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A new species of Xenoturbella from the western Pacific Ocean and the evolution of Xenoturbella
Author(s) -
Hiroaki Nakano,
Hideyuki Miyazawa,
Akiteru Maeno,
Toshihiko Shiroishi,
Keiichi Kakui,
Ryo Koyanagi,
Miyuki Kanda,
Noriyuki Satoh,
Akihito Omori,
Hisanori Kohtsuka
Publication year - 2017
Publication title -
bmc evolutionary biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.533
H-Index - 122
ISSN - 1471-2148
DOI - 10.1186/s12862-017-1080-2
Subject(s) - deuterostome , biology , sister group , phylogenetic tree , evolutionary biology , vertebrate , zoology , phylogenetics , anatomy , ecology , clade , biochemistry , gene
Background Xenoturbella is a group of marine benthic animals lacking an anus and a centralized nervous system. Molecular phylogenetic analyses group the animal together with the Acoelomorpha, forming the Xenacoelomorpha. This group has been suggested to be either a sister group to the Nephrozoa or a deuterostome, and therefore it may provide important insights into origins of bilaterian traits such as an anus, the nephron, feeding larvae and centralized nervous systems. However, only five Xenoturbella species have been reported and the evolutionary history of xenoturbellids and Xenacoelomorpha remains obscure. Results Here we describe a new Xenoturbella species from the western Pacific Ocean, and report a new xenoturbellid structure - the frontal pore. Non-destructive microCT was used to investigate the internal morphology of this soft-bodied animal. This revealed the presence of a frontal pore that is continuous with the ventral glandular network and which exhibits similarities with the frontal organ in acoelomorphs. Conclusions Our results suggest that large size, oval mouth, frontal pore and ventral glandular network may be ancestral features for Xenoturbella. Further studies will clarify the evolutionary relationship of the frontal pore and ventral glandular network of xenoturbellids and the acoelomorph frontal organ. One of the habitats of the newly identified species is easily accessible from a marine station and so this species promises to be valuable for research on bilaterian and deuterostome evolution. Electronic supplementary material The online version of this article (10.1186/s12862-017-1080-2) contains supplementary material, which is available to authorized users.

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