Kinorhyncha taxon details

Echinoderes komatsui Yamasaki & Fujimoto, 2014

1433163  (urn:lsid:marinespecies.org:taxname:1433163)

accepted
Species
marine
Yamasaki, H.; Fujimoto, S. (2014). Two new species in the Echinoderes coulli group (Echinoderidae, Cyclorhagida, Kinorhyncha) from the Ryukyu Islands, Japan. <em>ZooKeys.</em> 382: 27-52., available online at https://doi.org/10.3897/zookeys.382.6761
note: Description: pp. 31-37, figs 2-6, tabs 2-3. The source says: Published 20 February 2014. Hologenophore RUMF-ZK-8, GenBank accession numbers for 18S rRNA: AB899164, for 28S rRNA: AB899165, and for c...    
Description: pp. 31-37, figs 2-6, tabs 2-3. The source says: Published 20 February 2014. Hologenophore RUMF-ZK-8, GenBank accession numbers for 18S rRNA: AB899164, for 28S rRNA: AB899165, and for cytochrom c oxidase subunit I: AB899166.
[details] 
Holotype  URM RUMF-ZK-1, geounit Oura Bay  
Holotype URM RUMF-ZK-1, geounit Oura Bay [details]
Etymology The species is named after Dr H. Komatsu (National Museum of Nature and Science, Tokyo, Japan), a taxonomist of brachyuran...  
Etymology The species is named after Dr H. Komatsu (National Museum of Nature and Science, Tokyo, Japan), a taxonomist of brachyuran crabs and the first person to find Echinoderes komatsui sp. n. [details]
Neuhaus, B. (2021). World Kinorhyncha Database. Echinoderes komatsui Yamasaki & Fujimoto, 2014. Accessed at: http://www.marinespecies.org/kinorhyncha/aphia.php?p=taxdetails&id=1433163 on 2024-11-10
Date
action
by
2020-04-22 07:06:17Z
created

original description Yamasaki, H.; Fujimoto, S. (2014). Two new species in the Echinoderes coulli group (Echinoderidae, Cyclorhagida, Kinorhyncha) from the Ryukyu Islands, Japan. <em>ZooKeys.</em> 382: 27-52., available online at https://doi.org/10.3897/zookeys.382.6761
note: Description: pp. 31-37, figs 2-6, tabs 2-3. The source says: Published 20 February 2014. Hologenophore RUMF-ZK-8, GenBank accession numbers for 18S rRNA: AB899164, for 28S rRNA: AB899165, and for c...    
Description: pp. 31-37, figs 2-6, tabs 2-3. The source says: Published 20 February 2014. Hologenophore RUMF-ZK-8, GenBank accession numbers for 18S rRNA: AB899164, for 28S rRNA: AB899165, and for cytochrom c oxidase subunit I: AB899166.
[details] 

additional source Randsø, P. V.; Yamasaki, H.; Bownes, S. J.; Herranz, M.; Di Domenico, M.; Qii, G. B.; Sørensen, M. V. (2019). Phylogeny of the Echinoderes coulli-group (Kinorhyncha : Cyclorhagida : Echinoderidae) – a cosmopolitan species group trapped in the intertidal. <em>Invertebrate Systematics.</em> 33: 501-517., available online at https://doi.org/10.1071/is18069
note: phylogeny of Echinoderes coulli-group based on morphological and molecular characters (13 sequences from mitochondrial cytochrome c oxidase subunit 1, 14 sequenes from nuclear 18S rRNA) [details] Available for editors  PDF available

ecology source Uozumi, R.; Yamasaki, H.; Hirose, E. (2018). Mangrove forests may serve as stable environments for the meiobenthic Echinoderes komatsui (Kinorhyncha: Cyclorhagida): distribution patterns and population dynamics in a subtropical estuary. <em>Marine Biology Research.</em> 14(3): 321-333., available online at https://doi.org/10.1080/17451000.2017.1408916
note: Abstract (shortened): Echinoderes komatsui inhabits the interstitial spaces of the sediment on a subtropical tidal flat along the Oura River, Japan. This species mostly occurred within 0–10 mm from ...    
Abstract (shortened): Echinoderes komatsui inhabits the interstitial spaces of the sediment on a subtropical tidal flat along the Oura River, Japan. This species mostly occurred within 0–10 mm from the surface of the sediment, and the dispersion pattern was significantly patchy. The population dynamics were investigated by monthly surveys from January 2014 to May 2016 at four sites along the river, and from April 2015 to May 2016 at one site in the mangrove forest. Echinoderes komatsui occurred all year round; however, the population density showed different patterns among the sampling sites in response to seasonal changes. On the tidal flat, the population density was high in winter, but very low in summer. In the mangrove forest, the density was high (or not low) throughout the year. As was shown in laboratory experiments, E. komatsui survived in 1–44 salinity seawater but died at 0 (salinity experiments), and died within 4.5 days at 40° C (temperature experiments). Therefore, the low population density recorded in summer on the tidal flat was likely caused by high temperature and fresh water. The shade offered by the mangrove forest suppressed the increase in temperature of the sediment in the summer, probably resulting in the higher population density at this site relative to the tidal flat population. Mangrove forests may also mitigate the disturbance of the sediment by summer typhoons and serve as stable environments that are fundamental in the sustainability of estuarine meiobenthic fauna.
[details] Available for editors  PDF available

ecology source Ishii, D.; Yamasaki, H.; Uozumi, R.; Hirose, E. (2016). Does the kinorhynch have a hydrophobic body surface? Measurement of the wettability of a meiobenthic metazoan. <em>Royal Society Open Science.</em> 3(10): 160512, 6 pp., available online at https://royalsocietypublishing.org/doi/pdf/10.1098/rsos.160512 [details] 
 
 Present  Inaccurate  Introduced: alien  Containing type locality 
   

Holotype URM RUMF-ZK-1, geounit Oura Bay [details]
Nontype uncatalogued, geounit Ryukyu Islands [details]
Paratype URM RUMF-ZK-2 - RUMF-ZK-9, geounit Oura Bay [details]
From editor or global species database
Etymology The species is named after Dr H. Komatsu (National Museum of Nature and Science, Tokyo, Japan), a taxonomist of brachyuran crabs and the first person to find Echinoderes komatsui sp. n. [details]
    Definitions

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LanguageName 
Japanese Komatsu togekawa  [details]