Recurrent Selection for Fusarium Head Blight Resistance in a Durum Wheat Population
CROP SCIENCE(2024)
摘要
Fusarium head blight (FHB) is a devastating fungal disease of wheat. Since early 1990s, frequent FHB epidemics in major wheat-growing regions have caused massive economic losses. Developing FHB-resistant varieties is key to minimize the loss caused by the disease. In durum wheat (Triticum turgidum L. ssp. durum), however, it is challenged by lack of resistant sources. Introgression of resistance genes from wild relatives and bread wheat has resulted in some durum wheat lines with moderate resistance. Due to its complex genetic nature, integrating more resistance genes with moderate and even minor effects promises to provide high and durable FHB resistance. In this study, a base population was developed using diverse resistant lines and elite durum wheat breeding lines as founders and went through three cycles of phenotypic selection from 2019 to 2022, with FHB severity decreased by 34%. Six S0:1 lines in Cycle 2 and Cycle 3 populations exhibited significantly lower FHB severity than the moderately susceptible check variety ND Riveland. The results suggested that recurrent phenotypic selection could effectively improve FHB resistance. Analysis of the founders and Cycle 2 and Cycle 3 populations with 2706 single nucleotide polymorphism markers indicated that there was little decrease in genetic variation due to selection. Genome-wide association analysis found no markers significantly associated with FHB severity. Genomic prediction accuracies based on cross-validation for FHB severity, plant height, and days-to-flowering were 0.51, 0.69, and 0.61, respectively. Recurrent genomic selection can shorten the select cycle to 4 months and therefore is promising to accelerate genetic improvement of FHB severity. Recurrent phenotypic selection could effectively improve FHB resistance in durum wheat.A moderate prediction accuracy for FHB severity was found in the durum wheat recurrent selection population.Recurrent genomic selection can shorten select cycle and is promising to accelerate genetic improvement.
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Wheat
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