Relationships and influence of yield components on spaced‐plant and sward seed yield in perennial ryegrass

Adequate seed production is essential for cultivar success in perennial ryegrass turf and forage industries, but improvement is limited by the complexity of yield components and low‐rank correlations between selection and production environments. This study examined seed yield components among 20 perennial ryegrass entries in both spaced plantings (selection environment) and swards (production environment) at two locations in Minnesota. Competitive (23 plants/m 2 ) and non‐competitive (3 plants/m 2 ) spaced‐plant nurseries were tested. Competitive spaced‐plant total yield was highly correlated with sward yield ( r s  = 0.64 and 0.66, p  < 0.01) at both locations, whereas the non‐competitive environment showed no correlation. Structural equation modelling ( SEM ) was used to explore the indirect and direct relationship of fall vegetative growth, winterkill, and yield components on total seed yield in all environments. Fertile tiller number (spikes plant −1 /m −2 ) exhibited both strong direct and indirect influence on total seed yield in all environments. However, the importance of fertile tiller number in the SEM was reduced with increased plant competition. The SEM showed that both weight per spike and seed yield per spike influenced total yield in spaced plants; however, neither consistently predicted total sward yield. The ratio of these two traits (g seed spike −1 /g spike −1 ) gave an index of fertility that was easy to measure and had a superior correlation with sward yield at two locations ( r s  =  0.81 and 0.54, p  < 0.05) when spaced plants were under competition. Results suggest that increasing competition in spaced plantings and selecting for spike fertility may more accurately identify superior plant material compared to lower competition environments.