Kim Garland Campbell scite author profile

Kernel morphology and texture influence the value of wheat (Triticum aestivum L.). The objectives of this study were to determine associations between kernel traits and molecular markers and to identify quantitative trait loci (QTLs) affecting kernel traits in a soft × hard white wheat cross. Seventy eight F~-derived recombinant inbred lines (RILs) from cross be tween the so ft wh ite wh eat NY 6432-18 (NY18) and the hard white wheat 'Clark's Cream' (CC) were developed by single seed descent. Kernel texture was measured by near infrared reflectance (NIR) on RIL grain samples from six environments. Digital image analysis (DIA) was used to measure kernel length, width, area, perimeter on grain samples from four environments. Test weight and thousand kernel weight (TKW) were also determined. Shape factor and density factor were calculated. The map for this population consisted of 313 molecular markers in 47 linkage groups located on all wheat homoeologous chromosome groups. Linkage groups that mapped to wheat homoeologous group 2 chromosomes were highly skewed towards NY18 alleles. Genotype effects and genotype × environment interactions were highly significant for most traits. QTLs for kernel width and kernel length also influenced kernel area and TKW, but did not influence each other. The pinB marker at the puroindoline B locus on chromosome 5DS explained over 60% of the phenotypic variation for kernel texture. QTLs for kernel traits were located on chromosomes IA, 2B, 2D, 3B, 7A, and 7B. Tm HE ECONOMIC VALUE of the U.S. wheat crop is deterined by class, which depends in part on kernel morphology and texture, and by test weight. Inspectors for the U.S. Grain Inspection, Packers and Stockyards Administration use color, shape, and length of the kernel and shape of the germ, crease, and brush to determine wheat grain classes (GIPSA, 1997). In general, hard wheat kernels are long, narrow, and translucent while soft kernels are short, rounded, and chalky in appearance. Hybridization between classes reduces the correlation between kernel morphology and wheat class and reduces the accuracy of the current classification

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Characterization of the end-use Quality of Soft Wheat Cultivars from the Eastern and Western US Germplasm ‘Pools’

Morris¹,

Campbell²,

King³

2004

Plant Genet. Resour.

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Soft wheat (Triticum aestivum L.) improvement could be enhanced by the identification of germplasm with superior end-use quality traits. Due to the geographic and historical separation of eastern and western US soft wheat germplasm 'pools', genetic differences in end-use quality may exist among cultivars arising from these two pools. To identify such differences, 30 US soft wheat cultivars were evaluated in 'head-to-head' trials over 3 years in Washington state. Cultivars were classified as: eastern soft red winter (SRW), eastern soft white winter (ESWW), western soft white (WSWW) and western Club. These four soft wheat cultivar classifications clearly differed systematically for some of the quality traits examined. The Club wheat cultivar group had the highest flour yield and flour ash. The Club group also had the lowest mixograph dough water absorption. Milling score (which incorporates break flour yield) was highest for Club and ESWW. Eastern soft red and white wheat cultivar groups had lower flour ash and alkaline water retention capacity (AWRC) compared to the western Club and soft white wheats; ESWW had the lowest AWRC of any classification. Cookie diameter was greatest for the ESWW group, followed by the SRW and Club groups (which were not significantly different), and then by the WSWW group. Individual cultivars with exceptional quality traits were also identified. These results indicate that the four US soft wheat germplasm pools differ, and they may be valuable genetic resources for 'inter-pool' wheat improvement.

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Registration of ‘ARS Crescent’ soft white winter club wheat

Campbell

Allan

Burke

et al. 2021

J of Plant Registrations

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Soft white club winter wheat (Triticum aestivum L. ssp. compactum) represents 8-10% of the wheat crop in Washington, but most of the current club wheat production is located in the <350-mm annual precipitation zone. Our goal was to develop a club wheat cultivar targeted to the >350-mm annual precipitation zones of the Pacific Northwest. 'ARS Crescent' (Reg. no. CV-1181, PI 665048), an awned white-kernel club wheat, was selected using the bulk-pedigree breeding method from the cross 'Dusty'//'Madsen' sib/Dusty///WA7665/'Rulo'. At the time of release, ARS Crescent was rated as resistant to stripe rust races PSTv-4 and PSTv-51, segregating for resistance to race PSTv-37, and susceptible to races PSTv-14 and PSTv-40 in the seedling stage. In the adult-plant stage in the field, ARS Crescent has demonstrated hightemperature adult plant resistance to stripe rust. Several years after release, the grain yields of ARS Crescent are equivalent to the club wheat 'Bruehl' and to soft white wheat checks for all growing regions. ARS Crescent combines better test weight than Bruehl with better resistance to environmental conditions that result in low falling numbers in wheat. ARS Crescent has excellent milling properties and greater sponge cake volume than other club wheat cultivars and increases the quality of the crop in Washington.

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