COMPARATIVE FLOWER AND FRUIT MORPHOGENESIS IN COLUBRINA (RHAMNACEAE) WITH SPECIAL REFERENCE TO C. ASIATICA

Flower and fruit morphogenesis of Colubrina asiatica, including aspects of fruit dehiscence and seed morphology, were studied by scanning electron microscopy and serial sectioning. Material from 13 additional species representing most intrageneric diversity was also examined. Organ initiation is simultaneous within each floral whorl and proceeds centripetally. Each petal/stamen pair apparently arises by tangential splitting of an individual primordium. The ontogeny of the three-locular, semi-inferior gynoecium follows a pattern common to many Rhamnaceae. At anthesis each uniovulated carpel has an almost independent pollen-tube pathway, with a subbasal compitum allowing for interconnection between carpels. Protandry, herkogamy, and a tendency to polygamy seemed to occur in C. asiatica. Fruit growth results mainly from postfloral promotion of the previously negligible superior part of the ovary. The explosively to tardily dehiscent capsules include three thin-walled, dehiscent stones (endocarpids) of inner dermal origin. At maturity, xerochastic (i.e., caused by desiccation), oblique bending of the endocarpids generates a complex dehiscence pattern involving thorough breaking of epicarp and mesocarp. The Colubrina type of fruit may be considered basic within the Rhamnaceae, which is consistent with the putative primitiveness of the genus. A limited potential for specialization is, however, expressed in such traits as explosive dehiscence, persistent arils on the seeds, and dispersal by sea currents (thalassochory).