Heterosis estimation and heterotic grouping of sorghum [Sorghum bicolor (L) moench] inbred lines in dryland environments

Crop Design Pub Date : 2025-06-17 DOI:10.1016/j.cropd.2025.100110

Temesgen Begna , Techale Birhan , Taye Tadesse

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Abstract

Sorghum is one of the most vital cereal crops well adapted to arid and semi-arid regions. However, its productivity remains low compared to its potential, primarily due to severe and recurrent drought stress. To develop climate-resilient sorghum hybrids, it is essential to understand the extent of heterosis and identify heterotic groups comprising drought-tolerant inbred lines. Therefore, this study was conducted to quantify the magnitude of heterosis and to classify sorghum inbred lines into heterotic groups using specific combining ability (SCA) and general combining ability (GCA) across multiple traits. A total of 42 sorghum genotypes were evaluated using an alpha lattice design with two replications across two environments during the 2019 cropping season. Significant genetic differences among genotypes were observed for the traits studied across locations. Several top-performing and well-adapted hybrids P-9534 × Melkam (6.32 t ha⁻¹), B6 × ICRS-14 (5.92 t ha⁻¹), TX-623 × ICRS-14 (5.88 t ha⁻¹), P9511 × Melkam (5.78 t ha⁻¹), and P-850341 × ICRS-14 (5.57 t ha⁻¹) were identified as promising for moisture-stressed environments. Among these, B6 × ICRS-14 exhibited the highest mid-parent heterosis (112.41 %), TX-623 × ICRS-14 showed the highest better-parent heterosis (68.71 %), and P-9534 × Melkam recorded the highest standard heterosis (30.71 %) for grain yield. Heterotic grouping based on specific combining ability (SCA) classified the sorghum inbred lines into two distinct groups, while the general combining ability of multiple traits (HGCAMT) method identified three heterotic groups for the development of superior hybrid varieties. Combining ability-based heterotic grouping is a critical approach for identifying the most suitable parental lines for creating new, agronomically superior hybrids. Overall, several sorghum hybrids demonstrated superiority over their mid-parents, better-parents, and the standard check in terms of grain yield and key agronomic traits. Therefore, the hybrids P-9534 × Melkam, B6 × ICRS-14, TX-623 × ICRS-14, MARC3 × Melkam, MARC3 × ICRS-14, P-9511 × Melkam, and P-850341 × ICRS-14 were identified as superior performers with the potential to significantly increase sorghum productivity per unit area.

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旱地环境下高粱[高粱双色]自交系杂种优势评价及杂种优势类群

高粱是适应干旱半干旱地区的最重要的谷类作物之一。然而，其生产力与其潜力相比仍然很低，主要是由于严重和经常性的干旱压力。为了开发适应气候变化的高粱杂交种，必须了解杂种优势的程度，并确定由耐旱自交系组成的杂种优势群体。因此，本研究利用特定配合力（SCA）和一般配合力（GCA）对高粱自交系的杂种优势程度进行量化，并将其划分为杂种优势类群。在2019年种植季，采用α晶格设计，在两个环境中进行了两次重复，对42种高粱基因型进行了评估。不同地区的性状基因型间存在显著的遗传差异。结果表明，P-9534 × Melkam （6.32 t ha -1）、B6 × ICRS-14 （5.92 t ha -1）、TX-623 × ICRS-14 （5.88 t ha -1）、P9511 × Melkam （5.78 t ha -1）和P-850341 × ICRS-14 （5.57 t ha -1）在水分胁迫环境中表现优异，适应性良好。其中，B6 × ICRS-14中亲本杂种优势最高（112.41%），x -623 × ICRS-14优良亲本杂种优势最高（68.71%），P-9534 × Melkam标准杂种优势最高（30.71%）。基于特定配合力（SCA）的杂种优势分组将高粱自交系划分为两个不同的类群，而多性状一般配合力（HGCAMT）方法则确定了三个杂种优势类群，用于培育优良杂交种。以配合力为基础的杂种优势分组是鉴定最合适的亲本系以创造新的、农艺学上优越的杂种的关键方法。总体而言，几种高粱杂交种在产量和关键农艺性状方面均优于中亲本、好亲本和标准检验。结果表明，P-9534 × Melkam、B6 × ICRS-14、TX-623 × ICRS-14、MARC3 × Melkam、MARC3 × ICRS-14、P-9511 × Melkam和P-850341 × ICRS-14表现优异，具有显著提高高粱单位面积产量的潜力。

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Crop Design

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