Quinoa – A Functional Food Crop: Morphological Descriptors

Journal of Bangladesh Agricultural University Pub Date : 2023-01-01 DOI:10.5455/jbau.141111

A. Sarwar, M. Khatun, M. Fakir

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Abstract

Quinoa (Chenopodium quinoa Willd.), one of the oldest cultivated plants of Andes, has gained worldwide attention for its ability to grow in various stressful conditions and also due to its various health-promoting characteristics i.e., easily digestibility with high amounts of protein, vitamin B, omega-3 fatty acids, and others. To study (in detail) on morphological descriptors of four quinoa genotypes, an experiment was conducted at the Field and Laboratory of Plant Systematics, Department of Crop Botany, Bangladesh Agricultural University during Rabi season (November 2020 to March 2021) following a Randomized Complete Block Design with three replications. A spacing of 25 cm x 10 cm was used. Weeding and irrigation operations were done twice at 20 and 40 days after sowing. Quinoa plants are characterized by the angular stem, red-green, leaf rhomboidal, green, panicle shape intermediate showing both shapes – glomerulate and amarantiform, panicle green at the flowering and became pink at the physiological maturity stages. Plant height and stem diameter were ranged between 60.17-65.65 cm and 4.22-4.58 mm, respectively. The percentage of red and red-green coloured stem, number of teeth leaf–1 and leaf area were significantly influenced by genotypes and ranged between 20.00-46.58%, 53.31-80.00%, 5.60-9.10 and 4.84-6.01 cm2, respectively. Pollen grains are monads, medium in size, 42.99-51.30 µm, polypantoporate, scabrate (microechinate), and exine thickness 2.08-2.40 µm. Panicle length and width, 1000-seed weight and seed yield varied between 31.16-37.23 cm, 3.66-4.37 cm, 3.14-3.43 g and 2.66-3.86 g plant–1, respectively. Among the genotypes, G2 was most productive in the environmental conditions of Mymensingh region. Qualitative morphological traits can be used as markers in the description and characterization of quinoa genotypes. The variation existing among the quinoa genotypes could prove useful in the breeding programs.

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藜麦-一种功能性粮食作物:形态描述

藜麦(藜麦野生藜)是安第斯山脉最古老的栽培植物之一，因其在各种压力条件下生长的能力以及其各种促进健康的特性而受到全世界的关注，即易消化，含有大量的蛋白质、维生素B、omega-3脂肪酸等。为了详细研究四种藜麦基因型的形态描述符，在Rabi季节(2020年11月至2021年3月)，采用随机完全区组设计，在孟加拉国农业大学作物植物学系植物系统学实验室进行了一项实验。间距为25 cm × 10 cm。播种后20天和40天进行两次除草和灌溉。藜麦植株的特点是茎角，红绿色，叶菱形，绿色，穗形介于球状和苋形之间，花期穗绿色，生理成熟期变为粉红色。株高60.17 ~ 65.65 cm，茎粗4.22 ~ 4.58 mm。红色和红绿色茎的比例、齿数、叶- 1和叶面积受基因型影响显著，分别为20.00 ~ 46.58%、53.31 ~ 80.00%、5.60 ~ 9.10和4.84 ~ 6.01 cm2。花粉粒为单胞体，中等大小，42.99-51.30µm，多聚戊酸酯型，锯齿状(微尖状)，外壁厚度2.08-2.40µm。穗长、穗宽、千粒重和单株产量分别为31.16 ~ 37.23 cm、3.66 ~ 4.37 cm、3.14 ~ 3.43 g和2.66 ~ 3.86 g。基因型中，G2在Mymensingh地区的环境条件下产量最高。定性形态性状可作为藜麦基因型描述和鉴定的标记。藜麦基因型之间存在的变异可能在育种计划中被证明是有用的。

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Journal of Bangladesh Agricultural University

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