Morphological Redescription and Molecular Identification ofTrichodina reticulataHirschmann & Partsch, 1955 (Ciliophora, Mobilida, Trichodinidae) with the Supplemental New Data ofSSU rDNAandITS‐5.8SrDNA

Molecular characterization and phylogenetic analysis of Paratrichodina africana Kazubski and El-Tantawy, 1986 based on 18S rRNA gene data with the evolutionary hypothesis of trichodinids

In this study, we provided the morphological data and the first 18S rRNA gene data of Paratrichodina africana Kazubski and El-Tantawy, 1986, isolated from hybrids of Oreochromis niloticus × Oreochromis mossambicus in Chongqing, China. Morphologically, P. africana is mainly characterized by the triangular blade and prominent anterior projection. The present population is consistent with the original populations in the overall appearance of the adhesive disc, and falls within the morphometry range of the original descriptions. Phylogenetically, P. africana was clustered into one large clade with Trichodinella and Tripartiella species, which was nested within Trichodina ones with strong support. By combining morphological and molecular data, our results revealed that the validity of the genus Paratrichodina was doubtful, and suggested that the three genera Trichodinella, Tripartiella, and Paratrichodina should be incorporated into one independent genus. In addition, we provided morphological and molecular data of additional eight trichodinids, and further performed the phylogenetic analysis and traced the evolution history of trichodinids' five morphological and bionomical characters for the first time by taking advantage of the current GenBank data. According to the present results, one evolutionary hypothesis of trichodinids was proposed as follows. The most recent common ancestor of trichodinids inhabiting the freshwater environment as a symbiont of vertebrates should evolve from the ancestor with a long-spiral adoral ciliary turn. The first differentiated Trichodina species should be parasitic on one vertebrate distributed in the freshwater environment. During their evolution, some trichodinids expanded to the marine environment, and some switched to invertebrates in the freshwater environment. The denticle of some freshwater Trichodina species became narrower, and the adoral ciliary spiral turn got shorter, forming the ancestor-oid organism with a short-spiral adoral ciliary turn. Then, those Trichodinella, Tripartiella, and Paratrichodina species might evolve from those ancestor-oid organisms with short-spiral adoral ciliary turn.

Morphological and genetic analysis of Ceratomyxa saurida Zhao et al. 2015 and Ceratomyxa mai sp. nov. (Myxozoa: Ceratomyxidae) from the East China Sea

We describe Ceratomyxa saurida Zhao et al. 2015 and Ceratomyxa mai sp. nov. (Myxozoa: Ceratomyxidae) from the East China Sea. C. saurida was found in the gallbladders of 3/13 specimens of its type host, Saurida elongata Temminck and Schlegel 1846 (Aulopiformes). Myxospore characters were consistent with the original description to which we have added small subunit (SSU) rRNA gene data. C. mai sp. nov. was found in gallbladders of 3/13 specimens of S. elongata and 5/13 specimens of Neobythites sivicola Jordan and Snyder 1901 (Ophidiiformes). Mature myxospores of C. mai sp. nov. were crescentic in sutural view, with a deeply concave posterior angle 142.2±8.2° (125.8‒158.2°) and an arched anterior side. Shell valves were smooth and equal, 20.9±1.9 (17.3‒24.7) µm thick and 9.2±0.5 (8.1‒9.9) µm long, and joined at a straight, thin sutural plane passing between two nematocysts (polar capsules). The nematocysts were equal-sized, pyriform, 2.6±0.2 (2.4‒2.9) µm long and 2.7±0.2 (2.4‒3.3) µm wide, with their tapered ends pointed toward each other, located in the anterior third of the spore. Sequences of the SSU rRNA gene and internal transcribed spacer 1 showed that the isolates of C. mai sp. nov. obtained from S. elongata and N. sivicola were identical. The SSU rRNA gene sequence of C. mai sp. nov. was distinct from all known myxosporeans and clustered with C. saurida, and then with Ceratomyxa filamentosi Kalatzis, Kokkari and Katharios 2013, both of which also infect Aulopiformes fishes.

Redescription and molecular characterization of two Trichodina species (Ciliophora, Peritrichia, Mobilida) from freshwater fish in China

During an investigation of parasitic ciliates in northern China, two Trichodina species, T. acuta Lom, 1970 and T. nigra Lom, 1960, were isolated from the freshwater fish Cyprinus carpio Linnaeus, 1758. The morphology of each species was investigated based on dry silver nitrate-stained specimens. In addition, the molecular phylogeny of each was analyzed based on small subunit ribosomal DNA (SSU rDNA) sequence data. Trichodina acuta can be distinguished from its congeners by the undefined periphery of the central circle, the distinct gap between the rays and the central circle, and the distinctly sickle-shaped blades. Trichodina nigra is a cosmopolitan ciliate and is characterized by its densely linked denticles, broad, rounded spatula-shaped blades, robust central parts, and well developed rays. Phylogenetic analyses revealed that T. acuta and T. nigra nest within different clades, supporting the assertion that the GC content of SSU rDNA sequences could reflect evolutionary relationships among Trichodina species.

A new species of Trichodina lishuiensis n. sp. (Ciliophora: Trichodinidae) in urinary bladder of Odorrana schmackeri (Amphibia: Ranidae) from Zhejiang, China

Endoparasitic trichodinids are rather rare ciliates. In this study we describe a new species named Trichodina lishuiensis from the bladder of Odorrana schmackeri collected in Zhejiang, China, with the prevalence of 20% (9/45). We identified T. lishuiensis as a new species by morphological comparison and molecular analysis. The ciliates were observed using the dry-silver and protargol staining methods, as well as SEM (scanning electron microscopy). Trichodina lishuiensis is a small species (cell diameter 31.8-43.9 μm), with incompact denticles connection, medium-wide blades and thick rays. We also sequenced a 1712 bp-long fragment of the small subunit ribosomal RNA gene (SSU rRNA). Phylogenetic analyses showed that the new species clustered with Trichodina unionis. The route of transmission of Trichodina species in the urinary bladder remains a mystery. We hypothesize that the transmisison takes place during the amplexus, with eggs and sperm discharged from the cloaca, and that trichodinids 'accompany' the amphibian through its whole life cycle, but further studies are needed to test this hypothesis.

Molecular characterization and phylogenetic analyses of Tripartiella macrosoma Basson and Van As, 1987 and Tripartiella obtusa Ergens and Lom, 1970 based on 18S rRNA gene sequence data

In the present study, we provided the first 18S rRNA gene sequence data of two Tripartiella species, Tripartiella macrosoma Basson and Van As, 1987 and Tripartiella obtusa Ergens and Lom, 1970, which were isolated from Tachysurus fulvidraco (Richardson, 1846) and Hemibarbus maculatus Bleeker, 1871 in Chongqing, China, respectively. Morphologically, both species fall within the morphometry range of the original descriptions and are very similar to the original populations in the overall appearance of the adhesive disc. Tripartiella macrosoma can be easily distinguished from the other Tripartiella species by possessing the denticle with a long strip and conspicuously inclined backward blade and a robust and short ray. Tripartiella obtusa is mainly characterized by a broad blade and a relatively long ray. Phylogenetically, T. macrosoma clustered with Trichodinella myakkae (Mueller, 1937) Raabe, 1950 and further with Trichodinella sp., which was sister to a group that includes four populations of Trichodinella epizootica (Raabe, 1950) Šrámek-Hušek, 1953; finally, they formed a small clade with T. obtusa. This result suggested that T. macrosoma had a closer relationship with Trichodinella spp. than with T. obtusa and T. obtusa diverged earlier than T. macrosoma and Trichodinella spp. By combining morphological and molecular data, the polyphyletic characteristics of Tripartiella and Trichodinella were further analyzed, and the results revealed that the validity of the genus Tripartiella is doubtful.

Cryptic host-driven speciation of mobilid ciliates epibiotic on freshwater planarians

Mobilids are among the most taxonomically diverse but morphologically uniform groups of epibiotic ciliates. They attach to their hosts by means of an adhesive disc as harmless commensals such as Urceolaria, or as parasites causing significant economic loss such as some Trichodina species. We investigated the diversity, species boundaries, and phylogenetic relationships of mobilids associated with freshwater planarians, using 114 new sequences of two mitochondrial (16S rRNA gene and cytochrome c oxidase gene) and five nuclear (18S rRNA gene, ITS1-5.8S-ITS2 region, D1/D2 domains of 28S rRNA gene) markers. Although the morphological disparity of the isolated trichodinids and urceolariids was low, Bayesian coalescent analyses revealed the existence of five distinct evolutionary lineages/species given the seven molecular markers. The occurrence of mobilids perfectly correlated with their planarian hosts: Trichodina steinii and two Urceolaria mitra-like taxa were associated exclusively with the planarian Dugesia gonocephala, Trichodina polycelis sp. n. with the planarian Polycelis felina, and Trichodina schmidtea sp. n. with the planarian Schmidtea polychroa. Host organisms thus very likely constitute sharply isolated niches that might permit speciation of their epibiotic ciliates, even though no distinct morphological features appear to be recognizable among ciliates originating from different hosts.