Pathogenicity and microsatellite characterization of Puccinia hordei in South Africa

Abstract

Cultivated barley (Hordeum vulgare) is an important winter cereal in South Africa (SA), ranked second after wheat. Leaf rust, caused by Puccinia hordei Otth. (Ph), is one of the most common diseases affecting grain yield and quality of barley. In this study, isolates of Ph were pathotyped using differential cultivars and lines with designated Rph-resistance genes, as well as a set of Bowman introgression lines (BW) containing resistance genes Rph1 to Rph15. Single pustule isolates derived from recently collected field isolates, typed as Ph race UVPh7235, showed increased virulence to Rph3 when compared with previously described races from SA. Discrepancies in phenotypic responses were recorded between standard differential lines carrying Rph2, Rph6 and Rph9 and the corresponding BW lines. Results for barley cultivars with designated sources of adult plant resistance revealed low seedling infection types (ITs) for Baronesse (Rph20 + Rph24) to all Ph isolates and for Lenka (Rph20 + Rph23 + Rph24) to isolates of Ph races UVPh3231 and UVPh7231. The barley cultivars Agulhas and Cristalia showed low seedling ITs and moderate to high levels of adult plant resistance under field and greenhouse conditions, respectively. Genotyping of 48 Ph isolates with 20 microsatellite markers revealed five closely related genetic lineages with low gene diversity and allelic richness levels. While STRUCTURE analysis revealed three clusters, no clear division of the isolates into the clusters was evident, as the isolates were admixed for all three. Linkage disequilibrium analysis, as well as higher HO versus HE values, supported the hypothesis that the South African Ph population is clonal, consisting of a single genetic lineage.