K. M. O'Brien scite author profile

K. M. O'Brien

5Publications

154Citation Statements Received

31Citation Statements Given

How they've been cited

176

139

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Affiliations

Laboratoire de Phonétique et Phonologie, University of Idaho

Publications

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Influence of Genotype, Environment, and Nitrogen Management on Spring Wheat Quality

Souza

Martin

Guttieri

et al. 2004

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red spring wheat include high protein and strong gluten (Souza et al., 2002). Soft white wheat is grown in regions Bread baking is the primary end-use criterion used to select hard with higher rainfall expectations or in arid areas with spring wheat (Triticum aestivum L.) genotypes for the northwestern supplemental irrigation. Cookies and cakes are the tar-USA, yet the use of hard wheats has expanded beyond traditional pan breads to include Asian noodles. We assessed the relative influence of get end-use products for most of the soft white crop. genotype, N management, and location on quality characteristics of Desirable characteristics for this wheat class include low a set of spring wheat cultivars that provided a range in gluten strength protein and limited damage to starch granules during and acceptability for bread and Asian noodle quality, and determined milling that results in low-water-absorption flours (Gutwhether grain characteristics could predict bread and/or noodle martieri et al., 2001a). ket suitability. Seven spring cultivars were grown at four locations Recent cropping diversification has prompted develacross 3 yr with two levels of N fertilizer in irrigated and moistureopment and deployment of hard white spring wheat in limited conditions. Bread quality, alkaline noodle color, and Chinese the Pacific Northwest of the USA. Asian customers noodle color and texture were assessed on grain samples. Cultivar desire hard white wheat for manufacturing noodles was the most important determinant of bread and noodle quality traits largely because of its brighter flour and product color in both the irrigated and moisture-limited environments. Nitrogen level influenced only Chinese noodle color in irrigated environments,

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Influence of Genotype, Environment, and Nitrogen Management on Spring Wheat Quality

et al. 2004

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Bread baking is the primary end‐use criterion used to select hard spring wheat (Triticum aestivum L.) genotypes for the northwestern USA, yet the use of hard wheats has expanded beyond traditional pan breads to include Asian noodles. We assessed the relative influence of genotype, N management, and location on quality characteristics of a set of spring wheat cultivars that provided a range in gluten strength and acceptability for bread and Asian noodle quality, and determined whether grain characteristics could predict bread and/or noodle market suitability. Seven spring cultivars were grown at four locations across 3 yr with two levels of N fertilizer in irrigated and moisture‐limited conditions. Bread quality, alkaline noodle color, and Chinese noodle color and texture were assessed on grain samples. Cultivar was the most important determinant of bread and noodle quality traits in both the irrigated and moisture‐limited environments. Nitrogen level influenced only Chinese noodle color in irrigated environments, but impacted test weight, flour ash, loaf volume, and bake absorption in moisture‐limited environments. Responses to N management and location were usually not cultivar specific, as interactions were not important relative to main effects of cultivar and location. Grain protein had more value than test weight or grain hardness in predicting bread and noodle quality, and was most useful in predicting loaf volume and Chinese noodle color characteristics. Cultivar selection is critical for achieving a desired end use, with location effects being of secondary importance. Nitrogen management for a particular end use will be difficult, with N level being much less important than cultivar selection and location. Grain protein may be the best predictor of the suitability of a particular cultivar produced in a specific year for alternative end‐use possibilities, with high‐protein grain most suitable for bread production and low‐protein, high‐quality grain more suitable for noodle production.

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Registration of ‘Alturas’ Wheat

et al. 2004

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Registration of ‘Idaho 377s’ Wheat

et al. 1997

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Registration of ‘Jefferson’ Wheat

et al. 1999

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K. M. O'Brien

Influence of Genotype, Environment, and Nitrogen Management on Spring Wheat Quality

Influence of Genotype, Environment, and Nitrogen Management on Spring Wheat Quality

Registration of ‘Alturas’ Wheat

Registration of ‘Idaho 377s’ Wheat

Registration of ‘Jefferson’ Wheat

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