Phenotypic Variation of Component Traits Affecting Maturity in Cultivated Peanut (Arachis hypogaea L.)

Peanut Science Pub Date : 2023-08-31 DOI:10.3146/0095-3679-492-ps21-18

Ye Chu, Larissa Marasigan, Corley Holbrook, Ran Hovav, Peggy Ozias-Akins

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Abstract

A wide range of time-to-maturity exists among peanut accessions and cultivars, and it is a complex trait likely controlled by many genes and influenced by the environment. Underground formation of fruit coupled with indeterminate growth habit makes peanut a difficult crop species to explore genetic controls of this trait. Dividing the total phenotype of time-to-maturity into component traits can facilitate the dissection of genetic pathways controlling maturity in peanut. In this study, component traits contributing to time-to-maturity included flowering on the main stem, flowering rate, flower-to-peg conversion ratio, internode length, distribution of reproductive and vegetative nodes, branch numbers, percentage of harvestable pods, and harvest index, which were quantified for six genetically diverse peanut genotypes. Statistically significant differences were detected for all measured traits among the tested genotypes. These genotypes are parental lines of four established recombinant inbred populations. Populations with contrasting parental phenotypic values could be utilized for further QTL mapping of the relevant traits.

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栽培花生(arachhis hypogaea L.)成熟性状的表型变异

花生品种间的成熟期差异很大，是一种复杂的性状，可能受多种基因控制和环境影响。果实在地下形成，加之生长习性不确定，使花生成为难以探索这一性状遗传控制的作物品种。将花生成熟期的总表型划分为各组成性状，有助于解剖控制花生成熟期的遗传通路。在本研究中，对主茎开花、开花率、花钉转化率、节间长度、生殖和营养节点分布、分枝数、可收获荚果百分比和收获指数等对花生成熟时间有影响的组成性状进行了量化。所有被测性状在被测基因型间的差异均有统计学意义。这些基因型是四个已建立的重组近交系的亲本系。具有不同亲本表型值的群体可用于相关性状的进一步QTL定位。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Peanut Science

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