Cretaceous flowers of Nymphaeaceae and implications for complex insect entrapment pollination mechanisms in early Angiosperms

AUTOR(ES)

Gandolfo, M. A.

FONTE

National Academy of Sciences

RESUMO

Based on recent molecular systematics studies, the water lily lineage (Nymphaeales) provides an important key to understanding ancestral angiosperm morphology and is of considerable interest in the context of angiosperm origins. Therefore, the fossil record of Nymphaeales potentially provides evidence on both the timing and nature of diversification of one of the earliest clades of flowering plants. Recent fossil evidence of Turonian age (≈90 million years B.P.) includes fossil flowers with characters that, upon rigorous analysis, firmly place them within Nymphaeaceae. Unequivocally the oldest floral record of the Nymphaeales, these fossils are closely related to the modern Nymphaealean genera Victoria (the giant Amazon water lily) and Euryale. Although the fossils are much smaller than their modern relatives, the precise and dramatic correspondence between the fossil floral morphology and that of modern Victoria flowers suggests that beetle entrapment pollination was present in the earliest part of the Late Cretaceous.

Documentos Relacionados

• Regulation of Methylbenzoate Emission after Pollination in Snapdragon and Petunia Flowers
• Regulation of Ethylene Biosynthesis in Response to Pollination in Tomato Flowers1
• Insect mortality in Spathodea campanulata Beauv. (Bignoniaceae) flowers
• The insect reservoir of biodiversity for viruses and for antiviral mechanisms
• Resupinate Dimorphy, a novel pollination strategy in two-lipped flowers of Eplingiella (Lamiaceae)