Assessing genetic resistance to spot blotch, Stagonospora nodorum blotch and tan spot in wheat from Nepal

Tan spot and Stagonospora nodorum blotch (SNB), often occurring together, are two economically significant diseases of wheat in the Northern Great Plains of the United States. They are caused by the fungi Pyrenophora tritici-repentis and Parastagonospora nodorum, respectively, both of which produce multiple necrotrophic effectors (NE) to cause disease. In this work, 120 hard red winter wheat (HRWW) cultivars or elite lines, mostly from the United States, were evaluated in the greenhouse for their reactions to the two diseases as well as NE produced by the two pathogens. One P. nodorum isolate (Sn4) and four Pyrenophora tritici-repentis isolates (Pti2, 331-9, DW5, and AR CrossB10) were used separately in the disease evaluations. NE sensitivity evaluation included ToxA, Ptr ToxB, SnTox1, and SnTox3. The numbers of lines that were rated highly resistant to individual isolates ranged from 11 (9%) to 30 (25%) but only six lines (5%) were highly resistant to all isolates, indicating limited sources of resistance to both diseases in the U.S. adapted HRWW germplasm. Sensitivity to ToxA was identified in 83 (69%) of the lines and significantly correlated with disease caused by Sn4 and Pti2, whereas sensitivity to other NE was present at much lower frequency and had no significant association with disease. As expected, association mapping located ToxA and SnTox3 sensitivity to chromosome arm 5BL and 5BS, respectively. A total of 24 potential quantitative trait loci was identified with −log (P value) > 3.0 on 12 chromosomes, some of which are novel. This work provides valuable information and tools for HRWW production and breeding in the Northern Great Plains.

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Resistance to Tan Spot and Stagonospora nodorum Blotch in Wheat-Alien Species Derivatives

Plant Disease ◽

10.1094/pdis-92-1-0150 ◽

2008 ◽

Vol 92 (1) ◽

pp. 150-157 ◽

Cited By ~ 19

Author(s):

R. E. Oliver ◽

X. Cai ◽

R.-C. Wang ◽

S. S. Xu ◽

T. L. Friesen

Keyword(s):

Alien Species ◽

Resistance Genes ◽

Wheat Breeding ◽

Tan Spot ◽

Stagonospora Nodorum ◽

Wheat Line ◽

Stagonospora Nodorum Blotch ◽

Economical Method ◽

Pyrenophora Tritici Repentis ◽

The World

Tan spot (caused by Pyrenophora tritici-repentis) and Stagonospora nodorum blotch (SNB) (caused by Stagonospora nodorum) are destructive fungal diseases of wheat (Triticum aestivum) throughout the world. Host plant resistance is thought to be an efficient and economical method of control. The objective of the present study was to identify novel sources of tan spot and SNB resistance in wheat genotypes derived from the crosses between wheat and alien species. Evaluations were conducted at the seedling stage in a growth chamber with 100% relative humidity. For each genotype, three replications were used for each disease. Among the 199 wheat-alien species derivatives evaluated, 65 exhibited resistance to tan spot and 30 showed resistance to SNB similar to BR34, a Brazilian wheat line used as the resistant control. Eleven derivatives were resistant to both diseases. Reactions of the derivatives and their respective wheat parents to tan spot and SNB suggest that resistance genes in the derivatives are derived from alien species. These derivatives can serve as desirable bridges for introgression of resistance genes from alien species to cultivated wheat, and could contribute novel and effective tan spot and SNB resistance to wheat breeding.

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Reevaluation of a Tetraploid Wheat Population Indicates that the Tsn1–ToxA Interaction Is the Only Factor Governing Stagonospora nodorum Blotch Susceptibility

Phytopathology ◽

10.1094/phyto-99-8-0906 ◽

2009 ◽

Vol 99 (8) ◽

pp. 906-912 ◽

Cited By ~ 30

Author(s):

Justin D. Faris ◽

Timothy L. Friesen

Keyword(s):

Mapping Population ◽

Tetraploid Wheat ◽

Tan Spot ◽

Stagonospora Nodorum ◽

Stagonospora Nodorum Blotch ◽

Wheat Population ◽

Chromosome 5B ◽

Study Results ◽

Trait Locus

The wheat Tsn1 gene on chromosome 5B confers sensitivity to a host-selective toxin produced by the pathogens that cause tan spot and Stagonospora nodorum blotch (SNB) known as Ptr ToxA and SnToxA, respectively (hereafter referred to as ToxA). A compatible Tsn1–ToxA interaction is known to play a major role in conferring susceptibility of hexaploid (common) wheat to SNB. However, a recent study by another group suggested that the Tsn1–ToxA interaction was not relevant in conferring susceptibility of the tetraploid (durum) wheat cv. Langdon (LDN). Here, we reevaluated the role of the Tsn1–ToxA interaction in governing SNB susceptibility using the same mapping population and Stagonospora nodorum isolate (Sn2000) as were used in the previous study. Results of our quantitative trait locus analysis showed that the Tsn1 locus accounted for 95% of the variation in SNB. In addition, inoculation of the mapping population with two ToxA-knockout strains of Sn2000 revealed that the entire population was resistant. Furthermore, several LDN Tsn1-disrupted mutants were evaluated and found to be resistant to SNB. Together, these results prove unequivocally that Tsn1 is the only factor present along chromosome 5B that governs response to SNB in this population and that a compatible Tsn1–ToxA interaction is necessary for the manifestation of disease. Therefore, the results from the previous study are refuted.

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Mining and genomic characterization of resistance to tan spot, Stagonospora nodorum blotch (SNB), and Fusarium head blight in Watkins core collection of wheat landraces

BMC Plant Biology ◽

10.1186/s12870-019-2093-3 ◽

2019 ◽

Vol 19 (1) ◽

Author(s):

Jyotirmoy Halder ◽

Jinfeng Zhang ◽

Shaukat Ali ◽

Jagdeep S. Sidhu ◽

Harsimardeep S. Gill ◽

...

Keyword(s):

Disease Resistance ◽

Fusarium Head Blight ◽

Tan Spot ◽

Stagonospora Nodorum ◽

Head Blight ◽

Sources Of Resistance ◽

Stagonospora Nodorum Blotch ◽

Valuable Source ◽

Race 1 ◽

Genomic Regions

Abstract Background In the late 1920s, A. E. Watkins collected about 7000 landrace cultivars (LCs) of bread wheat (Triticum aestivum L.) from 32 different countries around the world. Among which 826 LCs remain viable and could be a valuable source of superior/favorable alleles to enhance disease resistance in wheat. In the present study, a core set of 121 LCs, which captures the majority of the genetic diversity of Watkins collection, was evaluated for identifying novel sources of resistance against tan spot, Stagonospora nodorum blotch (SNB), and Fusarium Head Blight (FHB). Results A diverse response was observed in 121 LCs for all three diseases. The majority of LCs were moderately susceptible to susceptible to tan spot Ptr race 1 (84%) and FHB (96%) whereas a large number of LCs were resistant or moderately resistant against tan spot Ptr race 5 (95%) and SNB (54%). Thirteen LCs were identified in this study could be a valuable source for multiple resistance to tan spot Ptr races 1 and 5, and SNB, and another five LCs could be a potential source for FHB resistance. GWAS analysis was carried out using disease phenotyping score and 8807 SNPs data of 118 LCs, which identified 30 significant marker-trait associations (MTAs) with -log10 (p-value) > 3.0. Ten, five, and five genomic regions were found to be associated with resistance to tan spot Ptr race 1, race 5, and SNB, respectively in this study. In addition to Tsn1, several novel genomic regions Q.Ts1.sdsu-4BS and Q.Ts1.sdsu-5BS (tan spot Ptr race 1) and Q.Ts5.sdsu-1BL, Q.Ts5.sdsu-2DL, Q.Ts5.sdsu-3AL, and Q.Ts5.sdsu-6BL (tan spot Ptr race 5) were also identified. Our results indicate that these putative genomic regions contain several genes that play an important role in plant defense mechanisms. Conclusion Our results suggest the existence of valuable resistant alleles against leaf spot diseases in Watkins LCs. The single-nucleotide polymorphism (SNP) markers linked to the quantitative trait loci (QTLs) for tan spot and SNB resistance along with LCs harboring multiple disease resistance could be useful for future wheat breeding.

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Stem Rust, Tan Spot, Stagonospora nodorum Blotch, and Hessian Fly Resistance in Langdon Durum– Synthetic Hexaploid Wheat Lines

Crop Science ◽

10.2135/cropsci2007.08.0463 ◽

2008 ◽

Vol 48 (3) ◽

pp. 1062 ◽

Cited By ~ 24

Author(s):

T. L. Friesen ◽

S. S. Xu ◽

M. O. Harris

Keyword(s):

Stem Rust ◽

Hexaploid Wheat ◽

Hessian Fly ◽

Tan Spot ◽

Stagonospora Nodorum ◽

Synthetic Hexaploid Wheat ◽

Stagonospora Nodorum Blotch ◽

Hessian Fly Resistance ◽

Synthetic Hexaploid ◽

Wheat Lines

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Yield increases due to fungicide control of leaf blotch diseases in wheat and barley as a basis for IPM decision-making in the Nordic-Baltic region

European Journal of Plant Pathology ◽

10.1007/s10658-020-02075-w ◽

2020 ◽

Vol 158 (2) ◽

pp. 315-333 ◽

Cited By ~ 1

Author(s):

Marja Jalli ◽

Janne Kaseva ◽

Björn Andersson ◽

Andrea Ficke ◽

Lise Nistrup-Jørgensen ◽

...

Keyword(s):

Winter Wheat ◽

Spring Barley ◽

Tan Spot ◽

Septoria Tritici Blotch ◽

Septoria Tritici ◽

Stagonospora Nodorum ◽

Net Blotch ◽

Baltic Region ◽

Stagonospora Nodorum Blotch ◽

Leaf Blotch

Abstract Fungal plant diseases driven by weather factors are common in European wheat and barley crops. Among these, septoria tritici blotch (Zymoseptoria tritici), tan spot (Pyrenophora tritici-repentis), and stagonospora nodorum blotch (Parastagonospora nodorum) are common in the Nordic-Baltic region at variable incidence and severity both in spring and winter wheat fields. In spring barley, net blotch (Pyrenophora teres), scald (Rhynchosporium graminicola, syn. Rhynchosporium commune) and ramularia leaf spot (Ramularia collo-cygni) are common yield limiting foliar diseases. We analysed data from 449 field trials from 2007 to 2017 in wheat and barley crops in the Nordic-Baltic region and explored the differences in severity of leaf blotch diseases between countries and years, and the impact of the diseases on yield. In the experiments, septoria tritici blotch dominated in winter wheat in Denmark and southern Sweden; while in Lithuania, both septoria tritici blotch and tan spot were common. In spring wheat, stagonospora nodorum blotch dominated in Norway and tan spot in Finland. Net blotch and ramularia leaf blotch were the most severe barley diseases over large areas, while scald occurred more locally and had less yield impact in all countries. Leaf blotch diseases, with severity >50% at DC 73–77, caused an average yield loss of 1072 kg/ha in winter wheat and 1114 kg/ha in spring barley across all countries over 5 years. These data verify a large regional and yearly variation in disease severity, distribution and impact on yield, emphasizing the need to adapt fungicide applications to the actual need based on locally adapted risk assessment systems.

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