Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae

Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae

Abstract Keysercythere reticulata sp. nov. and Redekea abyssalis sp. nov., collected from the wood fall submerged in the Kuril-Kamchatka Trench (Northwestern Pacific), are only the second records of the naturally occurring, wood-associated ostracod fauna fr...

Full description

Bibliographic Details
Main Authors: Hayato Tanaka, Hyunsu Yoo, Huyen Thi Minh Pham, Ivana Karanovic
Format: Article
Language:English
Published: Senckenberg Gesellschaft für Naturforschung 2021-06-01
Series:Arthropod Systematics & Phylogeny
Online Access:https://arthropod-systematics.arphahub.com/article/62282/download/pdf/
id doaj-8112ca3add5844ef9031f2eb1080132f
record_format Article
spelling doaj-8112ca3add5844ef9031f2eb1080132f2021-09-28T14:42:29ZengSenckenberg Gesellschaft für NaturforschungArthropod Systematics & Phylogeny1864-83122021-06-017917118810.3897/asp.79.e6228262282Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and ParadoxostomatidaeHayato Tanaka0Hyunsu Yoo1Huyen Thi Minh Pham2Ivana Karanovic3Tokyo Sea Life ParkMarine Environmental Research and Information LaboratoryHanyang UniversityUniversity of Tasmania Abstract Keysercythere reticulata sp. nov. and Redekea abyssalis sp. nov., collected from the wood fall submerged in the Kuril-Kamchatka Trench (Northwestern Pacific), are only the second records of the naturally occurring, wood-associated ostracod fauna from a depth of over 5000 m. At the same time, K. reticulata is the second and R. abyssalis is the third representative of their respective genera. While Keysercythere Karanovic and Brandão, 2015 species are free-living, deep-sea taxa, all Redekea de Vos, 1953 live symbiotically on the body surface of wood-boring isopods, Limnoria spp. Since R. abyssalis is the only genus representative found in the deep sea, we hypothesize that its ancestor colonized this ecosystem as a result of the symbiotic relationship. Newly collected material enabled us to update molecular phylogeny of Cythreoidea based on 18S rRNA gene sequences, especially to clarify the current systematics of the families Keysercytheridae, Limnocytheridae, and Paradoxostomatidae. The resulting phylogenetic tree supports a close relationship between Keysercythere and Redekea and a distant relationship between two Limnocytheridae lineages, Timiriaseviinae and Limnocytherinae. Consequently, we propose a transfer of Redekea from Paradoxostomatidae to Keysercytheridae, and erecting of the two limnocytherid subfamilies onto the family level. The phylogenetic analysis also implies a close relationship between the nominal Limnocytherinae genus and Keysercythere+Redekea clade, albeit with a low posterior probability, requiring further studies to clarify this. https://arthropod-systematics.arphahub.com/article/62282/download/pdf/
collection DOAJ
language English
format Article
sources DOAJ
author Hayato Tanaka
Hyunsu Yoo
Huyen Thi Minh Pham
Ivana Karanovic
spellingShingle Hayato Tanaka
Hyunsu Yoo
Huyen Thi Minh Pham
Ivana Karanovic
Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae
Arthropod Systematics & Phylogeny
author_facet Hayato Tanaka
Hyunsu Yoo
Huyen Thi Minh Pham
Ivana Karanovic
author_sort Hayato Tanaka
title Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae
title_short Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae
title_full Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae
title_fullStr Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae
title_full_unstemmed Two new xylophile cytheroid ostracods (Crustacea) from Kuril-Kamchatka Trench, with remarks on the systematics and phylogeny of the family Keysercytheridae, Limnocytheridae, and Paradoxostomatidae
title_sort two new xylophile cytheroid ostracods (crustacea) from kuril-kamchatka trench, with remarks on the systematics and phylogeny of the family keysercytheridae, limnocytheridae, and paradoxostomatidae
publisher Senckenberg Gesellschaft für Naturforschung
series Arthropod Systematics & Phylogeny
issn 1864-8312
publishDate 2021-06-01
description Abstract Keysercythere reticulata sp. nov. and Redekea abyssalis sp. nov., collected from the wood fall submerged in the Kuril-Kamchatka Trench (Northwestern Pacific), are only the second records of the naturally occurring, wood-associated ostracod fauna from a depth of over 5000 m. At the same time, K. reticulata is the second and R. abyssalis is the third representative of their respective genera. While Keysercythere Karanovic and Brandão, 2015 species are free-living, deep-sea taxa, all Redekea de Vos, 1953 live symbiotically on the body surface of wood-boring isopods, Limnoria spp. Since R. abyssalis is the only genus representative found in the deep sea, we hypothesize that its ancestor colonized this ecosystem as a result of the symbiotic relationship. Newly collected material enabled us to update molecular phylogeny of Cythreoidea based on 18S rRNA gene sequences, especially to clarify the current systematics of the families Keysercytheridae, Limnocytheridae, and Paradoxostomatidae. The resulting phylogenetic tree supports a close relationship between Keysercythere and Redekea and a distant relationship between two Limnocytheridae lineages, Timiriaseviinae and Limnocytherinae. Consequently, we propose a transfer of Redekea from Paradoxostomatidae to Keysercytheridae, and erecting of the two limnocytherid subfamilies onto the family level. The phylogenetic analysis also implies a close relationship between the nominal Limnocytherinae genus and Keysercythere+Redekea clade, albeit with a low posterior probability, requiring further studies to clarify this.
url https://arthropod-systematics.arphahub.com/article/62282/download/pdf/
work_keys_str_mv AT hayatotanaka twonewxylophilecytheroidostracodscrustaceafromkurilkamchatkatrenchwithremarksonthesystematicsandphylogenyofthefamilykeysercytheridaelimnocytheridaeandparadoxostomatidae
AT hyunsuyoo twonewxylophilecytheroidostracodscrustaceafromkurilkamchatkatrenchwithremarksonthesystematicsandphylogenyofthefamilykeysercytheridaelimnocytheridaeandparadoxostomatidae
AT huyenthiminhpham twonewxylophilecytheroidostracodscrustaceafromkurilkamchatkatrenchwithremarksonthesystematicsandphylogenyofthefamilykeysercytheridaelimnocytheridaeandparadoxostomatidae
AT ivanakaranovic twonewxylophilecytheroidostracodscrustaceafromkurilkamchatkatrenchwithremarksonthesystematicsandphylogenyofthefamilykeysercytheridaelimnocytheridaeandparadoxostomatidae
_version_ 1716865494330376192

Similar Items