Optimising clonal performance in sugarcane: leveraging non-additive effects via mate-allocation strategies

Abstract: Mate-allocation strategies in breeding programs can improve progeny performance by harnessing non-additive genetic effects. These approaches prioritise predicted progeny merit over parental breeding value, making them particularly appealing for clonally propagated crops such as sugarcane. We conducted a comparative analysis of mate-allocation strategies, exploring utilising non-additive and heterozygosity effects to maximise clonal performance with schemes that solely consider additive effects to optimise bree… Show more

“…In addition, due to complex genetic inheritance, multiple genes and environmental factors influence important traits. To address these challenges, sugarcane breeding programs must generate a large number of seedlings, which then go into field trials to identify those with desirable traits (Wei et al, 2021;Yadav, 2023;Yadav et al, 2023). However, the traditional approach of generating a large number of seedlings to identify those with desirable traits is not only time-consuming and costly but also leads to limited genetic gain in breeding programs.…”

Use of continuous genotypes for genomic prediction in sugarcane

“…In addition, due to complex genetic inheritance, multiple genes and environmental factors influence important traits. To address these challenges, sugarcane breeding programs must generate a large number of seedlings, which then go into field trials to identify those with desirable traits (Wei et al, 2021;Yadav, 2023;Yadav et al, 2023). However, the traditional approach of generating a large number of seedlings to identify those with desirable traits is not only time-consuming and costly but also leads to limited genetic gain in breeding programs.…”

Use of continuous genotypes for genomic prediction in sugarcane