Screening Stripe Rust Resistance Wheat Germplasm Using Molecular Markers and Phenotypic Evaluation

Wheat stripe rust, caused by Puccinia striiformis f. sp. tritici (Pst), is an important disease in wheat production. Breeding disease-resistant breeds is the most effective measure for preventing and controlling this disease. In this study, hybrid combinations were developed using wheat varieties Mianmai367 and Zhoumai22; 40059, 40047, and Zhoumai8425B. Mixed seed harvesting and artificial selection were conducted from the F1 to F4 generations, followed by manual screening of superior disease-resistant single plants in the F5 generation to obtain 271 F6 families. These F6 families underwent molecular marker detection, disease resistance identification, and agronomic trait evaluation. The molecular markers included markers linked to YrZH84 (Xcfa2040, Xbarc32), YrZH22 (WGGB119, WGGB124), Yr30 (Xgwm533, We173), and Yr26 (Xbarc181). Through a comprehensive selection, wheat families with either single or multiple pyramided genes that exhibited both disease resistance and excellent agronomic traits were identified. Ultimately, 63 wheat families with excellent agronomic traits and disease resistance were selected. Among 63 pedigrees, there are three pedigrees containing four genes YrZH84, Yr30, YrZH22, and Yr26, four pedigrees containing three genes, 13 families containing two genes, 22 families containing one gene, and 21 families containing none of the genes. These families exhibit strong stripe rust resistance and superior agronomic characteristics, making them suitable for developing new wheat lines with durable resistance and high-yield potential. They thus provide effective materials for wheat breeding.