Polyploidy and hybridisation are the basis of the evolution of Centaurea (Compositae).At the El Saler dune field (eastern Spain), the diploid Centaurea aspera ssp. stenophylla and the tetraploid C. seridis ssp. maritima form a polyploid complex in which C. x subdecurrens individuals occur. This polyploid complex was analysed morphologically and genetically, using RAPD and TBP markers. Flow cytometry showed that the hybrids are triploid, which is a rare finding in Centaurea. Morphologically, in contrast to leaf characters, flowering characters clearly discriminated the three taxa. The genetic analyses confirm that C. x subdecurrens is a result of the hybridisation between Centaurea aspera ssp. stenophylla and C. seridis ssp. maritima, and suggest that backcrossing events and gene flow are very rare or absent. Although the hybrids likely represent true F1 offspring, they displayed some genetic diversity that is probably due to the combination of alleles. Genetic diversity was higher in diploid than in tetraploid individuals. This fact, and the high degree of sterility of the triploid hybrids, may reflect a cytotype minority exclusion effect. This may cause spatial segregation, which effectively takes place in the study area. Dune disturbance may lead to an overlapping of the parents' distribution areas, facilitating hybridisation.
Keywords: Centaurea x subdecurrens, Polyploid complex, RAPD, TBP, Triploid hybridCon formato: Español (España, internacional) 3 Polyploidy can provide evolutionary advantages and is consequently widespread 1 in nature (Comai 2005). It is believed that the proportion of polyploid angiosperm 2 plants varies from 30% to 70% (Bennet 2004; Pellicer et al. 2010), and genomic data 3 even indicates ubiquity among them (Soltis 2009). Polyploid formation is the major 4 mode of sympatric speciation in flowering plants as it can occur by immediate 5 reproductive isolation (Coyne & Orr 2004; Seo et al. 2010). Diploid and related 6 polyploid taxa often coexist in contact zones. This coexistence may result in the 7 production of hybrid offspring, generally triploid individuals, and may influence the 8 dynamics and evolution of polyploid complexes (Petit et al. 1999). Even if in some 9 hybrid zones triploids may act as a bridge between different ploidy levels, in most, 10 triploid offspring is totally or highly sterile, acting as a major reproductive barrier 11 (Husband 2004). In these cases, the survival of the mixed-ploidy populations is 12 threatened by a frequency-dependent selection, called the minority cytotype principle 13 (Levin 1975). This model assumes that, in a hybrid zone with both a rare and a common 14 cytotype, the latter would pollinate the rarer cytotype to a greater extent. Consequently, 15 the rarer cytotype produces a higher proportion of inviable triploid offspring, leading to 16 a reduction of its proportion, and, ultimately, to its extinction. However, different 17 factors may sustain and promote the survival of the two ploidy levels in the contact 18 zone. The two cy...
