Floral resins of Philodendron adamantinum (Araceae): secretion, release and synchrony with pollinators

Patrícia Gonçalves-Souza,Clemens Schlindwein,Elder Antonio Sousa Paiva

doi:10.1590/0102-33062018abb0115

Patrícia Gonçalves-Souza, Clemens Schlindwein + Show 1 more

Open Access

https://doi.org/10.1590/0102-33062018abb0115

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Abstract

ABSTRACT Philodendron is the only genus of Araceae in which resin release occurs in the inflorescence. The resinous secretion adheres to the smooth body surface of the pollinating scarab beetles and allows attachment of pollen grains, making its transport possible. In order to understand the process of resin synthesis and release to the external environment, we used structural, ultrastructural and histochemical analyses at different stages of development of the inflorescences of Philodendron adamantinum. Two types of secretory canals were observed in the spathe: small caliber canals near the abaxial face, and larger caliber canals in the adaxial region. Only the latter canals release secretion into the external environment. The secretory epithelium in these canals is formed by a layer of cuneiform cells, and exhibits secretory activity throughout the development of the spathe. Resin exudation is a peculiar characteristic of these canals and appears to result from pressure exerted by the secretory epithelium and by structural modifications in the wall of cells adjacent to the epidermis, which allow the formation of a separation zone whereby the resin is released. The observed synchrony between anther dehiscence and resin exudation of P. adamantinum enhances the role of this secretion in the pollination process.

Highlights

Plant resins are chemically complex substances synthesized, stored and sometimes released by plants
Resin exudation is a peculiar characteristic of these canals and appears to result from pressure exerted by the secretory epithelium and by structural modifications in the wall of cells adjacent to the epidermis, which allow the formation of a separation zone whereby the resin is released
This is the case in floral resin glands that produce these substances as floral rewards for female bees of the tribes Euglossini, Meliponini (Apidae), and Anthidiini (Megachilidae) which use them as raw material for nest construction (Simpson & Neff 1981; 1983; Michener 2007)

Summary

Introduction

Plant resins are chemically complex substances synthesized, stored and sometimes released by plants. Resins are produced in flowers or inflorescences and hold a function in the reproductive biology of the plant This is the case in floral resin glands that produce these substances as floral rewards for female bees of the tribes Euglossini, Meliponini (Apidae), and Anthidiini (Megachilidae) which use them as raw material for nest construction (Simpson & Neff 1981; 1983; Michener 2007). These resin glands occur in the pseudanthium of Dalechampia (Euphorbiaceae) (Armbruster & Webster 1979; 1981; Armbruster 1984; 1996) and in staminate and pistillate flowers of Clusia (Clusiaceae)

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