Your search keyword '"Pozniak, Curtis"' showing total 2 results

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

Author

Subedi, Maya, Cárcamo, Héctor A., Knodel, Janet J., Weaver, David K., Cuthbert, Richard D., Pozniak, Curtis J., Nilsen, Kirby T., and Beres, Brian L.

Subjects

WHEAT, SAWFLIES, STATISTICAL models, CULTIVARS, HYMENOPTERA, PROTEINS

Abstract

Copyright of Canadian Journal of Plant Science is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

2. Combined selection of Gpc-B1 and Glu-B1 locus encoding the Bx7OE subunit for improving end-use quality of hard white wheat.

Author

Brar, Gurcharn S., Pozniak, Curtis J., Briggs, Connie, and Hucl, Pierre J.

Subjects

*FLOUR, *WHEAT, *GRAIN yields, *ELITE (Social sciences)

Abstract

Wheat in Canada is classified into nine different market classes based on attributes that impact end-use functionality. The Canada Western Hard White Spring (CWHWS) class was created in 2001 to diversify wheat production. The quality requirements of the CWHWS class demand strong gluten properties but lower grain protein (GP) content levels compared to the premium CWRS class. Generally, GP and grain yield are negatively correlated, so a reduction in GP would allow CWHWS cultivars to express greater yield potential. However, lowering GP can result in weaker gluten strength. This study investigated the combined use of Gpc-B1 and Bx7OE to increase GP while maintaining the dough strength in hard white wheat lines. Additionally, the effects of these introgressions on agronomic traits (grain yield, days to heading, days to maturity, plant height, test weight, and thousand kernel weight) were evaluated. Seven populations (each comprising 40 RILs, all varying for presence of Bx7OE, and five populations carrying all possible combinations of Gpc-B1 and Bx7OE) were developed using marker-assisted selection and elite cultivars or advanced breeding lines as parents and tested in three field environments in Saskatchewan, Canada. End-use quality was measured on grain (protein content, kernel hardness), and flour (protein, ash, protein loss, color, and farinograph). Results from our study showed a 0.8–1.1% increase in GP content relative to CWHWS cultivars (used as checks in the study) and dough strength properties similar to CWRS cultivar 'CDC Teal' (representing uppermost limit of dough strength in CWRS class at the time). Except for a slight increase in plant height (still comparable to elite cultivars), no deleterious effects on agronomic or other quality traits were observed. We conclude that combined selection of Gpc-B1 DIC with Bx7OE is effective in developing CWHWS lines with a desirable end-use quality. [Display omitted] • Grain protein (GP) increased up to 1.1% in hard white wheat with GpcB1 introgression. • No linkage drag observed from GpcB1 and Bx7OE except small increase in plant height. • Stacking GpcB1 and Bx7OE improved dough strength and GP in hard white wheats. [ABSTRACT FROM AUTHOR]

Published

2021