Resistance to wheat rusts identified in wheat/<i>Amblyopyrum muticum</i> chromosome introgressions
John P. Fellers, Angie Matthews, Allan K. Fritz, Matthew N. Rouse, Surbhi Grewal, Stella Hubbart‐Edwards, I. P. King, Julie King
Abstract
Abstract Wheat ( Triticum aestivum L.) rusts are a worldwide production problem. Plant breeders have used genetic resistance to combat these fungi. However, single‐gene resistance is rapidly overcome as a result of frequent occurrence of new virulent fungal strains. Thus, a supply of new resistance sources is continually needed, and new resistance sources are limited within hexaploid wheat genetic stocks. Wild relatives are able to be a resource for new resistance genes but are hindered because of chromosome incapability with domesticated wheats. Twenty‐eight double‐haploid hexaploid wheat /Amblyopyrum muticum (Boiss.) Eig introgression lines, with introgressions covering the majority of the T genome, were evaluated for resistance to Puccinia triticina Erikss., P. graminis Pers.:Pers. f.sp. tritici Erikss. & E. Henning, and P. striiformis Westend. f.sp. tritici Erikss.. At the seedling level, four lines were resistant to races of P. triticina , six lines were resistant to P. graminis , and 15 lines were resistant to P. striiformis . At the adult stage, 16 lines were resistant to P. triticina . Line 355 had resistance to all three rusts and line 161 had resistance to all tested races of P. triticina . Some of these lines will require further work to reduce the size of the introgressed segment; however, lines 92 and 355 have very small fragments and can be used directly as new resistance donors.