Abstract
In our study, we focused on the link among various parameters of chlorophyll a fluorescence and yield elements in the barley doubled haploid (DH) lines. There were significant differences in all studied DH lines, both in yield components and parameters of chlorophyll a fluorescence. The most variable parameter was overall performance index of PSII (PI) while the least was the amount of energy trapped in PSII reaction centers (TRo/CS). Considering yield components, high variation was also observed in the subsequent order from highest to lowest variation: biomass, thousand-grain weight (TGW) and grain number per plant (GNP). Significant negative correlation was found among the following fluorescence parameters: PI and light energy absorption (ABS/CS), as well as between maximum photochemical efficiency (Fv/Fm) and TGW, and between biomass and electron acceptors pool size from PSII (Area). Conversely, significant positive correlation was found between: Area and PI, Area and energy used for electron transport (ETo/CS), Area and GNP, PI and ETo/CS, PI and GNP, ABS/CS and TRo/CS, as well as between ETo/CS and GNP. Yield components combined with fluorescence parameters of chlorophyll a expressed with canonical variate analysis did not clearly distinguish the barley DH lines into hulled and hull-less groups. The mean value for these groups significantly differs only for ETo/CS and TGW values. The other parameters are distributed almost uniformly in hulled and hull-less lines. However, certain hull-less DH lines possess higher yield parameters compared to parental forms, which suggests a possibility of occurrence of transgression effects. The results suggest the chance to find valuable hull-less forms that are desired by breeders and plant producers, since these forms possess favorable functional features.
Highlights
After rice, wheat, and maize, barley (Hordeum vulgare L.) occupies fourth place in cereal production, holding a significant role in world crop production [1]
The following indices were measured per excited leaf cross-section (CS): Fv/Fm, PI, ABS/CS, trapped in photosystem II (PSII) reaction centers (TRo/CS), ETo/CS, and Area
The results of the multivariate analysis of variance (MANOVA) performed indicated that all the genotypes (Wilk’s λ = 0.00102; F = 2.21; p < 0.0001) were significantly different with regard to all of the nine quantitative traits
Summary
Wheat, and maize, barley (Hordeum vulgare L.) occupies fourth place in cereal production, holding a significant role in world crop production [1]. Plant breeding currently has many techniques such as haploidization to generate new cultivars in shorter time. The time can be shortened by applying doubled haploid (DH) methods, which produce homozygotes for one year and make plant selection much easier [8]. DH can be utilized as material in genetic map creation. Utilization of the technique is focused on the creation of a DH mapping population with markers associated with essential and economically important traits. As homozygous DH lines can be repeatedly phenotyped, they are good material for studying polygenic traits inherited quantitatively, which may involve a trial with replication in time and different localization for relevant phenotyping and marker generation [8]
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