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Genotype by Environment Effects on Durum Wheat Quality and Yield-Implications for Breeding

Mike Sissons, Gururaj Kadkol, Julian Taylor

2020Crop Breeding Genetics and Genomics12 citationsDOIOpen Access PDF

Abstract

The main focus of a durum breeding program is to create high yielding, adapted durum wheat varieties that meet grain quality standards. Using modern statistical approaches we show how comprehensive data sets can be used to readily identify high performing and stable genotypes. A subset of 12 durum wheat genotypes were selected from breeding trials grown in five different locations in New South Wales, Australia, over three seasons constituting 15 dryland environments. Grain yield and quality traits were determined and for a subset of six genotypes, pasta quality traits were assessed. For non-pasta traits and yield, genotype, year, location and their interactions were statistically significant. Plots of overall performance versus stability allowed identification of the best genotypes for each trait with clear improvements noted in the more recent breeding material compared to older varieties. This analysis indicated high heritability for traits such as colour, dough strength, yield and milling potential. Using this approach, breeders can easily identify high performing genotypes for release or as parents in crossing.

Topics & Concepts

HeritabilityTraitBiologyAgronomyYield (engineering)GenotypeGrain yieldBreeding programPlant breedingGene–environment interactionBiotechnologyCultivarGeneticsProgramming languageMaterials scienceGeneMetallurgyComputer scienceGenetics and Plant BreedingWheat and Barley Genetics and PathologyCrop Yield and Soil Fertility