Thomas H. Pridgen scite author profile

Identity of quantitative trait loci (QTL) governing resistance to fusarium head blight (FHB) initial infection (type I), spread (type II), kernel infection, and deoxynivalenol (DON) accumulation was characterized in Chinese wheat line W14. Ninety-six double-haploid lines derived from a cross of W14 · ÕPion2684Õ were evaluated for FHB resistance in two greenhouse and one field experiment. Two known major QTL were validated on chromosomes 3BS and 5AS in W14 using the composite interval mapping method. The 3BS QTL had a larger effect on resistance than the 5AS QTL in the greenhouse experiments, whereas, the 5AS QTL had a larger effect in the field experiment. These two QTL together explained 33%, 35%, and 31% of the total phenotypic variation for disease spread, kernel infection, and DON concentration in the greenhouse experiments, respectively. In the field experiment, the two QTL explained 34% and 26% of the total phenotypic variation for FHB incidence and severity, respectively. W14 has both QTL, which confer reduced initial infection, disease spread, kernel infection, and DON accumulation. Therefore, marker-assisted selection (MAS) for both QTL should be implemented in incorporating W14 resistance into adapted backgrounds. Flanking markers Xbarc133 and Xgwm493 on 3BS and Xbarc117 and Xbarc56 on 5AS are suggested for MAS.

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Registration of ‘Roane’ Wheat

Griffey

Starling

Price

et al. 2001

Crop Science

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Registration of ‘McCormick’ Wheat

et al. 2005

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Managing Nitrogen and Sulfur Fertilization for Improved Bread Wheat Quality in Humid Environments

et al. 2007

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A large proportion of the wheat (Triticum aestivum L.) milled and utilized by bakeries in the eastern United States is hard red winter wheat (HRWW). Potential for producing this higher value commodity in the eastern United States is dependent on availability of adapted HRWW cultivars that are competitive with soft red winter wheat (SRWW) cultivars and implementation of management systems to enhance end‐use quality. The effects of late‐season nitrogen (N) (0–45 kg of N/ha) applied at two growth stages (GS 45 and 54) and sulfur (S) (0–34 kg of S/ha) applied at GS 30 on grain, flour, and milling and breadbaking quality were evaluated. Three diverse wheat cultivars (Soissons, Heyne, and Renwood 3260) were studied in two to five environments. Application of S and late‐season N had little effect on grain yield. But N consistently increased grain and flour protein as well as bread loaf volume. The magnitude and significance of response to N and S varied by location and cultivar. While S alone did not have a significant effect on grain protein, S availability was critical in obtaining increased grain protein. Breadbaking quality of HRWW cultivars produced in the eastern United States can be improved through implementation of nutrient management approaches that include late‐season application of 34–45 kg of N/ha and addition of S, particularly on sandy soils where S availability in the subsoil is low.

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Registration of ‘Tribute’ Wheat

et al. 2005

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Thomas H. Pridgen

Validation of two major quantitative trait loci for fusarium head blight resistance in Chinese wheat line W14

Registration of ‘Roane’ Wheat

Registration of ‘McCormick’ Wheat

Managing Nitrogen and Sulfur Fertilization for Improved Bread Wheat Quality in Humid Environments

Registration of ‘Tribute’ Wheat

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