Estimation of additive and epistatic genetic variances for agronomic traits in a population of doubled-haploid lines of wheat

• Published in: Heredity Vol. 79; no. 1; pp. 60 - 71
• Main Authors: Goldringer, I, Brabant, P, Gallais, A
• Format: Journal Article
• Language: English
• Published: Nature Publishing Group 01.07.1997
• Subjects: Human health and pathology; Life Sciences; Triticum aestivum; AMELIORATION DES PLANTES
• ISSN: 0018-067X; 1365-2540; 0018-067X
• DOI: 10.1038/hdy.1997.123

In order to determine a selection strategy for a population of winter wheat subjected to recurrent selection, we assessed the relative extent of both additive and epistatic effects for agronomic traits involved in yield performance. The partitioning (between and within mother plant) of the genetic variance in doubled-haploid lines derived from the intercrossed population provided estimates of additive and epistatic additive X additive variances at the pure line level. Two similar experiments with 56 lines in 1992 and with 73 in 1993 were conducted at Gif sur Yvette in France. Results showed that 1993 was less favourable for yield performance than 1992. Even when genotype-by-year interactions were found significant, both genetic effects (between plants, between lines within plants) were consistent from one year to the other, and the ratios of variances appeared rather homogeneous over years. Earliness and powdery mildew resistance showed a large epistatic variance. Plant height seemed to be quite additive; this certainly could be related to the presence of two major dwarfing genes polymorphic in the population. Morphological traits of the spike showed larger additive than epistatic variance. Yield components measured on the spike either were predominantly additive or displayed both additive and epistatic effects. For grain yield, which is the most integrative trait, we found larger epistatic than additive variance. The genetic control of a given trait cannot be definitively characterized because it depends on the genetic material, the test system and the environmental conditions. However, our results show the importance of epistasis especially in the genetic control of complex traits.