Abstract
Pasmo is one of the most widespread diseases threatening flax production. To identify genetic regions associated with pasmo resistance (PR), a genome-wide association study was performed on 370 accessions from the flax core collection. Evaluation of pasmo severity was performed in the field from 2012 to 2016 in Morden, MB, Canada. Genotyping-by-sequencing has identified 258,873 single nucleotide polymorphisms (SNPs) distributed on all 15 flax chromosomes. Marker-trait associations were identified using ten different statistical models. A total of 692 unique quantitative trait nucleotides (QTNs) associated with 500 putative quantitative trait loci (QTL) were detected from six phenotypic PR datasets (five individual years and average across years). Different QTNs were identified with various statistical models and from individual PR datasets, indicative of the complementation between analytical methods and/or genotype × environment interactions of the QTL effects. The single-locus models tended to identify large-effect QTNs while the multi-loci models were able to detect QTNs with smaller effects. Among the putative QTL, 67 had large effects (3–23%), were stable across all datasets and explained 32–64% of the total variation for PR in the various datasets. Forty-five of these QTL spanned 85 resistance gene analogs including a large toll interleukin receptor, nucleotide-binding site, leucine-rich repeat (TNL) type gene cluster on chromosome 8. The number of QTL with positive-effect or favorite alleles (NPQTL) in accessions was significantly correlated with PR (R2 = 0.55), suggesting that these QTL effects are mainly additive. NPQTL was also significantly associated with morphotype (R2 = 0.52) and major QTL with positive effect alleles were present in the fiber type accessions. The 67 large effect QTL are suited for marker-assisted selection and the 500 QTL for effective genomic prediction in PR molecular breeding.
Highlights
Flax (Linum usitatissimum L.) is an important economic crop for both linseed and stem fiber
The remaining 692 quantitative trait nucleotides (QTNs) were merged into a total of 500 quantitative trait loci (QTL) based on the linkage disequilibrium D′ criteria between contiguous QTNs
Using 10 statistical methods, a total of 500 QTL, including 67 stable and large-effect QTL and many additional small effect and environment-specific QTL were identified for pasmo severity (PS), using a diversity panel of 370 flax accessions genotyped with 258,873 genome-wide single nucleotide polymorphisms (SNPs) and phenotyped in the field during 5 consecutive years
Summary
Flax (Linum usitatissimum L.) is an important economic crop for both linseed and stem fiber. Pasmo, caused by Septoria linicola (Speg.) Garassini, is one of the most widespread diseases threatening flax production. Infected plants show brown circular lesions on leaves and brown to black banding patterns alternating with green healthy tissue on stems. Pasmo infects flax plants from seedling to maturity, but it is most acute during ripening under high humidity and high temperature conditions. Yield losses in susceptible varieties can reach up to 75% despite fungicide application (Hall et al, 2016). Despite the slow improvements made in pasmo resistance (PR) through breeding, developing resistant varieties remains the most efficient and environmentally friendly approach to prevent yield losses caused by the disease
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