CCZ taxon details

Dracoderidae Higgins & Shirayama, 1990

264873  (urn:lsid:marinespecies.org:taxname:264873)

  1. Biota
  2. Animalia (Kingdom)
  3. Kinorhyncha (Phylum)
  4. Allomalorhagida (Class)
  5. Anomoirhaga (Order)
  6. Dracoderidae (Family)
accepted
Family
Dracoderes Higgins & Shirayama, 1990 (type by original designation)

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marine
Higgins, R. P.; Shirayama, Y. (1990). Dracoderidae, a new family of the cyclorhagid Kinorhyncha from the Inland Sea of Japan. <em>Zoological Science.</em> 7: 939-946. [details] Available for editors  PDF available
Neuhaus, B. (2024). World Kinorhyncha Database. Dracoderidae Higgins & Shirayama, 1990. Accessed through: Rabone, M.; Glover, A.G.; Horton, T. (2024) Clarion-Clipperton Zone Species Checklist at: https://www.marinespecies.org/deepsea/ccz/aphia.php?p=taxdetails&id=264873 on 2024-11-21
Rabone, M.; Glover, A.G.; Horton, T. (2024). Clarion-Clipperton Zone Species Checklist. Dracoderidae Higgins & Shirayama, 1990. Accessed at: https://www.marinespecies.org/deepsea/CCZ/aphia.php?p=taxdetails&id=264873 on 2024-11-21
Date
action
by
2008-01-04 09:01:15Z
created
Decock, Wim
2013-05-30 08:41:25Z
changed
Neuhaus, Birger
2020-04-23 13:20:19Z
changed
Neuhaus, Birger
2020-04-28 09:40:58Z
changed
Neuhaus, Birger
2022-01-10 12:45:22Z
changed
Neuhaus, Birger

original description Higgins, R. P.; Shirayama, Y. (1990). Dracoderidae, a new family of the cyclorhagid Kinorhyncha from the Inland Sea of Japan. <em>Zoological Science.</em> 7: 939-946. [details] Available for editors  PDF available

basis of record van der Land, J. (ed). (2008). UNESCO-IOC Register of Marine Organisms (URMO). , available online at http://www.marinespecies.org/urmo/ [details] 

biology source Cepeda, D.; Trigo, D.; Pardos, F.; Sánchez, N. (2020). Does sediment composition sort kinorhynch communities? An ecomorphological approach through geometric morphometrics. <em>Scientific Reports.</em> 10, 2603: 1-12., available online at https://doi.org/10.1038/s41598-020-59511-4
note: To better understand whether the shape of the body and the appendages involved in the movement is correlated to sediment composition in meiofaunal organisms, the evolved morphological adaptations to e...    
To better understand whether the shape of the body and the appendages involved in the movement is correlated to sediment composition in meiofaunal organisms, the evolved morphological adaptations to environment in selected taxa of the phylum Kinorhyncha is studed (Dracoderidae, Pycnophyidae, Echinoderes).
[details] Available for editors  PDF available
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To European Nucleotide Archive, ENA (Dracoderidae) 
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