AbstractThe ciliate order Clevelandellida unites endosymbionts of the digestive tract of a variety of invertebrates and vertebrates. In the present study, the primary and secondary structures of nuclear and hydrogenosomal rRNA molecules were employed to reconstruct the phylogenetic relationships and to estimate the divergence times of clevelandellids inhabiting the hindgut of the Panesthiinae cockroaches. The secondary structure information was incorporated in phylogenetic analyses using two different strategies, viz., indirectly through 2D‐guided alignments and directly through so‐called pseudo‐protein data. Nuclear and hydrogenosomal markers carried a consistent phylogenetic signal and robustly supported the monophyletic origin of the family Clevelandellidae as well as of its four genera. According to Bayesian relaxed molecular clock analyses, the last common ancestor (LCA) of the family Clevelandellidae very likely emerged during the Late Cretaceous in the Oriental region. Its descendants most likely expanded to Australia in concert with the Neogene colonization and radiation of their host Panesthiinae cockroaches. Taking into account the time‐calibrated phylogenies and the fact that early branching members of the order Clevelandellida inhabit the digestive tracts of amphibians, it is tempting to speculate that the LCA of the Clevelandellida evolved in ectothermic vertebrates. Amphibians could have brought clevelandellids to the land, where they may have been transmitted to the cockroach digestive tract upon feeding on amphibian faeces.