Research Article Genotype x year interaction for agronomical traits and proximate composition in yam beans (Pachyrhizus spp., Fabaceae) in the Brazilian Amazon

IF 0.6 Q4 GENETICS & HEREDITY

Genetics and Molecular Research Pub Date : 2022-01-01 DOI:10.4238/gmr18981

E.S. Silva, A. Atroch, R. S. de Jesus, Monalisa Bitencourt, C. A. Ticona-Benavente

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引用次数: 0

Abstract

. The yam bean ( Pachyrhizus spp.) is an underutilized leguminous tuber that is well adapted to the Amazonian climate. This bean has 5 to 20% protein in its tuberous roots (dry weight), though it is little known even in Brazil. No improved varieties have been recommended for the Amazon region. We examine the Genotype x Year (GxY) interaction in 20 selected yam bean stocks and selected genotypes based on their performance. These materials were obtained from among a selection of 64 genotypes with natural outcrossing of P. erosus x P. tuberosus . The experiments were carried out in the Central Amazon during a low water period, from April to September in 2017 and 2018, in a completely randomized block design with 20 genotypes, three replicates, and eight plants per plot, significant GxY interaction, for pod and root yield. However, the carbohydrate, protein, lipid, fiber, and ash content in roots showed significant GxY interaction. These results indicate that selection of genotypes with high pod and root yield can be carried out in a single year in the dry period for cultivation during that season. However, selection to increase its nutritional value must be carried out over several years. The selected genotypes for presenting high root yield (> 3 t ha -1 ) were P7, P11, P15, P19, P37 and P57. The genotypes selected for high protein content in the roots (> 10% dry weight) were P13, P14, P37 and P62.

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巴西亚马逊地区山药豆(豆科Pachyrhizus spp.)农艺性状和近似组成基因型x年互作

。山药豆(Pachyrhizus spp.)是一种未充分利用的豆科块茎，很好地适应了亚马逊气候。这种豆在其块茎根(干重)中含有5%至20%的蛋白质，尽管即使在巴西也鲜为人知。没有推荐改良品种用于亚马逊地区。我们在20个选择的山药豆砧木和根据它们的表现选择的基因型中检测了基因型与年份(GxY)的相互作用。这些材料是在马铃薯与马铃薯自然异交的64个基因型中筛选出的。试验于2017年4月至2018年9月在亚马逊中部低水期进行，采用完全随机区组设计，20个基因型，3个重复，每块8株，GxY互作显著，研究豆荚和根系产量。而根系碳水化合物、蛋白质、脂肪、纤维和灰分含量则表现出显著的GxY互作。这些结果表明，在该季节的干旱期，可以在一年内进行豆荚和根产量高的基因型选择。然而，增加其营养价值的选择必须进行数年。根产量高的基因型为P7、P11、P15、P19、P37和P57。根系蛋白质含量高(0 ~ 10%干重)的基因型为P13、P14、P37和P62。

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来源期刊

Genetics and Molecular Research 生物-生化与分子生物学

CiteScore

1.00

自引率

25.00%

发文量

审稿时长

3 months

期刊介绍： Genetics and Molecular Research (GMR), maintained by the Research Foundation of Ribeirão Preto (Fundação de Pesquisas Científicas de Ribeirão Preto), publishes high quality research in genetics and molecular biology. GMR reflects the full breadth and interdisciplinary nature of this research by publishing outstanding original contributions in all areas of biology. GMR publishes human studies, as well as research on model organisms—from mice and flies, to plants and bacteria. Our emphasis is on studies of broad interest that provide significant insight into a biological process or processes. Topics include, but are not limited to gene discovery and function, population genetics, evolution, genome projects, comparative and functional genomics, molecular analysis of simple and complex genetic traits, cancer genetics, medical genetics, disease biology, agricultural genomics, developmental genetics, regulatory variation in gene expression, pharmacological genomics, evolution, gene expression, chromosome biology, and epigenetics.