Molecular phylogeny of Cotoneaster (Rosaceae) inferred from nuclear ITS and multiple chloroplast sequences

Cotoneaster Medik. (Rosaceae, Maloideae) is distributed in Europe, North Africa, and temperate areas of Asia except Japan. Members of the genus exhibit considerable morphological variation. The infrageneric classification is also obscured by polyploidy, hybridization, and apomixis. In this study, phylogenetic analyses were conducted to test infrageneric classifications of this genus using DNA sequence data from the nuclear ITS (nrITS) region and three chloroplast intergenic spacer regions. Maximum parsimony and Bayesian inference analyses of both datasets agreed with the two sections/subgenera of Koehne’s classification system, and suggested that four subsections (Microphylli, Chaenopetalum, Adpressi, and Cotoneaster) and the series of Koehne’s classification system were non-monophyletic. The incongruence length difference test indicated that the nrITS and cpDNA datasets were significantly incongruent (P = 0.001), and the placement of 14 species was discordant in phylogenetic trees derived from the two datasets. Within Cotoneaster, hybridization was indicated to be an important factor contributing to the incongruence between the nrITS and cpDNA data. By mapping nine morphological characters onto the combined nrITS–cpDNA phylogenetic tree, we inferred that a deciduous habit, glabrous fruit, white anthers, erect and light pink petals, and white filaments are plesiomorphic character states in Cotoneaster.