PHYLOGENY OF THE EUGLENOPHYTES: ANALYSIS USING SSU RDNA AND ULTRASTRUCTURAL CHARACTERS

The use of both molecular and morphological data to determine relationships among the euglenoids is vital for a complete understanding of their phylogeny, and the development of an accurate taxonomy. Analyses of the SSU (18S) rDNA from 12 euglenoid genera have resulted in tree topologies that are in agreement with many defining morphological characters. The euglenoid lineage is formed by phagotrophic euglenoids at its base, followed by the divergence of phototrophs that in‐turn gave rise to osmotrophs. The photosynthetic lineage is anchored by euglenoids with two emergent flagella, Eutreptia and Eutreptiella , while the remainder of the lineage is composed of euglenoids with a single emergent flagellum. Among the photosynthetic euglenoids with a single emergent flagellum those that secrete mucilaginous stalks, Colacium , or form a lorica, Trachelomonas and Strombomonas , are closely associated. The remaining photosynthetic genera Euglena , Phacus , and Lepocinclis are intermixed with each other and the osmotrophic genera Astasia , and Khawkinea. Hence, they are not monophyletic, sensu Hennig. To reinforce molecular phylogenies, a robust morphological character database is necessary. For taxa with complex internal structures complete serial reconstruction is required. Serial reconstruction of the flagellar and feeding apparatuses in Ploeotia costata illustrate this necessity. Originally described as having both an MTR (Type I) and a Type II feeding apparatus, reconstruction has shown P. costata to have a single, Type II, feeding apparatus. Moreover, the Type II now appears to be an autapomorphy for Ploeotia species, while euglenoid feeding apparatuses, in toto, appear to form a continuum of structural types.