March
2003
Volume
80
Number
2
Pages
203
—
211
Authors
N. P.
Ames
,
1
,
2
J. M.
Clarke
,
3
J. E.
Dexter
,
4
S. M.
Woods
,
1
F.
Selles
,
3
and
B.
Marchylo
4
Affiliations
Agriculture and Agri-Food Canada, Cereal Research Centre, Winnipeg, MB, Canada R3T 2M9.
Corresponding author. E-mail: names@em.agr.ca. Phone: 204-983-1461 Fax: 204-983-4604.
Agriculture and Agri-Food Canada, Semi-Arid Prairie Agricultural Research Centre, Swift Current, SK, Canada S9H 3X2.
Canadian Grain Commission, Grain Research Laboratory, Winnipeg, MB, Canada R3C 3G8.
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RelatedArticle
Accepted November 22, 2002.
Abstract
ABSTRACT
Field studies were conducted over three years at two locations in Saskatchewan, Canada, to determine the effect of nitrogen fertilizer on protein quantity and protein strength in 10 cultivars of durum wheat (Triticum turgidum L. var. durum) representing a range of gluten strength. Increasing nitrogen fertilizer resulted in increased protein content in all cultivars across environments. Cultivars were clearly differentiated on the basis of gluten strength using a gluten index (GI), SDS sedimentation (SDSS), alveograph indices of overpressure (P) and deformation energy (W), mixograph energy to peak (ETP), and mixograph bandwidth energy (BWE) at all fertilizer levels. Variable cultivar response to nitrogen fertilizer was observed only for protein content, GI, and alveograph W. The nature of the cultivar-by-fertilizer interaction for GI suggested that the conventional strength cultivars would benefit more from nitrogen fertilizer than the extra-strong types, which showed no change or slight decreases in GI with nitrogen fertilizer despite an increase in total gluten. SDSS increased with nitrogen fertilizer, following similar trends as protein. Gluten strength rankings of the cultivars by SDSS were maintained with increased fertilizer. Fertilizer had little effect on alveograph P, mixograph ETP, and mixograph BWE. Overall, GI values were more stable across increasing levels of nitrogen fertilizer and resultant increased protein content compared with SDSS, mixograph development time, and alveograph W and L, suggesting it is a good test for estimating intrinsic gluten strength for cultivars with a wide range of protein content.
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ArticleCopyright
© 2003 Department of Agriculture and Agri-Food, Government of Canada