长
74 days
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