Genetic and environmental variation for grain quality traits routinely evaluated in southern Australian wheat breeding programs

2002 ◽  
Vol 53 (9) ◽  
pp. 1047 ◽  
Author(s):  
H. A. Eagles ◽  
G. J. Hollamby ◽  
R. F. Eastwood
Keyword(s):  
Water Absorption ◽  
Development Time ◽  
Grain Quality ◽  
Wheat Breeding ◽  
Breeding Programs ◽  
Environmental Correlations ◽  
Flour Protein ◽  
Australian Wheat ◽  
Dough Development Time ◽  
Milling Yield

Milling yield, maximum dough resistance (Rmax), dough extensibility, flour protein concentration (flour protein), particle size index (PSI), water absorption, and dough development time are important determinants of grain quality and are routinely evaluated in Australian wheat breeding programs. Information on allelic variation at the 6 loci determining glutenin proteins is also regularly obtained and used to predict Rmax and extensibility. For each character, except dough development time, 4029 observations on 2377 lines and 94 environments were analysed to estimate genotypic and environmental variances, heritabilities, genotypic and environmental correlations, and the effects of glutenin genes. A subset was analysed for dough development time. Milling yield, Rmax, extensibility, PSI, water absorption, and dough development time had intra-class correlation coefficients, or broad-sense heritabilities, between 0.66 and 0.76, and extensibility had a value of 0.52, with flour protein at 0.36. Genotypic and environmental correlations between extensibility and flour protein were high at +0.78 and +0.85, respectively. Rmax had a genotypic correlation with dough development time of +0.67, which was substantially due to pleiotropic effects of glutenin genes. Rmax, extensibility, PSI, and dough development time were influenced by glutenin genes. For Rmax about 50% of the genotypic variance could be explained by glutenin genes. For extensibility about 50% could be explained by flour protein, with 50% of the remainder by the inclusion of glutenin genes. For dough development time about 15% could be explained by flour protein, with a further 30% by glutenin genes. For PSI, about 40% of the genotypic variation could be accounted for by glutenin genes after the removal of the effects of flour protein and milling yield. We concluded that dough development time could be added to Rmax and extensibility as a trait that can be usefully predicted by the glutenin genes, but more work is required for PSI.

Contributions of glutenin and puroindoline genes to grain quality traits in southern Australian wheat breeding programs

2006 ◽  
Vol 57 (2) ◽  
pp. 179 ◽  
Author(s):  
H. A. Eagles ◽  
Karen Cane ◽  
R. F. Eastwood ◽  
G. J. Hollamby ◽  
Haydn Kuchel ◽  
...  
Keyword(s):  
Water Absorption ◽  
Development Time ◽  
Grain Quality ◽  
Genotypic Variation ◽  
Wheat Breeding ◽  
Wagga Wagga ◽  
Breeding Programs ◽  
Dough Development Time ◽  
Milling Yield

Glutenin genes were known to influence maximum dough resistance (Rmax), dough extensibility (extensibility), and dough development time, whereas puroindoline genes were known to influence grain hardness, flour water absorption (water absorption), and milling yield. These are important determinants of grain quality of wheat in Australia. This study was conducted to investigate the combined effect of these genes on Rmax, extensibility, dough development time, water absorption, and milling yield in a large dataset assembled from the breeding programs based at Horsham, Victoria; Roseworthy, South Australia; and Wagga Wagga, New South Wales; for at least 10 seasons. The effect of the glutenin genes on Rmax, extensibility, and dough development time was confirmed, as was the effect of the puroindoline genes on water absorption and milling yield. In addition, puroindoline genes were shown to significantly affect extensibility and dough development time. The Pina-D1a/Pinb-D1b genotype increased extensibility, dough development time, and milling yield relative to the Pina-D1b/Pinb-D1a genotype. Both of these genotypes are present in cultivars classified as hard-grained in southern Australia. Therefore, the allelic composition of both glutenin and puroindoline genes is required to predict the grain quality of hard wheat in southern Australian breeding programs. The glutenin and puroindoline genes in combination accounted for more than 50% of the genotypic variance for these traits, except for milling yield, but a substantial proportion of the genotypic variation could not be attributed to these genes, indicating that other genes affecting the traits were present in the populations of these wheat-breeding programs.

Effect of geographic location of growth on wheat milling yield, farinograph properties, flour protein and residue protein

1977 ◽  
Vol 28 (1) ◽  
pp. 5 ◽  
Author(s):  
L O'Brien ◽  
RA Orth
Keyword(s):  
Water Absorption ◽  
Protein Content ◽  
Development Time ◽  
Protein Quality ◽  
Geographic Location ◽  
Wheat Breeding ◽  
Flour Milling ◽  
Flour Protein ◽  
Dough Development Time ◽  
Milling Yield

The relationship between farinograph dough breakdown and the proportion of flour protein insoluble in 0 . 0 5M acetic acid (residue protein) was investigated for a number of wheats each grown at six locations in the Mallee and Wimmera regions of Victoria. At each location a highly significant correlation was obtained (R ranging from 0.84 to 0.93), which indicated that the 'residue test' could be used as a selection tool in wheat-breeding programs. Regressions of flour milling yield, flour protein content, farinograph water absorption, dough development time and dough breakdown, and the proportion of residue protein were calculated for each parameter for the wheats grown at Dooen against those for wheats grown at each other location. Variables largely dependent on protein 'quality', viz. dough breakdown, dough development time and residue protein, ranked the wheats similarly at each location of growth. Rankings according to milling yield, farinograph water absorption and flour protein content differed more markedly between locations.

Puroindoline genes and their effects on grain quality traits in southern Australian wheat cultivars

2004 ◽  
Vol 55 (1) ◽  
pp. 89 ◽  
Author(s):  
Karen Cane ◽  
Merrin Spackman ◽  
H. A. Eagles
Keyword(s):  
Water Absorption ◽  
Grain Quality ◽  
High Water ◽  
Major Effect ◽  
Wheat Breeding ◽  
Quality Data ◽  
Breeding Programs ◽  
Australian Wheat ◽  
End Use ◽  
Milling Yield

Grain hardness is a major determinant of the classification and end-use of wheat. Two genes, Pina-D1 and Pinb-D1, have a major effect on this trait, so for wheat breeding programs it is important to identify the alleles of these genes present in elite germplasm. This study was conducted to identify the alleles present in southern Australian germplasm, and to determine if they affected quality characteristics other than grain hardness.Only 3 genotypes were identified. These were Pina-D1a/Pinb-D1a producing soft grain, Pina-D1a/Pinb-D1b producing moderately hard grain, and Pina-D1b/Pinb-D1a producing very hard grain. WW15 was the probable source of Pina-D1a/Pinb-D1b in most cultivars; however, Halberd represented another source. An important source of Pina-D1b/Pinb-D1a was the CIMMYT line Pavon, with sources from the old Australian cultivars Gabo and Falcon probably still present in modern germplasm.In an analysis of grain quality data from the Victorian Institute for Dryland Agriculture breeding program, the Pina-D1b/Pinb-D1a genotype had a significantly higher water absorption and significantly lower milling yield than the Pina-D1a/Pinb-D1b genotype, which indicates that these genes will impede the development of hard-grained cultivars that combine high water absorption and high milling yield.

scholarly journals The effects on grain quality traits of a grain serpin protein and the VPM1 segment in southern Australian wheat breeding

2008 ◽  
Vol 59 (10) ◽  
pp. 883 ◽  
Author(s):  
Karen Cane ◽  
P. J. Sharp ◽  
H. A. Eagles ◽  
R. F. Eastwood ◽  
G. J. Hollamby ◽  
...  
Keyword(s):  
Grain Quality ◽  
Protein A ◽  
Quality Parameters ◽  
Wheat Breeding ◽  
Relationship Matrix ◽  
Quality Traits ◽  
Breeding Programs ◽  
Active Selection ◽  
Australian Wheat ◽  
Milling Yield

Production of wheat of sufficient quality to meet market demands is an ongoing agricultural challenge. Identification and evaluation of alleles of genes affecting quality parameters enables breeders to improve their germplasm by active selection towards specific allele combinations. Using a large dataset obtained from southern Australian wheat breeding programs, and including a relationship matrix in the analysis to minimise bias, we re-evaluated the effects of high- and low-molecular-weight glutenin alleles and puroindoline alleles on the grain quality parameters Rmax, dough extensibility, dough development time, flour water absorption, and milling yield and found that estimated effects were in close agreement with those from earlier analyses without a relationship matrix. We also evaluated, for the first time, the effects on the same quality parameters of 2 alleles (wild-type and null) of a defence grain protein, a serpin located on chromosome 5B. In addition, we assessed the effect of the VPM1 alien segment. The serpin null allele significantly reduced milling yield by ~0.4 g of flour per 100 g of grain milled across different germplasm sources and flour protein levels. In Australian germplasm, the origin of this allele was traced to a 19th Century introduction from India by William Farrer; however other sources, of significance in international breeding programs, were also identified. Our analysis of the effect of the VPM1 segment on quality traits revealed no detrimental effects of its presence on the traits we measured.

Revision of the estimates of glutenin gene effects at the Glu-B1 locus from southern Australian wheat breeding programs

2004 ◽  
Vol 55 (10) ◽  
pp. 1093 ◽  
Author(s):  
H. A. Eagles ◽  
R. F. Eastwood ◽  
G. J. Hollamby ◽  
E. M. Martin ◽  
G. B. Cornish
Keyword(s):  
Development Time ◽  
Low Frequency ◽  
Wheat Breeding ◽  
Correct Identification ◽  
Gene Effects ◽  
Breeding Programs ◽  
Multiple Alleles ◽  
Intermediate Allele ◽  
Dough Extensibility ◽  
Dough Development Time

Glutenins are the major determinant of dough characteristics in wheat. These proteins are determined by genes at 6 loci, with multiple alleles present in southern Australian breeding programs. Previously, we estimated the effects of these genes on maximum dough resistance (Rmax), dough extensibility and dough development time. Subsequently, the allele previously classified as Glu-B1b was found to consist of 2 alleles, with one, now considered to be Glu-B1al, producing an overexpression of the Bx7 glutenin subunit. Therefore, there is a potential bias in our previous estimates. An extended dataset was analysed with the 2 alleles now separated. These analyses identified negligible biases in our previous estimates, probably due to a low frequency of Glu-B1al before 1999. However, Glu-B1al produced significantly higher Rmax, dough extensibility, and dough development time values than all other alleles at the Glu-B1 locus. Therefore, at intermediate allele frequencies, substantial bias in estimates of the effects of the Glu-B1 alleles can be expected without correct identification of Glu-B1al.

The storage protein activator gene Spa-B1 and grain quality traits in southern Australian wheat breeding programs

2012 ◽  
Vol 63 (4) ◽  
pp. 311 ◽  
Author(s):  
H. A. Eagles ◽  
Karen Cane ◽  
Marie Appelbee ◽  
Haydn Kuchel ◽  
R. F. Eastwood ◽  
...  
Keyword(s):  
Storage Protein ◽  
Grain Quality ◽  
Mixed Model ◽  
Important Determinant ◽  
Market Value ◽  
Wheat Breeding ◽  
Quality Traits ◽  
Breeding Programs ◽  
Protein Activator ◽  
Australian Wheat

Grain quality is an important determinant of market value of wheat in southern Australia and in many other parts of the world. Identification of the genes that influence grain quality traits and estimation of effects of alleles of these genes can improve the effectiveness of wheat breeding. An efficient method for estimating the effects of alleles of recently discovered genes is to use mixed-model analyses in large plant breeding datasets that have already been characterised for previously known genes. We used this method to estimate the effects of two alleles of Spa-B1, a storage protein activator gene that is linked to Glu-B1, on grain quality traits. Alleles of the two genes tracked together as haplotypes for generations, but recombination events were identified. These recombination events were used to enhance confidence in identification of the alleles. The effects of the alleles of Spa-B1 were small and statistically not significant for all of the grain quality traits in our population.

scholarly journals Effects of spray-dried sourdough on flour characteristics and rheological properties of dough

2013 ◽  
Vol 31 (No. 4) ◽  
pp. 361-367 ◽  
Author(s):  
A.G. Tafti ◽  
S.H. Peighardoust ◽  
F. Behnam ◽  
A. Bahrami ◽  
R. Aghagholizadeh ◽  
...  
Keyword(s):  
Water Absorption ◽  
Development Time ◽  
Ph Values ◽  
Powder Addition ◽  
Dough Extensibility ◽  
Dough Development Time ◽  
Wheat Flours ◽  
Different Levels ◽  
Control Water ◽  
Spray Dried

The effect of incorporating different levels of spray-dried sourdough (3, 6, 9, and 15% w/w) on flour characteristics and dough properties of two wheat flours was studied. As the spray-dried sourdough level in the blends increased, the pH values significantly (P < 0.05) decreased. Wet gluten content and sedimentation values were decreased in the flours containing spray-dried sourdough compared to those of the control. Water absorption significantly increased compared to that of the control. However, the dough development time was not affected by sourdough powder addition. Degree of softening significantly increased with an increase in the sourdough level and dough stability was significantly reduced. Doughs incorporating sourdough powder showed higher resistance to extension and lower dough extensibility than the control doughs.  

The effect of stripe rust on the quality of Australian wheat varieties

1990 ◽  
Vol 41 (5) ◽  
pp. 827 ◽  
Author(s):  
L O'Brien ◽  
JS Brown ◽  
JF Panozzo ◽  
MJ Archer
Keyword(s):  
Stripe Rust ◽  
Field Experiments ◽  
Grain Protein Content ◽  
Wheat Varieties ◽  
Flour Milling ◽  
Australian Wheat ◽  
Dough Development Time ◽  
Milling Yield ◽  
Disease Free

The effect of stripe rust on the processing quality of Australian wheat varieties was examined over a four year period. Each year in field experiments, stripe rust was allowed to develop naturally on one half of each plot block while the other was kept disease free using three weekly applications of fungicide. Changes in grain quality were observed with susceptible varieties when subjected to an epiphytotic of the disease. Stripe rust caused kernels to be shrivelled, which resulted in reduced test weight and flour milling yield and increased grain protein content. Dough properties were also affected. Dough development time was shorter, mixing tolerance deteriorated and extensograph maximum resistance was lower for susceptible varieties affected by the disease.

The dependence of wheat quality tests on protein level — a comparative study of some Australian varieties

1961 ◽  
Vol 1 (1) ◽  
pp. 46 ◽  
Author(s):  
JV Mullaly ◽  
HJ Moss
Keyword(s):  
Water Absorption ◽  
Development Time ◽  
Two Dimensions ◽  
Wheat Quality ◽  
Wheat Protein ◽  
Wheat Varieties ◽  
B Values ◽  
Relationship Of ◽  
Dough Development Time ◽  
Baking Performance

Six commonly used wheat quality tests – baking performance, water absorption, dough development time, Valorimeter number, extensibility, and resistance to extension – have been examined for their abilities to characterise and discriminate among wheat varieties. Twelve Australian varieties are considered over a wheat protein range of 7.5–14.5 per cent. The recovery of wheat protein in the flour was also examined for their of the varieties. Except for resistance to extension, the tests showed a positive linear relationship of test measurement to log protein per cent, so that varieties were characterised for each of these tests by a pair of constants, a and b, where a is the average varietal value of the test property at 11.0 per cent wheat protein and b the average change in its value 46 per unit change in log protein per cent. The tests differ markedly in the extent and manner in which varieties are discriminated, baking performance being the most striking, in that the varieties are separated in two dimensions-level of performance (a) and sensitivity of performance to changes of protein content (b). Farinograph measurements discriminate primarily in the dimension of level performance for water absorption most of the varieties have approximate the same b values, while for dough development time and Valorimeter number the b values are positive and linearly related to the a values. For extensibility, varieties differ widely in both their a and b values but no clear pattern emerges, while for resistance to extension only differences in level of response occur. In most cases, the tests clearly distinguish between the hard and so) varieties, and within these groups suggestions are made and specifications are described for variety quality standards.

Haplotype analyses in wheat for complex traits: tracking the chromosome 3B and 7B regions associated with late maturity alpha amylase (LMA) in breeding programs

2009 ◽  
Vol 60 (5) ◽  
pp. 463 ◽  
Author(s):  
M. D. McNeil ◽  
D. Diepeveen ◽  
R. Wilson ◽  
I. Barclay ◽  
R. McLean ◽  
...  
Keyword(s):  
Complex Traits ◽  
Genetic Relationships ◽  
Artificial Chromosome ◽  
Wheat Breeding ◽  
Breeding Programs ◽  
Discriminating Power ◽  
Late Maturity ◽  
Australian Wheat ◽  
Wheat Lines ◽  
Chromosome 3B

The quantitative trait loci (QTLs) on chromosomes 7BL and 3BS from Halberd have been used as a major source of tolerance to late maturity α amylase (LMA) within Australian wheat breeding programs. New simple sequence repeat (SSR) markers identified from the sequencing of Bacterial Artificial Chromosome (BAC) clones from the wheat cv. Renan library, and known SSRs, were used to characterise these major QTLs. The reduction or elimination of the LMA defect in wheat cultivars is a major goal for wheat breeding programs and is confounded by the complexity in measuring the trait unambiguously. In this haplotyping study focussing on two significant chromosomal regions, markers and combinations of markers were investigated for their ability to discriminate between 39 Australian and Mexican wheat lines differing in levels of LMA. Genetic relationships among these wheat lines estimated by cluster analysis of molecular marker data were combined with phenotypic information in order to calibrate the genotypes of the wheat lines against their LMA phenotype. It was evident that some SSRs from the respective QTLs had greater discriminating power than others to identify LMA phenotypes. Discrimination was not, however, absolute and a statistical analysis of the data defined a risk factor associated with particular combinations of alleles, for use in early selection or backcrossing.

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