Expression and inheritance of sporophytic self‐incompatibility in synthetic allohexaploid Senecio cambrensis (Asteraceae)

Summary• Allopolyploid speciation is common in plants and is frequently associated with shifts from outcrossing, for example self‐incompatibility, to inbreeding (i.e. selfing). Senecio cambrensis is a recently evolved allohexaploid species that formed following hybridization between diploid self‐incompatible S. squalidus and tetraploid self‐compatible S. vulgaris . Studies of reproduction in wild populations of S. cambrensis have concluded that it is self‐compatible. • Here, we investigated self‐compatibility in synthetic lines of S. cambrensis generated via hybridization and colchicine‐induced polyploidization and wild S. cambrensis using controlled crossing experiments. • Synthetic F 1 S. cambrensis individuals were all self‐compatible but, in F 2 and later generations, self‐incompatible individuals were identified at frequencies of 6.7–9.2%. Self‐incompatibility was also detected in wild sampled individuals at a frequency of 12.2%. The mechanism and genetics of self‐incompatibility were tested in synthetic S. cambrensis and found to be similar to those of its paternal parent S. squalidus (i.e. sporophytic). • These results show, for the first time, that functional sporophytic self‐incompatibility can be inherited and expressed in allopolyploids as early as the second (F 2 ) generation. Wild S. cambrensis should therefore be considered as possessing a mixed mating system with the potential for evolution towards either inbreeding or outcrossing.