MULTIPLE ORIGINS OF SELF‐COMPATIBILITY IN LINANTHUS SECTION LEPTOSIPHON (POLEMONIACEAE): PHYLOGENETIC EVIDENCE FROM INTERNAL‐TRANSCRIBED‐SPACER SEQUENCE DATA

Phylogenetic reconstruction based on sequence variation in the internal transcribed spacer (ITS) region of rDNA was used to investigate the evolutionary dynamics of homomorphic self‐incompatibility in Linanthus section Leptosiphon (Polemoniaceae), a group of annual plant species. Hand‐pollination experiments revealed that five species were self‐incompatible and four were self‐compatible. Optimization of breeding systems onto the tree resulting from maximum‐likelihood analysis, with no assumptions made about the ancestral condition, indicated that self‐incompatibility has been lost four times in this section. An alternative tree rearrangement conforming to the hypothesis of three losses of self‐incompatibility did not have a significantly lower likelihood than the maximum‐likelihood tree as determined by a paired‐sites test, but all rearrangements resulting in fewer than three losses were statistically rejected. Linanthus bicolor , a selfing species, was found to be polyphyletic, with populations from different geographic regions occurring in three well‐supported clades. Morphological similarity in these distinct lineages is likely to have resulted from convergent evolution of traits associated with self‐fertilization. Selection for reproductive assurance is hypothesized to have played an important role in the recurrent transformations from self‐incompatibility to selfing in this group of annual species.