Genetic variation and association of yield, yield components, and carbon storage in sorghum (Sorghum bicolor [L.] Moench) genotypes.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-08-01 DOI:10.1186/s12863-024-01256-4
Asande Ngidi, Hussein Shimelis, Seltene Abady, Vincent Chaplot, Sandiswa Figlan
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Abstract

Trait heritability and the response to selection depend on genetic variation, a prerequisite to developing sorghum varieties with desirable agronomic traits and high carbon sequestration for sustainable crop production and soil health. The present study aimed to assess the extent of genetic variability and associations among agronomic and carbon storage traits in selected sorghum genotypes to identify the best candidates for production or breeding. Fifty genotypes were evaluated at Ukulinga, Bethlehem and Silverton sites in South Africa during the 2022/23 growing season. The following agronomic and carbon storage traits were collected: days to 50% heading (DTH), days to 50% maturity (DTM), plant height (PH), total plant biomass (PB), shoot biomass (SB), root biomass (RB), root-to-shoot biomass ratio (RS), grain yield (GY), harvest index (HI), shoot carbon content (SCc), root carbon content (RCc), grain carbon content (GCc), total plant carbon stock (PCs), shoot carbon stock (SCs), root carbon stock (RCs), and root-to-shoot carbon stock ratio (RCs/SCs), and grain carbon stock (GCs). Higher genotypic coefficient of variations (GCVs) were recorded for GY at 45.92%, RB (39.24%), RCs/SCs (38.45), and RCs (34.62). Higher phenotypic coefficient of variations (PCVs) were recorded for PH (68.91%), followed by GY (51.8%), RB (50.51%), RS (41.96%), RCs/SCs (44.90%), and GCs (41.90%). High broad-sense heritability and genetic advance were recorded for HI (83.76 and 24.53%), GY (78.59 and 9.98%), PB (74.14 and 13.18%) and PCs (53.63 and 37.57%), respectively, suggesting a marked genetic contribution to the traits. Grain yield exhibited positive association with HI (r = 0.76; r = 0.79), DTH (r = 0.13; r = 0.31), PH (r = 0.1; r = 0.27), PB (r = 0.01; r = 0.02), RB (r = 0.05; r = 0.06) based on genotypic and phenotypic correlations, respectively. Further, the path analysis revealed significant positive direct effects of SB (0.607) and RB (0.456) on GY. The RS exerted a positive and significant indirect effect (0.229) on grain yield through SB. The study revealed that PB, SB, RB, RS, RCs, and RCs/SCs are the principal traits when selecting sorghum genotypes with high yield and carbon storage capacity.

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高粱(Sorghum bicolor [L.] Moench)基因型的产量、产量成分和碳储存的遗传变异与关联。
性状遗传率和对选择的反应取决于遗传变异,这是培育具有理想农艺性状和高碳固存的高粱品种以促进可持续作物生产和土壤健康的先决条件。本研究旨在评估选定高粱基因型的遗传变异程度以及农艺性状和碳储存性状之间的关联,以确定生产或育种的最佳候选品种。2022/23 年生长季期间,在南非乌库林加、伯利恒和西弗顿等地对 50 个基因型进行了评估。收集了以下农艺性状和碳储存性状:50%打顶天数(DTH)、50%成熟天数(DTM)、株高(PH)、植株总生物量(PB)、芽生物量(SB)、根生物量(RB)、根-芽生物量比(RS)、谷物产量(GY)、收获指数(HI)、芽碳含量(SCc)、根碳含量(RCc)、根碳含量 (RCc)、谷物碳含量 (GCc)、植物总碳储量 (PCs)、芽碳储量 (SCs)、根碳储量 (RCs) 和根芽碳储量比 (RCs/SCs) 以及谷物碳储量 (GCs)。GY 的基因型变异系数(GCVs)较高,为 45.92%,RB 为 39.24%,RCs/SCs 为 38.45,RCs 为 34.62。表型变异系数(PCV)较高的是 PH(68.91%),其次是 GY(51.8%)、RB(50.51%)、RS(41.96%)、RCs/SCs(44.90%)和 GCs(41.90%)。HI(83.76 和 24.53%)、GY(78.59 和 9.98%)、PB(74.14 和 13.18%)和 PCs(53.63 和 37.57%)的广义遗传率和遗传进展分别较高,表明这些性状的遗传贡献显著。根据基因型和表型相关性,谷粒产量分别与 HI(r = 0.76;r = 0.79)、DTH(r = 0.13;r = 0.31)、PH(r = 0.1;r = 0.27)、PB(r = 0.01;r = 0.02)、RB(r = 0.05;r = 0.06)呈正相关。此外,路径分析显示,SB(0.607)和 RB(0.456)对 GY 有显著的直接正效应。RS 通过 SB 对谷物产量产生了显著的正向间接效应(0.229)。研究表明,PB、SB、RB、RS、RCs 和 RCs/SCs 是选育高产高碳高粱基因型的主要性状。
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