Effects of plant density on growth, yield and seed quality of quinoa genotypes under rain-fed conditions on red basalt soil regions

N. Minh, D. Hoang, N. V. Lộc, Nguyen Viet Long
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引用次数: 7

Abstract

Because of rainfall shortage, quinoa has the potential to supersede traditional crops that contribute to agricultural production less effectively. The current study determined the quinoa genotypes and plant density suitable for production under rain-fed conditions in red basalt soil regions. The experiments were conducted in the rainy and dry seasons of 2018/2019 using split-plot designs with three replications. In these, the main factor consisted of four quinoa genotypes and the subfactor four plant densities (13.3, 10.0, 8.0 and 6.6 plants m-2) with a row interval of 50cm and a plant interval of 15, 20, 25 and 30cm, respectively. The current study’s results showed that plant density significantly affected polynomial trends on panicle length, panicle number/plant, seed number/panicle, 1000-seed weight, seed yield, protein content, and ash content. The plant density of 8.0 plants m-2 seems to be the optimal density for quinoa under the studied conditions. Results here also indicate significant differences among quinoa genotypes for agronomical and seed quality performance. Better performances of quinoa occurred in the dry season compared to the rainy season. Atlas and Cahuil were the best adaptive quinoa genotypes in the red basalt soil regions
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红玄武岩区雨养条件下种植密度对藜麦基因型生长、产量和种子品质的影响
由于降雨短缺,藜麦有可能取代对农业生产贡献较小的传统作物。本研究确定了适于红玄武岩地区雨养条件下生产的藜麦基因型和种植密度。试验在2018/2019年雨季和旱季进行,采用3个重复的分块设计。其中,主因子为4个藜麦基因型,子因子4株密度分别为13.3、10.0、8.0和6.6株m-2,行距分别为50cm,株距分别为15、20、25和30cm。结果表明,密度对穗长、穗数/株、种子数/穗、千粒重、籽粒产量、蛋白质含量和灰分含量的多项式趋势有显著影响。在本研究条件下,藜麦的最佳密度为8.0株m-2。研究结果还表明,藜麦基因型在农艺和种子品质性能上存在显著差异。藜麦在旱季的表现优于雨季。Atlas和Cahuil是红玄武岩土壤区最适宜的藜麦基因型
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