Inoculation techniques, development of Brassica napus breeding lines and identification of markers associated with resistance to Sclerotinia sclerotiorum (lib.) de Bary

Sclerotinia stem rot caused by Sclerotinia sclerotiorum (Lib.) de Bary is an economic disease affecting canola (Brassica napus L). Since expression of sclerotinia stem rot symptoms shows much variability and the trait is quantitative in nature, reliable phenotypic evaluation methods for characterization are needed. The three major objectives of this dissertation were to: i) evaluate eight different inoculation methods for their reliability to discriminate between S. sclerotiorum-resistant and susceptible B. napus germplasm; ii) develop breeding lines with resistance to multiple canola diseases, and; iii) to identify QTL associated with resistance to sclerotinia stem rot using association mapping (AM). The eight methods evaluated were the detached leaves, detached stems, petiole inoculation (PIT), straw-inoculation, stem-piercing with toothpick, mycelial spray (MSI), petal inoculation and oxalic acid assay. MSI and PIT can better discriminate between the isolates and germplasm. Breeding lines resistance to S. sclerotiorum, Leptosphaeria maculans, and Rhizoctonia solani were developed from a cross between two moderately sclerotinia stem rot resistant plant introductions (PI). F2 seedlings were screened for sclerotinia stem rot using PIT. Surviving plants were self pollinated and their progeny screened again. This process was repeated until the F6 was obtained. In addition, F5 seedlings were evaluated for their reaction to R. solani and F5 and F6 seedlings for their reaction to L. maculans. Eight lines were identified as moderately resistance to these three pathogens. The genomes of a group of 278 B. napus plant introduction materials were screened using Diversity Array Technology to detect QTL associated with resistance to sclerotinia stem rot. The population was classified into nine sub-populations and 32 significant markers each explaining between 1.5 and 4.6% of the variation were identified. Blastn search indicates that similar nucleotide sequences are distributed throughout the genomes of B. oleracea, B. rapa, and A. thaliana..;Results of these studies suggest the PIT and MSI are reliable screening tools for breeders to evaluate materials for resistance to sclerotinia stem rot; materials identified as resistant to S. sclerotiorum were also moderately resistant against R. solani and L. maculans and could be valuable sources for canola improvement programs; and AM allowed us to identify QTL associated with resistance to sclerotinia stem rot.