Comparative development of the rattan ocrea, a structural innovation that facilitates ant–plant mutualism

Abstract

The ocrea is an extension of the leaf sheath that occurs in a wide range of angiosperms, including some rattan palms (Arecaceae/Palmae). In some rattan species, the ocrea is an inflated sac-like structure that acts as a domatium. Typically, ants occupy this domatium, tending their young and husbanding aphids, and potentially providing a defence mechanism for the rattan. We present a comparative study of early leaf development in five palm species, including both ocreate and non-ocreate taxa. Early leaf development was examined using SEM in Calamus longipinna, which has a pronounced ocrea, and compared with two other Calamus species with an inconspicuous ocrea, and two non-ocreate palms, Chamaedorea pochutlensis and Rhapis humilis. All three Calamus species examined develop an extension from the top of the leaf sheath, in contrast with the non-ocreate palms examined for comparison. The ocrea is a vascularized outgrowth from the top of the leaf sheath, initiated shortly after differentiation of the lamina and sheath. Calamus longipinna differs from the other two Calamus species in that plications develop on the surface of the ocrea, and persist as folds on the ocrea surface. The highly unusual ocreate plications of C. longipinna form axial folds that permit the sac-like ocrea to become inflated, and give it the properties of a domatium, thus facilitating the ant–plant interaction in this species. The homologies of the ocrea in rattans require further review because the interpretation of leaf-derived appendages such as ligules and stipules remains controversial based on contradictory evidence from location and vasculature.