Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/62770
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Type: Journal article
Title: Sponge and dough bread making: genetic and phenotypic relationships with wheat quality traits
Author: Cavanagh, C.
Taylor, J.
Larroque, O.
Coombes, N.
Verbyla, A.
Nath, Z.
Kutty, I.
Rampling, L.
Butow, B.
Ral, J.
Tomoskozi, S.
Balasz, G.
Bekes, F.
Mann, G.
Quail, K.
Southan, M.
Morell, M.
Newberry, M.
Citation: Theoretical and Applied Genetics, 2010; online(5):1-14
Publisher: Springer
Issue Date: 2010
ISSN: 0040-5752
1432-2242
Statement of
Responsibility: 
Colin R. Cavanagh, Julian Taylor, Oscar Larroque, Neil Coombes, Arunas P. Verbyla, Zena Nath, Ibrahim Kutty, Lynette Rampling, Barbara Butow, Jean-Philippe Ral, Sandor Tomoskozi, Gabor Balazs, Ferenc Békés, Gulay Mann, Ken J. Quail, Michael Southan, Matthew K. Morell and Marcus Newberry
Abstract: The genetic and phenotypic relationships among wheat quality predictors and sponge and dough bread making were evaluated in a population derived from a cross between an Australian cultivar ‘Chara’ and a Canadian cultivar ‘Glenlea’. The genetic correlation across sites for sponge and dough loaf volume was high; however, phenotypic correlations across sites for loaf volume were relatively low compared with rheological tests. The large difference between sites was most likely due to temperature differences during grain development reflected in a decrease in the percentage of unextractable polymeric protein and mixing time. Predictive tests (mixograph, extensograph, protein content and composition, micro-zeleny and flour viscosity) showed inconsistent and generally poor correlations with end-product performance (baking volume and slice area) at both sites, with no single parameter being effective as a predictor of end-product performance. The difference in the relationships between genetic and phenotypic correlations highlights the requirement to develop alternative methods of selection for breeders and bakers in order to maximise both genetic gain and predictive assessment of grain quality.
Keywords: Triticum; Seeds; Plant Proteins; Temperature; Genotype; Quantitative Trait, Heritable; Phenotype; Food Technology; Bread; Flour
Rights: © Springer-Verlag 2010
RMID: 0020103309
DOI: 10.1007/s00122-010-1352-3
Appears in Collections:Agriculture, Food and Wine publications

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