Analysis of sub‐populations of rapid‐cycling Brassica rapa following recurrent bi‐directional selection for cotyledon size

Recurrent selection programmes use one or just a few selection criteria, however other indirect traits may be unpredictably changed in a population. This study was conducted to determine the indirect effects of 10 cycles of bi‐directional recurrent selection for cotyledon size in the model system of rapid‐cycling Brassica rapa . Eight sub‐populations (four large‐ and four small‐cotyledon sizes) were phenotypically and cytologically evaluated. Each sub‐population was measured by five phenotypic traits. Ploidy and pollen viability were studied and compared with the initial population. Total weight was significantly different in broad and bottleneck‐1 sub‐populations. Total cell number exhibited statistically significant differences in broad and bottleneck‐1 sub‐populations, while cell number per unit area exhibited statistically significant differences in broad , bottleneck‐2 and bottleneck‐3 sub‐populations. Decreases in pollen viability in comparison with the base population were observed in three sub‐populations. Among the eight sub‐populations studied, the most significant phenotypic differences were observed within broad sub‐populations. Based on the above, it is possible that bi‐directional recurrent selection for cotyledon size may have been a result of indirect selection for two processes, endoreduplication and cell division.