Exploring evolutionary trends within the Pennellidae (Copepoda: Siphonostomatoida) using molecular data

The family Pennellidae comprises ecto- and mesoparasitic copepods on marine fishes. Although a preliminary scheme of phylogenetic relationships of pennellids based on morphological characters exists, it is difficult to objectively define character states because of their highly modified bodies and r...

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Veröffentlicht in:	Systematic parasitology 2022-08, Vol.99 (4), p.477-489
Hauptverfasser:	Yumura, Nanami, Adachi, Kenta, Nitta, Masato, Kondo, Yusuke, Komeda, Sota, Wakabayashi, Kaori, Fukuchi, Jun, Boxshall, Geoffrey A., Ohtsuka, Susumu
Format:	Artikel
Sprache:	eng
Schlagworte:	Agriculture Animal Anatomy Animal Ecology Animal Systematics/Taxonomy/Biogeography Appendages Biomedical and Life Sciences Copepoda Divergence Histology Life Sciences Morphology Nucleotide sequence Parasites Pennella Pennellidae Phrixocephalus Phylogenetics Phylogeny Ribosomal DNA Species Trends Zoology
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container_title	Systematic parasitology
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creator	Yumura, Nanami Adachi, Kenta Nitta, Masato Kondo, Yusuke Komeda, Sota Wakabayashi, Kaori Fukuchi, Jun Boxshall, Geoffrey A. Ohtsuka, Susumu
description	The family Pennellidae comprises ecto- and mesoparasitic copepods on marine fishes. Although a preliminary scheme of phylogenetic relationships of pennellids based on morphological characters exists, it is difficult to objectively define character states because of their highly modified bodies and reduced appendages. This molecule-based study analysed phylogenetic relationships among seven genera and 12 species of pennellids, using 18S and 28S ribosomal DNA sequences in order to infer evolutionary trends within the family. Our molecular analysis recovered three clades (Clade-I, Peniculus ; Clade-II, Haemobaphes - Lernaeocera - Phrixocephalus - Exopenna - Lernaeenicus radiatus ; and Clade-III, Pennella - Lernaeenicus spp.). This result was congruent with some of the morphology-based phylogenetic relationships previously proposed but did not support a sister group comprising Exopenna , Phrixocephalus and Pennella . The second and third offshoots after the divergence of Clade-I species are characterized by reduced body tagmosis and changes in lifestyle from ectoparasites to mesoparasites. In some gill parasites of Clade-II, their sigmoid-shaped bodies and coiled egg strings have likely evolved in adaptation to the limited available space within the gill cavities of the hosts. Phrixocephalus is an eye parasite in Clade-II, which also has coiled egg strings, may have descended from an ancestral gill parasite. All species of Clade-III are characterized by the possession of a head region with processes deeply embedded into the host tissues and functioning as an anchor.
doi_str_mv	10.1007/s11230-022-10040-w
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Although a preliminary scheme of phylogenetic relationships of pennellids based on morphological characters exists, it is difficult to objectively define character states because of their highly modified bodies and reduced appendages. This molecule-based study analysed phylogenetic relationships among seven genera and 12 species of pennellids, using 18S and 28S ribosomal DNA sequences in order to infer evolutionary trends within the family. Our molecular analysis recovered three clades (Clade-I, Peniculus ; Clade-II, Haemobaphes - Lernaeocera - Phrixocephalus - Exopenna - Lernaeenicus radiatus ; and Clade-III, Pennella - Lernaeenicus spp.). This result was congruent with some of the morphology-based phylogenetic relationships previously proposed but did not support a sister group comprising Exopenna , Phrixocephalus and Pennella . The second and third offshoots after the divergence of Clade-I species are characterized by reduced body tagmosis and changes in lifestyle from ectoparasites to mesoparasites. In some gill parasites of Clade-II, their sigmoid-shaped bodies and coiled egg strings have likely evolved in adaptation to the limited available space within the gill cavities of the hosts. Phrixocephalus is an eye parasite in Clade-II, which also has coiled egg strings, may have descended from an ancestral gill parasite. 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subjects	Agriculture Animal Anatomy Animal Ecology Animal Systematics/Taxonomy/Biogeography Appendages Biomedical and Life Sciences Copepoda Divergence Histology Life Sciences Morphology Nucleotide sequence Parasites Pennella Pennellidae Phrixocephalus Phylogenetics Phylogeny Ribosomal DNA Species Trends Zoology
title	Exploring evolutionary trends within the Pennellidae (Copepoda: Siphonostomatoida) using molecular data
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