Redescription and Molecular Assessment of Relationships Among Three Species of Echeneibothrium (Rhinebothriidea: Echeneibothriidae) Parasitizing the Yellownose Skate, Dipturus chilensis, in Chile

Much progress has recently been made in revising the taxonomic assignments of genera originally classified in the polyphyletic “Tetraphyllidea.” Many of these genera, including Echeneibothrium, were accommodated in the order Rhinebothriidea. However, beyond this larger taxonomic action, little work...

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Bibliographic Details
Published in:The Journal of parasitology 2017-06, Vol.103 (3), p.268-284
Main Authors: Bueno, Veronica M, Caira, Janine N
Format: Article
Language:English
Subjects:
Animals
Bayesian analysis
Bioinformatics
Cestoda - classification
Cestoda - genetics
Cestoda - ultrastructure
Cestode Infections - epidemiology
Cestode Infections - parasitology
Cestode Infections - veterinary
Chile - epidemiology
Colleges & universities
Colonization
Descriptions
Dipturus chilensis
DNA, Helminth - chemistry
DNA, Helminth - isolation & purification
DNA, Ribosomal - chemistry
Echeneibothrium
Fish Diseases - epidemiology
Fish Diseases - parasitology
Genera
Genes
Interspecific
Intestines - parasitology
Investigations
Likelihood Functions
Microscopy, Electron, Scanning - veterinary
Morphology
Pacific Ocean - epidemiology
Parasitology
Phylogenetics
Phylogeny
Polymerase Chain Reaction
Prevalence
Rhinebothriidea
RNA, Ribosomal, 28S - genetics
Scanning electron microscopy
Sequences
Skates (Fish) - parasitology
Species
Statistical inference
SYSTEMATICS-PHYLOGENETICS
Taxonomy
Terminology
Vagina
Variation
Vas deferens
Zoology
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Summary:Much progress has recently been made in revising the taxonomic assignments of genera originally classified in the polyphyletic “Tetraphyllidea.” Many of these genera, including Echeneibothrium, were accommodated in the order Rhinebothriidea. However, beyond this larger taxonomic action, little work has been conducted on this genus over the past 50 yr. Consequently, the criteria used for characterizing species of Echeneibothrium have lagged behind those typically used in more modern descriptions of elasmobranch-hosted cestode taxa. A series of collecting trips to Chile to obtain cestodes from the yellownose skate, Dipturus chilensis, provided a unique opportunity to apply modern morphological and molecular methods to investigate the 3 species of Echeneibothrium reported parasitizing this skate, specifically Echeneibothrium megalosoma, Echeneibothrium multiloculatum, and Echeneibothrium williamsi. In addition to redescribing all 3 species, using morphological data from light and scanning electron microscopy, maximum likelihood and bayesian inference phylogenetic analyses of the D1–D3 regions of the 28S rDNA gene were conducted to assess their relationships among other echeneibothriids for which comparable data are available. Sequencing of 59 specimens representing these 3 species of Echeneibothrium allowed us to assess the intra- and interspecific variation in the 28S rDNA gene. The redescriptions use standardized terminology for scolex morphology, proglottid anatomy, and microthrix forms and pattern; they also expand on the original descriptions to include data on scolex size, ovary size, vas deferens and vaginal configurations, testes arrangement, and genital pore position. Our morphological work led to a major reinterpretation of the scolex morphology with the recognition that all 3 species bear an apical bothridial sucker, rather than an apical loculus, prompting emendation of the diagnosis for the family Echeneibothriidae. The presence of a band of spinitriches at the apex of the apical modification of the scolex proper seems to represent an important feature for distinguishing the 2 portions of the myzorhynchus across species. Intraspecific variation ranged from 0 to 7 bp across species and interspecific variation ranged from a low of 39–46 bp between E. williamsi and E. multiloculatum to a high of 61–66 bp between E. multiloculatum and E. megalosoma. Phylogenetic analyses indicate that the 3 species of Echeneibothrium hosted by the yellownose skate ar
ISSN:0022-3395
1937-2345
DOI:10.1645/16-177