Nectary and elaiophore work together in flowers of Xylopia aromatica (Annonaceae): structure indicates a role in pollination

Abstract

Secretory structures that produce floral rewards have rarely been reported for Annonaceae. We identified a glandular region in Xylopia aromatica (Lam.) Mart., which consisted of a nectary and an elaiophore. This study aimed to describe the structure and secretory process of these glandular structures, which are highly correlated with the reproductive biology of this species. Anatomical and ultrastructural studies were performed prior to and during anthesis, focusing on the channel and pollination chamber. The floral nectary is placed in the roof of the chamber. It has a secretory epidermis and subglandular parenchyma and is immediately contiguous with the elaiophore, a portion that delimits the pollination channel and produces lipids. The release of nectar begins in the pistillate phase, while the elaiophore starts secreting prior to anthesis, both of which finishing during the staminate phase. Lipids form a sticky layer covering the channel surface, which provides access to the chamber. The cell machinery of the epidermis for both nectary and elaiophore is highly correlated with the exudates, despite their highly similar structure. Nectar attracts pollinators to the pollination chamber, whereas lipids seem to act in pollen adhesion to the body of pollinators. Both of exudates appear to act in complementary ways during pollination.