Correlations between anthocyanin chemistry and pollination ecology in the polemoniaceae

A study of the anthocyanins in a representative sample (34 species from 14 genera) of Polemoniaceae has shown that the pigment type in the flowers is broadly correlated with pollination ecology. Thus, hummingbird pollinated species such as Ipomopsis aggregata generally contain pelargonidin sometimes with cyanidin, while bee and beefly pollinated species (e.g. Gilia latiflora) contain mainly delphinidin. On the other hand, lepidopteran species such as Leptodactylon californicum have cyanidin or mixtures of cyanidin with delphinidin. The above three anthocyanidins occur usually as the 3-glucoside, 3,5-diglucoside, $\text{3-(p-}\text{coumarylglucoside}\text{)}$ and $\text{3-(p-}\text{coumarylglucoside}\text{)-5-}\text{glucoside}$, although other types are occasionally found. The distribution of glycosidic types and of acylation, unlike that of the anthocyanidins, is more closely correlated with systematic position than with pollinating vectors. In autogamous species where animal pollination is absent or unimportant, anthocyanin pigmentation in the flowers retains the complexity present in related animal-pollinated taxa. Anthocyanins were also identified in hummingbird pollinated plants from two related families and pelargonidin derivatives were detected. In Fouquieria splendens (Fouquieriaceae), the glycosidic pattern was different from that in Polemoniaceae in being 3-galactoside. In Penstemon (Scrophulariaceae) a study of flower anthocyanins was consistent with Straw's hypothesis that the wasp-pollinated P. spectabilis originated by hybridization between the hummingbird-pollinated P. centranthifolius and the bee-pollinated P. grinnellii.