Tag Archives: rapeseed meal quality

2259-2270 J. Wolko, A. Dobrzycka, J. Bocianowski, L. Szala, T. Cegielska-Taras, I. Bartkowiak-Broda and K. Gacek
Genetic Variation of Traits Affecting Meal Quality in Black × Yellow Seeded Doubled Haploid Population of Winter Oilseed Rape
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Genetic Variation of Traits Affecting Meal Quality in Black × Yellow Seeded Doubled Haploid Population of Winter Oilseed Rape

J. Wolko¹, A. Dobrzycka¹, J. Bocianowski², L. Szala¹, T. Cegielska-Taras¹, I. Bartkowiak-Broda¹ and K. Gacek¹*

¹Plant Breeding and Acclimatization Institute - National Research Institute (PBAI-NRI), Oilseed Crops Research Center, Strzeszynska 36, PL60-479 Poznan, Poland
²Poznan University of Life Sciences, Wojska Polskiego 28, PL60-637 Poznan, Poland
*Correspondence: k.gacek@ihar.edu.pl

Abstract:

The by-product of oil production from oilseed rape (Brassica napus L.) is protein rich rapeseed meal. It is of great interest to improve the quality of rapeseed meal for poultry feed by reducing the level of anti-nutritional factors, mainly fibre and glucosinolates. The aim of the study was to assess genetic variation of traits affecting rapeseed meal quality in seeds from the M305 (black-seeded) × Z114 (yellow seeded) population of winter oilseed rape doubled haploid (DH) plants. The influence of weather conditions on these traits was tested under two-year field growing conditions in Poland. Significant effect of genotypes and the year of experiment was found for all of the studied traits, apart from neutral detergent fibre (NDF). The significant phenotypic variation in all of these traits makes future selection to improve quality of rapeseed meal possible. It was also found that all of the traits, apart from neutral detergent fibre, are regulated in a complex genetic manner involving additive and epistatic gene action. NDF is regulated by the additive gene action indicating that this trait might be easier for selection. Low heritability found for seed colour, fibre and glucobrassicin indicates great environmental effect on these traits. Large phenotypic variation for protein, oil, acid detergent fibre, neutral detergent fibre and glucosinolates found in this study will allow future genetic mapping analysis to identify key genes regulating these traits. The application of such genetic markers could enhance breeding programs aiming to improve oilseed rape which could be successfully introduced as poultry feed.

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