Abstract
Seed yield is a complex trait for many crop species including oilseed rape (OSR) (Brassica napus), the second most important oilseed crop worldwide. Studies have focused on the contribution of distinct factors in seed yield such as environmental cues, agronomical practices, growth conditions, or specific phenotypic traits at the whole plant level, such as number of pods in a plant. However, how female reproductive traits contribute to whole plant level traits, and hence to seed yield, has been largely ignored. Here, we describe the combined contribution of 33 phenotypic traits within a B. napus diversity set population and their trade-offs at the whole plant and organ level, along with their interaction with plant level traits. Our results revealed that both Winter OSR (WOSR) and Spring OSR (SOSR); the two more economically important OSR groups in terms of oil production; share a common dominant reproductive strategy for seed yield. In this strategy, the main inflorescence is the principal source of seed yield, producing a good number of ovules, a large number of long pods with a concomitantly high number of seeds per pod. Moreover, we observed that WOSR opted for additional reproductive strategies than SOSR, presenting more plasticity to maximise seed yield. Overall, we conclude that OSR adopts a key strategy to ensure maximal seed yield and propose an ideal ideotype highlighting crucial phenotypic traits that could be potential targets for breeding.
Highlights
Improving crop production, seed yield, is vital to ensure food availability for an increasing population in the world
As seed number was the best predictor of seed yield, and seed number per pod (SNPP) and pod length presented a high contribution in the main reproductive strategy followed by Winter OSR (WOSR) and Spring OSR (SOSR), we investigated whether the number of seeds increased as the pod valves lengthen (Figure 3)
The differences in seed yield observed for the oilseed rape (OSR) groups in the diversity set population can be explained by varying combinations of reproductive strategies adopted by these groups, including the importance of the microtraits to seed yield
Summary
Seed yield, is vital to ensure food availability for an increasing population in the world. Known as rapeseed or oilseed rape (OSR), is the second most important oilseed crop globally (Food and Agriculture Organization of the United Nations, 2019) accounting for 20% of the world’s total oil production (Hu et al, 2017a). It is a crucial source of high-quality protein for livestock and biofuel production (Raboanatahiry et al, 2018). Increasing its yield is vital to meet the high demands of oil and animal feed worldwide
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