Abstract
BackgroundClones provide a sensitive method for evaluating genotypic stability and detecting genotype-environment (G × E) interactions because of non-additive genetic effects among clones and there being no genetic effect among ramets of an ortet. With this study, we aimed to confirm and expand earlier findings, estimate stability parameters, and provide accurate estimates of clonal repeatabilities and genetic gains for a triploid breeding program of P. tomentosa Carr.ResultsSix 5-year-old clonal trials established in Northern China were used to determine the clonal variation, clone × site interactions, and the stability parameters of fiber properties of wood and growth traits. 360 trees from ten hybrid clones were collected from six sites. The clonal and site effects had a highly significant effect (P < 0.001) for all studied traits. While the clone × site interactions had a highly significant effect (P < 0.001) on fiber length (FL), coarseness (C), and tree growth (tree height [H], diameter at breast height [DBH] and stem volume [SV]), and a moderate effect (P < 0.05) on fiber width (FW) and fiber length/width (FL/W). For FL and SV, most of the triploid hybrid clones had higher reaction norms to the improvement in growth conditions and higher phenotypic plasticity. The estimated clonal repeatability of FW (0.93) was slightly higher than for FL (0.89), FL/W (0.83), C (0.91), DBH (0.76), H (0.85), and SV (0.80). Three clonal testing sites were sufficient to estimate quantitative parameters of fiber properties, however, more clonal testing sites would help improve the accuracy of quantitative parameters of the growth traits.ConclusionsOur results highlight that accurate estimation of quantitative parameters for growth traits in triploid hybrid clones of P. tomentosa requires more clonal testing sites than the fiber properties.
Highlights
Clones provide a sensitive method for evaluating genotypic stability and detecting genotypeenvironment (G × E) interactions because of non-additive genetic effects among clones and there being no genetic effect among ramets of an ortet
Testing and selection in tree improvement programs are complicated by this interaction, and it often leads to reduced total genetic gains
It is expected that clones are more sensitive in different environments than either seed- or family-origin plants because there is no genetic effects among ramets of an ortet and non-additive genetic effects among clones are substantial
Summary
Clones provide a sensitive method for evaluating genotypic stability and detecting genotypeenvironment (G × E) interactions because of non-additive genetic effects among clones and there being no genetic effect among ramets of an ortet. The triploid hybrid clones of P. tomentosa have been shown to display a high degree of variability in growth, fiber traits, wood basic density, and wood chemical properties [1, 3,4,5,6]. This variability indicates that intriguing gains may be obtained through selection. Clones can provide a sensitive method for evaluating genotypic stability and detecting G × E interactions [13]
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