esistance to Puccinia striiformis was examined in nine wheat recombinant inbred lines (RILs) from a cross between ‘Camp Rémy’ (resistant parent) and ‘Récital’ (susceptible parent) using an isolate of a strain common to the northwestern European population before 2011 (old) and two additional isolates, one representing an aggressive and high-temperature-adapted strain (PstS2) and another representing a virulence phenotype new to Europe since 2011 (new). The RILs carried different combinations of quantitative trait loci (QTL) for resistance to P. striiformis. Under greenhouse conditions, the three isolates gave highly contrasting results for infection type, latent period, lesion length, and diseased leaf area. The PstS2 isolate revealed Yr genes and QTL which conferred complete resistance in adult plants. Six QTL had additive effects against the old isolate whereas the effects of these QTL were significantly lower for the new isolate. Furthermore, the new isolate revealed previously undetected resistance in the susceptible parent. Disease severity under field conditions agreed with greenhouse results, except for Camp Rémy being fully resistant to the new isolate and for two RILs being susceptible in the field. These results stress the need of maintaining high genetic diversity for disease resistance in wheat and of using pathogen isolates of diverse origin in studies of host resistance genetics.
Phytopathology, 2014, Vol 104, Issue 10, p. 1042-1051