Comparison of Three Alleles at a Major Solid Stem QTL for Wheat Stem Sawfly Resistance and Agronomic Performance in Hexaploid Wheat

Cook, Jason P.; Weaver, David K.; Varella, Andrea C.; Sherman, Jamie; Hofland, Megan L.; Heo, Hwa‐Young; Caron, Christopher G; Lamb, P. F.; Blake, N. K.; Talbert, L. E.

doi:10.2135/cropsci2019.01.0009

Cited by 9 publications

(18 citation statements)

References 42 publications

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“…Our results indicate that the use of the Conan‐derived allele for WSS resistance in winter wheat was not as effective as the Rescue‐derived Qss.msub‐3BL.b allele. These results contrast with the study of hard red spring wheat where the Conan‐derived allele provided similar levels of WSS resistance as the Rescue‐derived allele (Cook et al., 2019). We believe this is due to a greater number of adult WSS remaining active after the pith produced by the Conan‐derived allele is degraded in winter wheat.…”

Section: Discussioncontrasting

confidence: 96%

“…Temporal expression of the Qss.msub‐3BL.c solid stem phenotype in the Yellowstone NILs was significantly higher than NILs with the hollow stem Qss.msub‐3BL.a allele at early plant development and maturity growth stages (Figure 2). This is similar to what was observed in the hollow stem spring wheat genetic backgrounds (Cook et al., 2019; Varella et al., 2016). Additionally, stem solidness expressed by the Qss.msub‐3BL.c allele significantly declined between early and mature temporal solid stem measurements, which is also what was observed in spring wheat (Cook et al., 2019; Varella et al., 2016).…”

Section: Discussionsupporting

confidence: 90%

“…As described by Cook et al. (2019), MAB was used to select heterozygous progeny in backcross generations BC 1 , BC 2, and BC 3 using microsatellite marker Xgwm340 , and a Kompetative allele‐specific polymerase chain reaction (KASP) marker, Conan_3B_7 . Microsatellite marker Xgwm340 is diagnostic for all three Qss.msub‐3BL alleles, and the primers are Xgwm340‐F : GCAATCTTTTTTCTGACCACG and Xgwm340‐R : ACGAGGCAAGAACACACATG.…”

Section: Methodsmentioning

confidence: 99%

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Evaluation of wheat stem sawfly‐resistant solid stem Qss.msub‐3BL alleles in hard red winter wheat

et al. 2023

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Host plant resistance provided by solid stems has been the most effective means for mitigating wheat stem sawfly (WSS) (Cephus cinctus Norton) damage in spring and winter wheat (Triticum aestivum L.). The solid stem trait originates from the spring wheat cultivar “Rescue” and is associated with a quantitative trait locus allele Qss.msub‐3BL.b that explains the majority of the variation for stem solidness. Recently, a new Qss.msub‐3BL solid stem allele, designated Qss.msub‐3BL.c, was identified in the spring wheat cultivar “Conan”. It produces a solid stem phenotype early in plant development but dissipates during plant growth. The Qss.msub‐3BL.c allele provides effective WSS resistance in spring wheat but has not been tested in winter wheat. To examine if the Qss.msub‐3BL.c allele provides adequate WSS resistance in winter wheat, near‐isogenic lines (NILs) were developed using marker‐assisted backcrossing. This enabled comparisons between the hollow stem Qss.msub‐3BL.a, solid stem Qss.msub‐3BL.b and solid stem Qss.msub‐3BL.c alleles for stem solidness, WSS resistance, and agronomic traits in Montana growing environments. Compared to the hollow stem allele, the NILs with the Qss.msub‐3BL.c allele increased stem solidness and reduced WSS stem cutting. However, the Qss.msub‐3BL.c allele resulted in lower solid stem scores and greater WSS stem cutting compared to the Qss.msub‐3BL.b allele. Overall, these findings indicate that the Qss.msub‐3BL.c allele failed to provide sufficient WSS resistance in the winter wheat backgrounds tested in this study.

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Section: Discussioncontrasting

confidence: 96%

Section: Discussionsupporting

confidence: 90%

Section: Methodsmentioning

confidence: 99%

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Evaluation of wheat stem sawfly‐resistant solid stem Qss.msub‐3BL alleles in hard red winter wheat

et al. 2023

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“…Therefore, host plant resistance is of critical importance. Although host plant resistance that is due to the presence of solid pith in the stem can be relatively successful for reducing stem cutting in wheat ( Beres et al 2013 , Wu et al 2013 , Talbert et al 2014 , Carcamo et al 2016 , Varella et al 2016 , Adhikari et al 2018 ), solid stems may be compromised by environmental effects on pith expression ( Beres et al 2009 , 2017 ) and relative expression of the trait in different backgrounds ( Cook et al 2019 , Varella et al 2019 , Bainsla et al 2020 ). In addition to stem solidness, other defense-related metabolites, such as DIMBOA (2,4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one), tricetin, and lignin are downregulated in C. cinctus -infested wheat stems when compared with uninfested stems ( Biyiklioglu et al 2018 ).…”

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confidence: 99%

Antixenosis, Antibiosis, and Potential Yield Compensatory Response in Barley Cultivars Exposed to Wheat Stem Sawfly (Hymenoptera: Cephidae) Under Field Conditions

Achhami

Reddy

Sherman

et al. 2020

Journal of Insect Science

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Wheat stem sawfly, Cephus cinctus Norton, is an economically serious pest of cereals grown in North America. Barley cultivars were previously planted as resistant crops in rotations to manage C. cinctus, but due to increasing levels of injury to this crop, this is no longer a valid management tactic in Montana. Therefore, we aimed to understand antixenosis (behavioral preference), antibiosis (mortality), and potential yield compensation (increased productivity in response to stem injuries) in barley exposed to C. cinctus. We examined these traits in eight barley cultivars. Antixenosis was assessed by counting number of eggs per stem and antibiosis was assessed by counting infested stems, dead larvae, and stems cut by mature larvae. Potential yield compensation was evaluated by comparing grain yield from three categories of stem infestation: 1) uninfested, 2) infested with dead larva, and 3) infested cut by mature larva at crop maturity. We found the greatest number of eggs per infested stem (1.80 ± 0.04), the highest proportion of infested stems (0.63 ± 0.01), and the highest proportion of cut stems (0.33 ± 0.01) in ‘Hockett’. Seven out of eight cultivars had greater grain weight for infested stems than for uninfested stems. These cultivars may have compensatory responses to larval feeding injury. Overall, these barley cultivars contain varying levels of antixenosis, antibiosis, and differing levels of yield compensation. Our results provide foundational knowledge on barley traits that will provide a framework to further develop C. cinctus resistant or tolerant barley cultivars.

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“…The efficacy of WSS resistance is greatly influenced by both genotype (G) and growing environment, and (or) their interactions (GE) (Beres et al 2011). Genetic mapping confirmed that stem-solidness in wheat cultivars is controlled predominantly by the Qss.msub-3BL locus on chromosome 3B introduced from the Portuguese landrace (McNeal et al 1959;Varella et al 2019) and other minor genes located on chromosomes 3A, 3B, 3D, 5A, 5B, and 5D (Larson and MacDonald 1959;Cook et al 2004Cook et al , 2019Houshmand et al 2007;Nilsen et al 2017;Appels et al 2018;Varella et al 2019). The recently released hexaploid wheat reference genome reported a gene called SSt1 (Appels et al 2018), which is responsible for stem solidness controlled by the Qss.msub-3BL.b allele.…”

Section: Introductionmentioning

confidence: 94%

Stability analysis of stem solidness, grain yield, and grain protein concentration in spring wheat

et al. 2021

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The wheat stem sawfly, Cephus cinctus Norton (Hymenoptera: Cephidae), is a major pest of wheat (Triticum aestivum L.) in the northern Great Plains where it is a constant threat in Montana and is resurging in Alberta, Saskatchewan and North Dakota. Adoption of solid-stemmed cultivars is an important management tool for wheat growers; however, the inconsistent pith expression first noted with the release of ‘Rescue’ has been repeatedly observed in modern cultivars such as ‘Lillian’ in Canada. Given the extensive hectares planted to solid-stemmed wheat cultivars during an outbreak, identification of cultivars that display stable stem solidness, grain yield and grain protein concentration across a wide range of environments where stem sawfly infestations occur is desirable. We assessed spring wheat plant responses in eight solid-stemmed and two hollow-stemmed genotypes grown across diverse environments using multiple statistical models. Study sites included southern Alberta and Saskatchewan, Montana and North Dakota. Most models agreed that the genotypes, ‘Choteau’ ‘BW925’ and ‘Mott’ consistently displayed high and stable stem solidness concomitant with high grain yield. ‘Choteau’ and ‘BW925’ also consistently met or exceeded the desired threshold of a 3.75/5 pith rating (averaged from the lower four stem internodes) for optimum resistance whereas, ‘Mott’ developed optimal pith at a specific (early) phenological stage when resistance to WSS infestation is critical. Exploring stability of stem solidness identified ideal genotypes that would enhance germplasm development efforts, which exemplifies how this approach can facilitate the selection, production, and adoption of solid-stemmed wheat cultivars in regions prone to WSS attack.

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Comparison of Three Alleles at a Major Solid Stem QTL for Wheat Stem Sawfly Resistance and Agronomic Performance in Hexaploid Wheat

Cited by 9 publications

References 42 publications

Evaluation of wheat stem sawfly‐resistant solid stem Qss.msub‐3BL alleles in hard red winter wheat

Evaluation of wheat stem sawfly‐resistant solid stem Qss.msub‐3BL alleles in hard red winter wheat

Antixenosis, Antibiosis, and Potential Yield Compensatory Response in Barley Cultivars Exposed to Wheat Stem Sawfly (Hymenoptera: Cephidae) Under Field Conditions

Stability analysis of stem solidness, grain yield, and grain protein concentration in spring wheat

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