Taxonomic treatments of Camellia (Theaceae) species with secretory structures based on integrated leaf characters

Multivariate analysis of leaf shape, anatomy, and Fourier-transform infrared (FTIR) data of 27 Camellia species with secretory structures (sects. Archecamellia, Stereocarpus, Furfuracea, Chrysantha), together with three species, from related genera, Gordonia and Tutcheria (Theacea), was conducted to clarify some taxonomic problems. Our results show that crystals occurring in adaxial epidermal cells are firstly observed in Chrysantha species, and the secretory structures described are in fact cork warts. Furthermore, we introduce a form coefficient (Fe) to assess the shape of epidermal cells, since they are usually irregular and difficult to describe. Pearson correlation analysis indicates that F-c is useful to assess epidermal cell shape. Principal component analysis (PCA) of leaf shape indicates that two species from section Archecamellia and two species from section Stereocarpus are significantly different from those in section Furfuracea. Cluster analysis of FTIR data visualizes the degree of affinity among the 30 species examined here, which is consistent with the cluster analysis (CA) of anatomical data, as illustrated in the dendrogram. Therefore, our study indicates that integrated leaf characters based on leaf shape, anatomy, and FTIR data are useful in the taxonomic treatment of Camellia species with secretory structures. Taxonomic controversies among the Camellia species with secretory structures could thus be successfully addressed using only a few intact or small portions of leaves. Moreover, our results tend to support that Chrysantha species should not be merged into section Archecamellia, and that section Heterogenea should not be recognized in taxonomic treatments of Camellia species with secretory structures.