Ramisyllis kingghidorahi n. sp., a new branching annelid from Japan

2022 | journal article. A publication with affiliation to the University of Göttingen.

Erratum to this publication

Jump to:Cite & Linked | Documents & Media | Details | Version history

Cite this publication

​Ramisyllis kingghidorahi n. sp., a new branching annelid from Japan​
Aguado, M. T. ; Ponz-Segrelles, G.; Glasby, C. J.; Ribeiro, R. P.; Nakamura, M.; Oguchi, K. & Omori, A. et al.​ (2022) 
Organisms Diversity & Evolution,.​ DOI: https://doi.org/10.1007/s13127-021-00538-4 

Documents & Media

document.pdf12.76 MBAdobe PDF

License

GRO License GRO License

Details

Authors
Aguado, M. Teresa ; Ponz-Segrelles, Guillermo; Glasby, Christopher J.; Ribeiro, Rannyele P.; Nakamura, Mayuko; Oguchi, Kohei; Omori, Akihito; Kohtsuka, Hisanori; Fischer, Christian; Ise, Yuji; Miura, Toru
Abstract
Abstract Among over 20,000 species of Annelida, only two branching species with a highly modified body-pattern are known until now: the Syllidae Syllis ramosa McIntosh, 1879, and Ramisyllis multicaudata Glasby et al. (Zoological Journal of the Linnean Society, 164, 481–497, 2012). Both have unusual ramified bodies with one head and multiple branches and live inside the canals of host sponges. Using an integrative approach (combining morphology, internal anatomy, ecology, phylogeny, genetic divergence, and the complete mitochondrial genome), we describe a new branching species from Japan, Ramisyllis kingghidorahi n. sp., inhabiting an undescribed species of Petrosia (Porifera: Demospongiae) from shallow waters. We compare the new species with its closest relative, R. multicaudata ; emend the diagnosis of Ramisyllis ; and discuss previous reports of S. ramosa . This study suggests a much higher diversity of branching syllids than currently known. Finally, we discuss possible explanations for the feeding behaviour in the new species in relation to its highly ciliated wall of the digestive tubes (especially at the distal branches and anus), and provide a hypothesis for the evolution of branching body patterns as the result of an adaptation to the host sponge labyrinthic canal system.
Issue Date
2022
Journal
Organisms Diversity & Evolution 
ISSN
1439-6092
eISSN
1618-1077
Language
English
Sponsor
Georg-August-Universität Göttingen

Reference

Citations


Social Media